MAROON kw. General information. Unique selling points

Transcription

1 6 78 kw General information Dedicated heat pumps new series with Scroll compressors, with and without vapor injection. /HT version in 15 sizes Cooling capacity (35;W7): 6 73 KW Heating capacity (7;W45): 6 78 KW /MT version in 17 sizes Cooling capacity (35;W7): 6 68 KW Heating capacity (7;W45): 7 76 KW MROON 2 is a complete dedicated HP series machines which covers the range from 6 to 78kW using the same refrigerant gas (R410) with single and double compressors. Unique selling points Wide operating limits and power range utomatic management for domestic hot water Hws version available for all sizes Smarter defrosting management class pumps available for single compressor models Modularity and full accessibility

2 INDEX MROON 2 - SINGLE COMPRESSOR 3 MROON 2 - BI COMPRESSOR 7 DESCRIPTION OF THE FUNCTIONS ND CCESSORIES 10 HET PUMP INSTLLTION TIPS 18 MROON 2 MT TECHNICL DT 20 MROON 2 HT TECHNICL DT 22 MROON 2 MT ELECTRICL DT 24 MROON 2 HT ELECTRICL DT 25 EXCHNGER DIGRMS - MROON 2 MT 26 EXCHNGER DIGRMS - MROON 2 HT 28 COOLING CPCITIES - MROON 2 MT 32 HETING CPCITIES - MROON 2 MT 34 COOLING CPCITIES - MROON 2 MT 36 HETING CPCITIES - MROON 2 MT 37 RECOVERY CPCITIES - MROON 2 MT 38 COOLING CPCITIES - MROON 2 HT 40 HETING CPCITIES - MROON 2 HT 42 COOLING CPCITIES - MROON 2 HT 44 HETING CPCITIES - MROON 2 HT 45 RECOVERY CPCITIES - MROON 2 HT 46 SOUND LEVELS - MROON 2 MT 48 SOUND LEVELS - MROON 2 HT 49 SOUND LEVELS - MROON 2 MT /LN 50 SOUND LEVELS - MROON 2 HT /LN 51 MROON 2 MT DIMENSIONL LYOUTS 52 MROON 2 HT DIMENSIONL LYOUTS 70 2

3 MROON 2 - SINGLE COMPRESSOR HIGH EFFICIENCY IR-WTER HET PUMPS WITH XIL FNS WITH SINGLE SCROLL COMPRESSOR PRODUCT DESCRIPTION STRUCTURE In galvanised sheet metal and painted with polyester powders RL 7035 at 180 C, which confer high resistance to atmospheric agents. The panels can be easily removed to allow total access to the internal components. ll the structures have a condensate drip tray with the relative drain. MROON 2/HT COMPRESSOR Hermetic scroll compressor, complete with circuit breaker protection included in the electric motor windings, sump heater and rubber anti-vibration supports. The compressor used in this series is specifically designed to run as a heat pump. Optimising the compression ratio to high values allows for a superior efficiency to be reached when compared with traditional scroll compressors. The models in size 13 to 41 are equipped with a liquid injection compressor. Liquid injection allows the heat pump to run at very low outdoor temperatures while producing very hot water. MROON 2/MT COMPRESSOR Hermetic scroll compressor, complete with circuit breaker protection included in the electric motor windings, sump heater and rubber anti-vibration supports. The compressor used in this series is specifically designed to run as a heat pump. Optimising the compression ratio to high values allows for a superior efficiency to be reached when compared with traditional scroll compressors. USER SIDE EXCHNGER ISI 316 stainless steel braze-welded plate evaporator, housed inside a closed-cell insulating casing, which reduces heat loss and prevents condensation from forming. The exchanger is equipped with a temperature probe for antifreeze protection, with a temperature probe for the water inlet and outlet and with a blade flow switch supplied as standard. SOURCE SIDE EXCHNGER This consists of a coil with copper pipes and aluminium fins with a high exchange surface with fin spacing sized so as to maximise heat transfer and reduce the noise impact. The space of the fins in the exchanger has been increased so as to allow the unit to work at very low temperatures and very high moisture concentration. The subcooler is found at the base of the exchanger, which is an additional cooling circuit that prevents the formation of ice in the lower part of the coil and facilitates the flow of condensate during the defrosting operations. The effects of the subcooler are: reduced defrosting operations and the safety of having a clean heat exchanger at the end of each defrosting operation. metal mesh protects the finned core. FNS Helicoidal fans coupled directly to the electric motor, made of plastic material with a blade profile equipped with WINGLET, a special shape in the end part of the blades, which allows a reduction in the noise and an increase in the aeraulic performance. The control manages the fan speed through a speed regulator phase cut in order to optimise the operating conditions, efficiency and allow the unit to operate as a heat pump also for high outdoor temperatures. Moreover, this adjustment has a reduced noise level effect on the unit. In fact, the control device will modulate the speed of the fans at night and during mid-season. This means that every time there it is possible, the machine will minimise the fan speed and also its noise level. The fans are axial fans directly coupled to the 6-pole electric motor, with an IP 54 degree of protection, with shaped nozzles and a safety grille in accordance with EN 294. COOLING CIRCUIT It includes: a charging socket in the liquid and inlet line, liquid indicator, a solenoid valve, non-return valves, a dehydrator filter, 2 thermostatic expansion valves (1 for heat pump operation and 1 for chiller operation) equipped with an external pressure equalizer, pressure transducer, high and low pressure switches and a safety valve (excluding 7,9 and 11 for the /HT version and 8, 10 and 12 for the /MT version), liquid receiver and intake separator (sizes 22 to 41 for the /HT versione and 23 to 42 for the /MT version). The models in the /HT version size 13 to 41 are equipped with an additional circuit for liquid injection to the compressor. ELECTRIC CONTROL BORD The electric control board consists of: a main isolating switch and fuse protection of the auxiliary and power circuits a compressor remote control switch condensation/evaporation control with fan speed regulator pump relay or motor protection switch and remote control switch (in /1P, /1PS, /1PV or /1PVS version) potential free contacts for general alarm microprocessor control. The standard power supply is: 230V/1~/50Hz for size 7 of the /HT version 230V/1~/50Hz for sizes 8 and 10 of the /MT version 400V/3N~/50Hz for sizes 9 to 41 of the /HT version 400V/3N~/50Hz for sizes 12 to 42 of the /MT version. 3-phase power supply is available as an accessory for the single phase models. Single-phase power supply is available as an accessory for certain 3-phase models. 3

4 CONTROL Microprocessor control for the following functions: water temperature adjustment with inlet control anti-freeze protection compressor timing high pressure pre-alarm control alarm signals alarms reset remote on/off digital input summer/winter selection digital input. The display is used to display the following information: temperature of the outlet water condensation temperature set and differential temperature settings description of the alarms pump and compressor operation counter. The control integrates the following standard functions: automatic control of domestic hot water smooth defrosting. Certain functions are only available with the unit adequately configured. Certain functions must be enabled from the control. CHECKS ND SFETY DEVICES the units are equipped with the following safety devices: utility water temperature control probe (situated at the inlet of the utility heat exchanger) anti-freeze probe to activate the anti-freeze alarm (manually reset) low pressure switch (with automatic reset at limited intervals) low pressure switch (automatically reset at limited intervals) standard mechanical blade flow meter (manually reset) high pressure safety valve (excluding sizes 7, 9 and 11 of the /HT version and sizes 8, 10 and 12 of the /MT version) compressor over-heating protection control of the condensation pressure using the speed regulator for operation with low outdoor temperatures. control of the evaporation pressure using the speed regulator for operation with high outdoor temperatures in domestic hot water production or recovery. INSPECTION The units are inspected in the factory and supplied complete with oil and refrigerant fluid. VERSIONS /LN: SILENCED UNIT s well as the components of the basic version, the unit has a completely sound insulated compressor compartment made of sound-absorbing material, which is used with sound impeding material. /HWS: MULTIPURPOSE HET PUMP The unit in this setup is equipped with 2 exchangers: 1 on the system side for air-conditioning and heating, and 1 dedicated exclusively to the production of domestic water. T Sufficient cold or hot water can be produced on the unit system side exchanger to meet the heating and cooling requirements of the building according to the seasons. The unit on the exchanger dedicated to the DHW produces hot water to be sent to a storage tank outside the machine, which is selected and sized according to the system requirements. The unit runs in different modes according to the season: these are automatically switched (within the season) via the reading of the temperature probes and the set-point settings. Switching times and logic are designed to guarantee maximum system efficiency and reliability. This configuration must be associated to an adequately sized boiler in which very hot water is stored. The boiler must have a well for the domestic water operating probe to be inserted in the upper part, through which the unit controller will monitor the amount of domestic hot water that must be produced. Summer operation There are 3 summer modes: Chiller mode: the unit only produces cold chilled water for the system. Chiller mode with simultaneous production of domestic hot water: the unit produces chilled water for the system and domestic hot water. The recovered power for the domestic water production is complete. Heat pump mode for domestic hot water production: when there is no cold water and the domestic water operating probe is required to run, the unit heats the water inside the domestic water storage tank using the finned core coil as an evaporator. Using the hot external air as a source of heat guarantees the extremely high COP to be achieved. Switching from one mode to another occurs entirely automatically according to a priority logic in the domestic hot water production and when there is load diversity, thereby recovering the condensation energy for the production of domestic hot water. Winter operation There are 2 winter modes: T 4

5 Heat pump mode for heating: the unit produces hot water to the system side exchanger for heating purposes. Heat pump for the production of domestic hot water: produces hot water to the connected exchanger of the domestic water storage tank. Switching from one mode to another occurs entirely automatically according to a priority logic in the domestic hot water production. In addition to the components of the basic version, the /HWS unit includes: a special exchanger for the production of domestic hot water a temperature probe to be positioned on the domestic water storage tank an electronic thermostatic valve (replaces the 2 mechanical thermostatic valves). The pump used for domestic hot water must be installed in a technical compartment and adequately protected against low temperatures and the risk of its hydronic circuit freezing. HYDRULIC MODULE OPTIONS /1P: unit with one pump The unit includes a circulator (sizes 7 to 17 of the /HT version and 8 to 20 of the /MT version) or a circulation pump (sizes 22 to 41 of the /HT version and 23 to 42 for the /MT version), an expansion tank, a hydraulic circuit water drain valve, a safety valve set at 6 bar that corresponds to the maximum operating pressure value allowed. /1PV: unit with variable capacity pump The unit includes, for all sizes, an EC class circulator, an expansion tank, a hydraulic circuit water drain valve, a safety valve set at 6 bar that corresponds to the maximum operating pressure value allowed. The circulator with an EC motor has a permanent magnet rotor that guarantees very high efficiency levels for each operating condition. llows up to 25% of the power consumption of a normal pump of equal power to be saved. The permanent magnets instead of the windings allows the electric motor to be brushless, thereby optimising its efficiency. If the unit is connected to a system equipped with valves two-way, the pump will vary its flow rate so as to maintain a constant pressure head. In this case the customer will have to provide a bypass or a 3-way valve suitably positioned to ensure a minimum flow rate equal to 50% of nominal flow. /1PS: unit with pump and tank In addition to the components of the /1P version, the unit includes an insulated inertial storage tank. /1PVS: unit with pump and tank In addition to the components of the /1PV version, the unit includes an insulated inertial storage tank. /1R: unit with domestic side pump The unit is equipped with a pump for the domestic side (supplied). This module can only be matched with the units in the /HWS version and can be combined with the /1P, /1PV, /1PS or /1PVS modules. The /HWS version units with no /1R module are equipped with consent to control an external pump. 5

6 STNDRD EQUIPMENT Smooth defrosting management Heat source integration/backup management Compressor stop for external air temperatures lower than the operating limits Condensation/evaporation control with fan speed regulator Flow meter (standard) Directive 97/23 EEC (PED) Certification Summer/winter selection from digital input Remote On/Off from digital input Condensate drip tray Coil protection grid. domestic water production with timer individual operating potential free contacts Miniboss S Miniboss M VRIOUS CCESSORIES rubber anti-vibration mounts wooden cage packaging. CCESSORIES ll the units can be configured with various accessories to better meet the requirements of the specific application in which they will be set. To check availability of accessories and compatibility of their size and configuration, please refer to the price list or selection software. COOLING CIRCUIT CCESSORIES electronic thermostatic valve (standard on the /HWS unit). HYDRULIC CIRCUIT CCESSORIES filling unit with manometer anti-freeze resistance --basic version: electric heater on the utility exhanger --/1P and /1PV versione: electric heaters on the utility exchanger and heating cable on the pipes --/1PS and /1PVS versione: electric heaters on the utility exchanger and heating cable on the pipes additional heater 3-way valve to control the domestic hot water (supplied) hydraulically disconnected tank system pump with Pulse function electronic modulation of the water flow filter. ELECTRICL CCESSORIES electric power supply different from the standard one maximum and minimum voltage relays double set-point from the digital input RS485 serial interface remote user terminal electronic soft starter EC electronic fans compensaiton of the setpoint according to the external air temperature automatic control of the domestic hot water domestic hot water operating probe (standard on the /HWS unit) anti-legionella function heat source integration/backup management 6

7 MROON 2 - BI COMPRESSOR HIGH EFFICIENCY IR-WTER HET PUMPS WITH XIL FNS ND SCROLL COMPRESSORS CONNECTED IN TNDEM PRODUCT DESCRIPTION STRUCTURE In galvanised sheet metal and painted with polyester powders RL 7035 at 180 C, which confer high resistance to atmospheric agents. The panels can be easily removed to allow total access to the internal components. ll the structures have 2 condensate drip tray (1 per coil) with the relative drain. MROON 2/HT COMPRESSOR Hermetic scroll compressors in tandem configuration, complete with circuit breaker protection included in the electric motor windings, oil level indicator, crankcase heater and rubber anti-vibration mounts. The compressors used in this series are specifically designed to run as heat pumps. Optimising the compression ratio to high values allows for a superior efficiency to be reached when compared with traditional scroll compressors. The compressors have a liquid injection system: this allows the heat pump to run at very low outdoor temperatures while producing very hot water. MROON 2/MT COMPRESSOR Hermetic scroll compressors in tandem configuration, complete with circuit breaker protection included in the electric motor windings, oil level indicator, crankcase heater and rubber anti-vibration mounts. The compressors used in this series are specifically designed to run as a heat pump. Optimising the compression ratio to high values allows for a superior efficiency to be reached when compared with traditional scroll compressors. USER SIDE EXCHNGER ISI 316 stainless steel braze-welded plate evaporator, housed inside a closed-cell insulating casing, which reduces heat loss and prevents condensation from forming. The exchanger is equipped with a temperature probe for antifreeze protection, with a temperature probe for the water inlet and outlet and with a blade flow switch supplied as standard. SOURCE SIDE EXCHNGER This consists of 2 coils with copper pipes and aluminium fins with a high exchange surface with fin spacing sized so as to maximise heat transfer and reduce the noise impact. The space of the fins in the exchanger has been increased so as to allow the unit to work at very low temperatures and very high moisture concentration. The subcooler is found at the base of the exchanger, which is an additional cooling circuit that prevents the formation of ice in the lower part of the coil and facilitates the flow of condensate during the defrosting operations. The effects of the subcooler are: reduced defrosting operations and the safety of having a clean heat exchanger at the end of each defrosting operation. metal mesh protects the finned core. FNS helicoidal fan coupled directly to the electric motor, made of plastic material with a blade profile equipped with WINGLET, a special shape in the end part of the blades, which allows a reduction in the noise and an increase in the aeraulic performance. The control manages the fan speed through a speed regulator phase cut in order to optimise the operating conditions, efficiency and allow the unit to operate as a heat pump also for high outdoor temperatures. Moreover, this adjustment has a reduced noise level effect on the unit. In fact, the control device will modulate the speed of the fans at night and during mid-season. This means that every time there it is possible, the machine will minimise the fan speed and also its noise level. The fan is an axial fan directly coupled to the 6-pole electric motor, with an IP 54 degree of protection, with shaped nozzles and a safety grille in accordance with EN 294. COOLING CIRCUIT It includes: a charging socket in the liquid and inlet line, liquid indicator, a solenoid valve, non-return valves, a dehydrator filter, 2 thermostatic expansion valves (1 for heat pump operation and 1 for chiller operation) equipped with an external pressure equalizer, pressure transducer, high and low pressure switches and a safety valve, liquid receiver and intake separator. ELECTRIC CONTROL BORD The electric control board consists offrom: a main isolating switch and fuse protection of the auxiliary and power circuits remote switches for compressors condensation and evaporation control fan speed regulator pump relay or motor protection switch and remote control switch (in /1P or /2P version) potential free contacts for general alarm microprocessor control. 400V/3N~/50Hz power supply for all sizes. CONTROL Microprocessor control for the following functions: water temperature adjustment with inlet control anti-freeze protection compressor timing high pressure pre-alarm control alarm signals alarms reset remote on/off digital input summer/winter selection digital input. The display is used to display the following information: temperature of the outlet water condensation temperature set and differential temperature settings 7

8 description of the alarms pump and compressor operation counter. The control integrates the following standard functions: automatic control of the domestic hot water smooth defrosting. Certain functions are only available with the unit adequately configured. Certain functions must be enabled from the control. T T CHECKS ND SFETY DEVICES utility water temperature control probe (situated at the inlet of the utility heat exchanger) anti-freeze probe to activate the anti-freeze alarm (automatically reset at limited intervals) high pressure switch (with manual reset) low pressure switch (automatically reset at limited intervals) standard mechanical blade flow meter (manually reset) high pressure safety valve compressor over-heating protection control of the condensation pressure using the speed regulator for operation with low outdoor temperatures. control of the evaporation pressure using the speed regulator for operation with high outdoor temperatures in domestic hot water production or recovery compressor over-heating protection. INSPECTION The units are inspected in the factory and supplied complete with oil and refrigerant fluid. VERSIONS /LN: SILENCED UNIT s well as the components of the basic version, the unit has a completely sound insulated compressor compartment made of sound-absorbing material, which is used with sound impeding material. /HWS: MULTIPURPOSE HET PUMP The unit in this setup is equipped with 2 exchangers: 1 on the system side for air-conditioning and heating, and 1 dedicated exclusively to the production of domestic water. Sufficient cold or hot water can be produced on the unit system side exchanger to meet the heating and cooling requirements of the building according to the seasons. The unit on the exchanger dedicated to the DHW produces hot water to be sent to a storage tank outside the machine, which is selected and sized according to the system requirements. The unit runs in different modes according to the season: these are automatically switched (within the season) via the reading of the temperature probes and the set-point settings. Switching times and logic are designed to guarantee maximum system efficiency and reliability. This configuration must be associated to an adequately sized boiler in which very hot water is stored. The boiler must have a well for the domestic water operating probe to be inserted in the upper part, through which the unit controller will monitor the amount of domestic hot water that must be produced. Summer operation There are 3 summer modes: Chiller mode: the unit only produces cold chilled water for the system. Chiller mode with simultaneous production of domestic hot water: the unit produces chilled water for the system and domestic hot water. The recovered power for the domestic water production is complete. Heat pump mode for domestic hot water production: when there is no cold water and the domestic water operating probe is required to run, the unit heats the water inside the domestic water storage tank using the finned core coil as an evaporator. Using the hot external air as a source of heat guarantees the extremely high COP to be achieved. Switching from one mode to another occurs entirely automatically according to a priority logic in the domestic hot water production and when there is load diversity, thereby recovering the condensation energy for the production of domestic hot water. Winter operation There are 2 winter modes: Heat pump mode for heating: the unit produces hot water to the system side exchanger for heating purposes. 8

9 Heat pump for the production of domestic hot water: produces hot water to the connected exchanger of the domestic water storage tank. Switching from one mode to another occurs entirely automatically according to a priority logic in the domestic hot water production. In addition to the components of the basic version, the /HWS unit includes: a special exchanger for the production of domestic hot water a temperature probe to be positioned on the domestic water storage tank an electronic thermostatic valve (replaces the 2 mechanical thermostatic valves). HYDRULIC MODULE OPTIONS /1P: unit with one pump The unit includes a circulation pump installed inside the unit. /2P: unit with two pumps The unit includes 2 circulation pumps installed inside the unit. Each pump is a reserve of the other, controlled in timed rotation and with automatic switchover in the event of a fault. /1R: unit with domestic side pump The unit is equipped with a pump for the domestic side (supplied). This module can only be matched with the units in the /HWS setup and can be combined with the /1P or /2P modules. The HWS units with no /1R module are equipped with consent to control an external pump. The /1R module is installed inside the unit. CCESSORIES ll the units can be configured with various accessories to better meet the requirements of the specific application in which they will be set. To check availability of accessories and compatibility of their size and configuration, please refer to the price list or selection software. anti-freeze resistance --basic version: electric heater on the utility exhanger --/1P and /2P versione: electric heater on the utility exchanger and heating cable on the pipes 3-way valve to control the domestic hot water (supplied) system pump with Pulse function water filter. ELECTRICL CCESSORIES electric power supply different from the standard one maximum and minimum voltage relays double set-point from the digital input RS485 serial interface remote user terminal electronic soft starter EC electronic fans compensaiton of the setpoint according to the external air temperature automatic control of the domestic hot water domestic hot water operating probe (standard on the /HWS unit) anti-legionella function heat source integration/backup management domestic water production with timer individual operating potential free contacts utility pump inverter Miniboss S Miniboss M VRIOUS CCESSORIES rubber anti-vibration mounts wooden cage packaging. STNDRD EQUIPMENT Smooth defrosting management Heat source integration/backup management Compressor stop for external air temperatures lower than the operating limits Condensation/evaporation control with fan speed regulator Flow meter (standard) Directive 97/23 EEC (PED) Certification Summer/winter selection from digital input Remote On/Off from digital input Condensate drip tray Coil protection grid. COOLING CIRCUIT CCESSORIES electronic thermostatic valve (standard on the /HWS unit). HYDRULIC CIRCUIT CCESSORIES filling unit with manometer 9

10 DESCRIPTION OF THE FUNCTIONS ND CCESSORIES Remote ON/OFF from digital input (standard) ll the units come with this function as standard. It consists of a remote contact for turning the machine on and off by means of a signal that can be taken inside the building or piloted by a Building Management System (BMS). Summer/winter selection from digital input (standard) This function is standard for all heat pumps. When the unit is switched on, an operating mode must be set as either heat pump or chiller. Through this remote contact, the operating mode can be modified even inside the building and without direct access to the microprocessor control. Smooth defrosting (standard) The control manages the defrosting according to a variable interval threshold, depending on the pressures inside the unit and the external air temperature. Crossing this information, the control can identify the presence of ice on the coil by activating the defrosting sequence only when necessary, so as to maximise the energy efficiency of the unit. The dynamic management of the defrosting threshold allows for the function to be implemented only when the ice deposited on the coil will affect the performance in outdoor air temperatures below -5 C, when the absolute humidity of the air is very low. Controlling the auxiliary heat source (standard) The controller can manage an external heat source, which can be of integration or backup type, depending on the type of hydraulic connection. In the diagram below, for example, the boiler will be backup to the heat pump. The auxiliary heat source will be activated when the outdoor air temperature drops below a threshold that can be set from the control and only when the heat pump is insufficient to meet the load. ctivation occurs by closing a potential free contact. It is also possible to set the unit for the controller to switch the compressors off when the unit operates in heat pump mode and the outdoor air temperature drops below a minimum set temperature: the controller will stop the compressors before the unit goes into low pressure alarm, thereby preventing having to manually reactivate the machine. This function is particularly useful when the heat pump is installed in an area where the external air temperature will definitely drop below the minimum temperature allowed by the threshold (in accordance with the set-point). When the external air temperature returns above the set temperature threshold, the unit restarts automatically without requiring any intervention. Units with an integrated pump must always be kept running in order to prevent the formation of ice and to ensure correct operation of the temperature probes and anti-freeze safety devices. The shutdown temperature must be configured according to the higher set-point temperature and the operating limits of the machine. shutdown temperature other than the default can be set provided it is compatible with the unit s operating limits. Standard programming involves the /MT units having the heating set-point set at 30/35 with a shutdown temperature of -16 C /HT units having the heating set-point set at 40/45 with a shutdown temperature of -20 C If the unit must also be used to produce domestic hot water, the shutdown temperature must consider the higher water set-point and the operating limits allowed. utomatic domestic hot water control (standard) This function allows the unit to control the temperature inside a storage tank for the domestic hot water and a 3-way valve (accessory) outside the unit by means of a domestic water operating probe (accessory). Priority is always given to the production of hot water for domestic use. The request for the function to be activated must be made when placing the order, however, it can be configured at a later stage (by qualified and authorised technical personnel) provided that the unit is connected with a suitable hydraulic circuit. The request made when placing the order for special accessories to control the domestic hot water automatically entails the activation of the automatic domestic hot water control funtion. The heat pump normally operates on the system to meet the comfort requirements of the building, however, when the water temperature inside the tank drops below a set threshold, the control manages the production of domestic hot water: if the unit is operating as a heat pump for heating, the 3-way valve will be switched and the set-point changed; if on the other hand, the unit is producing chilled water for air conditioning, the control switches the unit to heat pump mode, assigns it the set-point for domestic hot water (usually higher than the set-point of the system) and turns the 3-way valve in the right position. Once the temperature inside the domestic water tank has reached the set value, the unit automatically returns to the water production for the heating and air conditioning system. Description of the winter mode The following conditions occur in winter: Heating request: the temperature of the unit inlet water 10

11 coming from the system is lower than that expected, therefore, the control switches the compressor on and the unit will run until the set-point temperature is reached. When the domestic water set-point is reached, the compressor and the pump will be switched off and the control will remain in stand-by for the next request. This function is activated by setting the unit to the domestic hot water only function. For further information refer to the wiring diagram supplied with the unit. Description of the summer mode The following conditions occur in summer: Only cooling: the temperature of the unit inlet water coming from the system is higher than that expected, therefore, the control switches the compressor on and the unit will run until the set-point temperature is reached. The compressor stops when the desired temperature is reached and only the circulation pump will keep running, which will keep the water circulating in the system. The unit will wait in this state until the water inlet temperature drops again. Domestic hot water request: let us suppose that the unit is producing hot water for the heating system (45 C) and receives the request to produce hot water from the domestic water operating probe in the storage tank since the water temperature has dropped below the set limit, (e.g. 55 C). Since the hot water is controlled with priority logic, the control will change the set-point bringing it to 55 C and switch the 3-way valve. The unit then stops and only the pump will keep running, which will keep the water circulating in the system. The unit will wait in this state until the water inlet temperature rises again. Domestic hot water request: let us suppose that the unit is producing chilled water for the air conditioning system (7 C) and receives the request to produce hot water from the domestic water operating probe in the storage tank since the domestic water temperature has dropped below the set limit, (e.g. 55 C). Since the domestic hot water is controlled with priority logic, the control will change the unit mode from chiller to heat pump, set the set-point to 55 C and switch the 3-way valve. s soon as the water inside the tank will reach the required 55 C, the control will switch the 3-way valve once again to work on the system and bring the setpoint back to 45 C. If the defrosting process must be implemented, regardless of the mode the unit is running in, it will force the 3-way valve to be switched towards the system, which is less sensitive to the reduction in temperature due to the greater inertia. Description of the mid-season mode The heating and air conditioning system is not active during the mid-season and therefore, the heat pump is solely dedicated to the production of domestic hot water. The 3-way valve is firmly positioned on the domestic hot water tank, whereas the pump and heat exchanger will only be activated on demand from the domestic water operating probe. s soon as the water inside the tank will reach the required 55 C, the control will switch the 3-way valve once again to cihller mode, turn the 3-way valve for it to work on the system and bring the set-point back to 7 C. Domestic water operating probe (accessory) The controller requires this accessory for the production of domestic hot water: it consists of a temperature probe with 11

12 a 6 m cable to be placed in a special well in the tank for the production of domestic water. Read the Heat pump installation tips section to set it in the correct position. Standard on HWS units. Hydraulically disconnected tank (accessory) If the unit must also be used for the production of domestic hot water using the 3-way valve and is equipped with an inertial tank (/1PS and /1PVS units), the Hydraulically disconnected tank accessory must be included. T The unit will be set-up with the mechanically connected tank, however, it will have a hydraulic inlet and outlet that are not connected to unit. This will allow the 3-way valve to be inserted corrected, thereby avoiding the inertial tank from being crossed during the production of the domestic hot water. nti-legionella function (accessory) nti-legionella cycles may have to controlled, depending on the type of tank chosen for the production of domestic hot water. The controller can handle activating an auxiliary heat source that will perform the thermal shock on the hot water tank, according to programmed intervals with a weekly timer. System pump with Pulse function (accessory) s standard, the unit is set to keep the system side circulation pump always on, even if it reaches the set temperature. When the unit is equipped with this accessory and the set-point is reached, the controller will switch the pump off, reactivating it periodically for sufficient time to detect the temperature of the water. If the controller verifies that the water temperature is still in set-point conditions, it will then turn the pump off again. Otherwise, the controller will reactivate the compressors to meet the system requirements. Hence, this accessory allows the electrical consumption due to pumping to be significantly reduced, especially during midseason when the load is extremely low. The anti-freeze accessory must be present for this accessory to be applied. Domestic water production with timer (accessory) If this accessory is present, 2 temperatures can be set for the domestic water by associating different time bands: Normal and Saving. This allows you to decide when the heat pump is to concentrate on the production of hot water, however, always keeping the minimum Saving temperature, which is always managed with priority logic. For example, focusing the production of water at Normal temperature at night, the better electricity rates will be taken advantage of and production of hot water just before the time when consumption is higher will be guaranteed. With this system, the unit will still never cease to control the temperature inside the domestic water tank and if there is occasional use of hot water out of the usual times, the unit will give priority to the production of domestic water until the water in the tank returns to a temperature that is equivalent to the Saving set-point. Electronic modulation of the water flow (accessory) This accessory allows the unit to modulate the water flow so as to facilitate unit start-up even if the water in the system is not at an optimal temperature. Starting the unit after the system has been OFF for a long time, the water in the system could be too hot in summer or too cold in winter. In both cases, the modulation of the water flow guarantees the unit reaches the correct operating speed, avoiding the intervention of the safety devices. This accessory is only available for per gli allestinimenti /1PV e /1PVS. Electronic thermostatic valve (accessory) This accessory is particularly suitable for units that operate in very unstable heat load conditions or in conditions where the outdoor temperature is highly variable or the operating mode is changed often, as in the case of combined air conditioning, heating and production of hot water. Using the electronic thermostatic valve allows the following: to maximise the heat exchange to the utility exchanger to minimise the response time of the cooling circuit to variations in load and operating conditions to optimise the superheating regulation to maximise the energy efficiency. EC fans (accessory) The units can be requested with EC fans, a brushless motor with electronic switchover. These motors with permanent magnets rotor guarantee very high levels of efficiency for every work condition and allow for 15% savings on the absorbed power per fan. Moreover, through a 0-10V analogue signal sent to every fan, the microprocessor allows the condensation/evaporation to be controlled by means of continuous air flow regulations as the outdoor air temperature varies and a consequent reduction in electrical consumption and noise emission. MINIBOSS S/M (accessory) In applications in which there is: the need to guarantee continuous system operation and therefore, redundancy must be foreseen by means of a reserve machine a system that will be activated for parts and will therefore require a progressive increase in the installed power there is no physical space to install one unit that guarantees 12

13 all the power, however, a number of smaller units can be installed in general, the MINIBOSS accessory, which is a control panel provided with the unit, can be used to combine several units and to coordinate the operation and rotation. This allows you to manage multiple units connected in parallel and coordinated by one supervisor in a rational and efficient way. MBS T MINIBOSS S The Miniboss S allows you to connect up to 4 units in parallel: the control allows you to enable and disable them in power steps and rotate them in operation, thereby allowing all units to be used in an identical manner. The connected units must all be the same. The Miniboss S cannot control units that have the domestic water control active. The following can be controlled directly from the Miniboss S panel: the set-point of the system the summer/winter selection of all the machines the ON/OFF of the single units or the entire system. This accessory is supplied in an electrical panel together with the unit (to be installed in a technical compartment), and must be placed on one of the machines connected in parallel and all connected units must have the same configuration. When placing the order you must specify the number of units that must be controlled so as to allow for the proper programming of the supervisor. In addition, the hydraulic circuit that connects the units must comply with one of the following formats. T P MBS P For further information regarding the use, refer to the specific documentation. MINIBOSS M The Miniboss M allows a maximum of 8 unita in parallel to be controlled. The main functions are: controlling units with HWS configurations control units with automatic domestic hot water control logic control systems with a hot/cold tank to heat/air condition and a hot tank for the production of domestic water. Besides that also implemented by the Miniboss S, the set-point of the system the DHW set-point use a compensation climatic of the system set-point the summer/winter selection of all the machines the ON/OFF of the single units or the entire system 3-way valve switchover control the operation of pumps outside the units. This accessory is supplied in an electrical panel together with the unit (to be installed in a technical compartment), and must be placed on one of the machines connected in parallel and all connected units must have the same configuration. When placing the order you must specify the number of units that must be controlled so as to allow for the proper programming of the supervisor. In addition, the hydraulic circuit that connects the units must comply with one of the following formats. MBM T MBS T T T 13

14 MBM T RS485 serial interface (accessory) The growing diffusion of domotic and BMS (Building Management System) systems has led to the need to integrate all the system components under one supervision. To meet this requirement, the unit can be equipped with an RS485 serial board with MODBUS protocol. T T Remote user terminal (accessory) This accessory consists of a replica of the remote control panel from which the unit configuration can be completed and all its parameters can be viewed. Passwords must be entered to access the masks that enable the various editing levels. For further information regarding the use, refer to the specific documentation. Filling unit with manometer (accessory) This accessory allows the hydraulic system to be filled automatically and the correct working pressure to be adjustmented, which can always be verified via the manometer, and continuously maintenance maintains this pressure, topping-up the water, if necessary. nti-freeze heater (accessory) This accessory consists of heaters fitted on the utility exchanger, pump and tank (depending on the machine configuration) to prevent damage to the hydraulic components due to the formation of ice when the machine is out of use. The power of the anti-freeze heaters is only a few Watts, depending on the model of the unit, which is sufficient to prevent the components from malfunctioning. The controller monitors the outlet probe of the exchanger (even when the unit is in standby) and when this detects a water temperature of 5 C or less (or 2 C below the set-point temperature, with a differential of 1 C) and triggers the antifreeze heater. When the temperature of the outlet water reaches 4 C (or 3 C below the set-point), it also triggers the anti-freeze alarm that stops the compressor, whilst keeping the the heaters active. The anti-freeze heaters are located in the evaporator (the 1PS version also has an anti-freeze heater installed on the tank, on the pipes and on the pump volute that will be insulated), and on any recovery heat exchangers. dditional heater (accessory) This is an electrical heater inserted in the inertial tank of the hydronic module that helps the heat pump fulfil its purpose when the power of the unit is insufficient. The capacity of the heater depends on the size of the machine. This accessory is only available with the hydraulic module with tank. Double set-point from digital input (accessory) The double set-point allows you to set 2 different operating temperatures for the heating mode and a set-point for the cooling mode. If a double set-point is required for both modes, an electronic thermostatic valve must be installed. The set-point temperatures must be specified when placing the order. The set-point can be changed from the keypad or digital input. Soft-starter (accessory) The units are equipped with the technology required to minimise peak current, however, the unit can also be fitted with a soft-starter accessory as a further precaution. It is an electronic control device that monitors the start-up of the electric motors and reduces the normal peak current of the compressor by 40%. Domestic hot water 3-way valve (accessory) It is an on/off 3-way valve that combined with the automatic domestic hot water control function, it allows the machine to control 2 separate circuits for comfort and production of domestic hot water, switching automatically from one to another, according to the system requirements. The 3-way domestic hot water valve must be installed in a technical compartment. Compensation of the set-point depending on the external temperature (accessory) The controller allows you to change the set-point of the unit when in chiller mode and in heat pump mode according to the external temperature. Compensation can be positive or positive: positive compensation occurs when there is an increase in the outdoor air temperature and the operating set also increases; whereas, negative compensation occurs when there is an increase in the air temperature and the set decreases. If the unit is also used for the production of domestic hot water the climatic adjustment will not affect the temperature of the domestic water set. Unless specified otherwise when placing the order, standard programming involves negative compensation (for both setpoints) as shown in the diagrams below. ll the settings can be modified directly by the controller device. 14

15 MROON 2 /MT MROON 2 /HT BY-PSS PIPE SET 2 = 50/55 C SET 2 = 50/55 C Mode HET PUMP SET 1 = 38/42 C -16 C -3 C SET 1 = 43/48 C -20 C -10 C PRIMRY PUMPING UNIT WITH VRIBLE FLOW Maximum and minimum voltage relays (accessory) This device continuously monitors the supply voltage of the unit, thereby verifying that it remains within a permissible range. When the voltage goes exceeds or drops below the range, the device stops the unit to avoid damaging the electric motors. The device also monitors the phase sequence. Inverter for utility pump (for the unit with the ST hydraulic module) Energy savings: Variable flow pumps have become more widespread over the years to optimise air conditioning and cooling systems. Thanks to the Inverter utility pump, Blue Box offers an alternative method that differs from conventional layouts: a constant flow primary pump and a variable flow secondary pump. Comparing the two solutions: 1) The figure below shows the layout of a constant flow primary pump and a variable flow secondary pump. Please not the use of the decoupling pipe between the primary and secondary system (designed to cover the entire flow rate): if the utilities only require a percentage of the nominal power, the decoupling pipe recirculates the excess flow, which means wasting pumping energy. EVPORTOR PRIMRY PUMPING UNIT WITH CONSTNT FLOW BCKFLOW PREVENTER SECONDRY PUMPING UNIT WITH VRIBLE FLOW The figure below shows a system with only variable flow primary pumps, which also serve the secondary system. The bypass pipe and the two-way control valve ensure minimum water flow through the evaporator when the request is below the admitted minimum water flow limit to guarantee appropriate heat exchange. The pipe and the two-way control valve are sized for a much lower water flow rate than the nominal one. This allows to considerably reduce energy losses related to the mixing process, which in traditional systems are caused by the hydraulic circuit breaker. Benefits of the solution with the Inverter for utility pump: Saving a set of pumps Reduced overall dimensions of the machines housings Lower piping costs Reduced pressure drops Greater energy efficiency on the pump side. s we can see from the graph under EUROVENT conditions, the systems in the diagrams have higher efficiency under part-load conditions, considering the energy consumed by the pumps as well as by the chiller (compressors plus fans). EER improvment at partial load 24% 22% 20% 18% 16% 14% 12% 10% 8% 6% 4% 2% 0% 100% 75% 50% 25% Total ESEER Improvment Energy savings in these conditions can be as high as 11% per year and sometimes even more! Operating logic of the Inverter for utility pump: Dp1: System side pressure drops Dp2: Evaporator pressure drops EVPORTOR dwi dwo pwi Dp2 Dp1 PUMP WITH INVERTER two Minimum thermal flywheel pwo twi SUPPLIED MODULTING BY- PSS VLVE SYSTEM SIDE When all utilities are running, the unit pump works with a nominal flow rate and system side working head equal to DP1 and evaporator pressure drop equal to Dp2. The decrease in the system thermal load involves closing the shut-off valves of the utilities with a consequent increase in pressure drops that the pump must overcome; simultaneously, the inverter control logic will decrease the flow rate with a 15

16 consequent decrease in the evaporator pressure drop, thereby restoring the pressure head to the nominal DP1. Key points for a variable flow primary system: In order for the components of the system to operate optimally, it is important to take some key points into account: 1) Minimum water flow and bypass valve supplied: The Inverter for utility pump accessory also includes the supplied 2-way by-pass valve, which is adequately sized in relation to the size of the unit. If on the system side the heat load is very low, this means that many utilities are closed, which results in an increase in pressure drops. The inverter counters the Dp1 variation detected by the sensor by reducing the speed of the pump and the flow rate as a result. However, there is a limit lower than the flow rate value below which the heat exchange towards the evaporator is not performed properly and the temperature drop processed by the evaporator increases, which might activate the antifreeze alarm. The two-way control valve adequately selected based on the machine model prevents this alarm from being triggered, thereby ensuring the minimum water flow rate towards the evaporator. 2) Minimum thermal flywheel : In the event of a heat load close to zero, with the unit in maximum power partialisation conditions, the pump set at the minimum flow rate and closed system valves, the machine might stop due to the anti-freeze alarm. To prevent this problem, there must be a minimum thermal flywheel in the evaporator / bypass valve section. Below is the formula to determine it: P0 * k Vol = N [l] P0 = Machine overall cooling capacity [kw] N : Inverse of the unit s minimum capacity control k : parameter [l/kw] Scroll compressors [l/ k kw] N The water content of the evaporator, of the hydraulic module s inertial tank (if there is one) and of the pipes between the bypass and the evaporator itself may contribute to determine the minimum thermal flywheel. However, it is advisable to use three-way valves on a certain number of utilities on the system to ensure a minimum flow of water towards the system in any condition. Please note: Where there is this accessory, the minimum cold water temperature at the outlet cannot drop below 7 C. Moreover, the temperature variation considered under the conditions specified in the project must be 5 C. Please contact our sales department for the minimum water temperature at the outlet (production of cold water) and for different temperature drop values. You should also contact the sales department in the event of production of hot water for water temperatures at the outlet below 40 C. ttention: The minimum thermal flywheel must be between the bypass valve and the evaporator. This is a part of the minimum water content of the system described in the relative chapter of the manual; the difference between the minimum water content of the system and the minimum thermal flywheel can instead be positioned in any area of the system. The minimum thermal flywheel allows the unit to operate correctly also in heat pump mode. For cooling-only machines, if using ethylene glycol mixes, it is possible to reduce the minimum thermal flywheel based on the curves below For scroll compressors: MINIMUM REDUCTION IN THE THERML FLYWHEEL -50% -55% -60% -65% -70% -75% -80% -85% -90% -95% -100% 10% 20% 30% % ETHYLENE GLYCOL If the unit is in heat pump mode, the minimum thermal flywheel is not reduced, even if there is glycol. 16

17 17

18 HET PUMP INSTLLTION TIPS Using a heat pump for air conditioning, heating and production of domestic hot water has been an established practice for years and has undoubted advantages. By its nature, the heat pump is strongly affected by the characteristics of the system, the selected operating conditions and the choices made for its installation and connection. Below are some tips that increase the efficiency and reliability of the system: CHOOSING THE CPCITY OF THE HET PUMPS CORRECTLY The heat pump must always be selected in excess, guaranteeing to exceed the maximum load besides the project load and possibly being able to operate even at lower temperatures than those of the project. n integration or backup must also be contemplated, which can replace or help the heat pump in harsher operating conditions. CHOOSING THE PROPER OPERTING TEMPERTURES Heat pumps guarantee maximum efficiency, and therefore the economic advantage in using them, since the design of the system is aimed at choosing high water temperatures for air conditioning and low ones for heating. s can be seen from the example diagrams above, even a small variation in the temperature leads to an immediate improvement in the EER and COP. CHOOSING THE PROPER TEMPERTURE FOR THE DOMESTIC WTER For the same reasons in the previous point, the choice of the tank for the production of domestic water is to be made so as to maintain the set-point for the production of hot water as low as possible. This will allow the efficiency of the system to be increased and also maximise the operating limits of the unit, thereby ensuring the production of domestic water even for very low temperatures. In general it is not advisable to set the unit set-points the limit of the permissible operating conditions, especially in the heat pump mode, for the following reasons: Setting the water set-point at the maximum temperature limit reduces the operating limits of the unit. The water filter must always be present in the water inlet of the unit otherwise the warranty will be rendered nul and void. With the passage of time the filter element can become dirty and this will increase the pressure drops and consequently reduce the water flow. Lowering the water flow will lead to an increase in the thermal gradient of the utility exchanger that can go from 4/5 C to 9/10 C, however, since the unit controls the set-point on the return temperature, this may involve the intervention of the safety devices if the unit operates at the limits of the allowed operating conditions. If the heat pump is connected directly (without intermediate circuit breakers) to a hydraulic circuit divided into areas, the pressure drop of the circuit may increase on closure of one or more areas, thereby leading to a decrease of flow and then to a increase of the thermal head to the heat exchanger. s before, if the heat pump is set to operate at the permissable limits of the operating conditions, this can lead to an intervention of the safety devices. Depending on the position chosen for the installation of the unit. In summer, the unit will be subject to solar radiation. ssuming the air is at 35, the coil (copper and aluminum and therefore excellent conductor) will be very hot. When you switch the unit on, even with the fans stopped, the evaporation will be very high, thereby leading to the definite intervention of the high pressure switch. ir recirculation can generate an environmental micro with a temperature less than 4/5, leading the unit to work out of the limits. The clearances are very important, the upstream or downstream obstruction of the fan creates pressure drops that reduce the air flow. This reduction can generate a reduction in the operating temperatures. This decrease may lead the unit out of the operating limits. ir in the circuit. ir in the system, even if thoroughly vented, creates a loss of heat transfer coefficient with the consequent possibility of the high pressure safety devices intervening. CREFUL SELECTION OF THE DOMESTIC WTER TNK When you want to use a heat pump for water production the unit must always be connected to an adequately selected tank that is dedicated to the production of domestic hot water. In fact, the heat pumps cannot produce the water instantly and the plate exchanger must also work with a closed water circuit to prevent scale from forming on the inside. The choice of the tank for the domestic water must be done very carefully because if it is not adequately sized, the system 18

19 may not be reliable. For this reason, it is strongly recommended to choose a tank that allows the heat pump to work on the technical water and not on a coil. The combination of the heat pumps with coils is in fact problematic because of the difficulty in sizing the coil surface that must always be done in the worst conditions, that is in summer conditions. Units can only be combined with coil tanks for storage provided directly by BlueBox. POSITIONING THE DOMESTIC WTER OPERTING PROBE CORRECTLY For the domestic hot water and HWS control, the units use a supplied temperature probe, which must be installed properly: the tank must have a well in the upper part, which is long enough to almost reach the centre of the tank. The probe supplied with the unit must be inserted in the well with conductive paste in order to ensure an accurate reading of the water temperature. n incorrect temperature reading, caused by an unsuitable positioning or little conductive paste, could lead to the safety devices being triggered or the unit blocking. SELECTING THE 3-WY DOMESTIC WTER VLVE CORRECTLY If you use the automatic control function of the domestic hot water, a 3-way valve with power supply 230/1~/50 is required together with a diameter of 1/4 of an inch greater than the diameter of the unit pipe. This valve must guarantee adequate speed switching and it is mandatory for the flow to never be cancelled during switching, thereby always allowing a flow. LWYS GURNTEEING THE MINIMUM WTER CONTENT If the unit is connected to a hydraulic system split into areas, such as those with radiant panels, with them being controlled via solenoid valves on the manifold (heads), it is mandatory to ensure the presence of at least five litres of water for every kw of heat output of the unit in the most unfavorable condition, that is with a single open area. This is necessary to prevent the condition whereby almost all the heads are closed and the heat pump has to work with an extremely small volume of water. In this case, during the defrosting cycle, the safety devices may intervene due to excessively cold water. STRTING-UP THE UNIT WITH WTER THT IS TOO HOT OR TOO COLD The safety devices may intervene if the unit is started-up in winter with a very cold water temperature and out of the operating limits of the unit. The system is brought up to its nominal speed by simply reducing the thermal load by sectioning part of the system. When the water temperature of the partial system will be within the operating range, the part of the system that was previously sectioned can then be connected. POSITIONING THE COLD WTER TOP-UP CORRECTLY Depending on the type of tank used for the production of domestic hot water, there may be a connection for the water top-up from the mains (cold). It is very important for this connection to not be too close to the return pipe to the heat pump. In fact this could cause the cold water inlet from the mains cool the return water to the heat pump and this sudden drop in temperature of the inlet water to the hot exchanger may lead to the safety devices intervening. Even in this case using an instantaneous producer for the domestic water combined with a tank that allows the heat pump to work on the technical water allows this problem to be avoided. CONSIDERING THE MOISTURE CONTENT IN THE WLLS ND SLBS IN THE BUILDING Large amounts of water are used to construct masonry works and screeds, to which one can add the rain absorbed by the unfinished works. ll the moisture absorbed by the building evaporates very slowly. Due to the high moisture content present in the entire building, in the first two periods of heating the heating requirements of the building will be increased. If the heat pump is adequately sized to overcome the nominal heat load of the building and the first system start-up is in cold weather, the heating capacity output may be insufficient to start-up the entire system at once. In this case it is advisable to carry out its start-up per area, namely adding a few sections of the system at a time just as those already connected start to heat up or with the use of an additional electrical heater to compensate for the increased heating requirements. 19

20 MROON 2 MT TECHNICL DT Unit size Heating (Gross values) Nominal heating capacity (7;W35) Heating absorbed power COP Efficiency Class Nominal heating capacity (7;W45) Heating absorbed power COP Efficiency Class Heating (EN14511 values) Nominal heating capacity (7;W35) COP Efficiency Class Nominal heating capacity (7;W45) COP Efficiency Class Cooling (Gross values) Nominal cooling capacity (35;W18) Cooling absorbed power EER Efficiency Class Nominal cooling capacity (35;W7) Cooling absorbed power EER Efficiency Class Cooling (EN14511 values) Nominal cooling capacity (35;W18) EER Efficiency Class Nominal cooling capacity (35;W7) EER Efficiency Class Compressor Type Quantity/Cooling circuits Capacity control Total oil load Total refrigerant load Fans Type Quantity ir flow rate User side exchanger Type Water flow rate Pressure drop Hydraulic module Pump model Useful pump head Storage tank capacity Expansion tank Noise Sound power level Noise pressure level Dimensions and weight Length Depth Height Operating weight (1) kw 6,9 8,9 11,1 14,9 16,6 19,2 22,1 24,0 27,6 32,3 36,8 40,4 (1), (2) kw 1,7 2,1 2,5 3,5 3,9 4,3 5,0 5,5 6,6 7,5 8,2 9,4 (1) 4,09 4,14 4,40 4,29 4,25 4,48 4,39 4,38 4,19 4,32 4,50 4,30 (3) kw 6,8 8,8 10,9 14,6 16,2 18,7 21,5 23,4 26,9 31,5 35,7 39,2 (3), (2) kw 2,1 2,7 3,1 4,4 4,8 5,3 6,2 6,8 8,0 9,2 10,0 11,4 (3) 3,23 3,22 3,46 3,37 3,40 3,54 3,47 3,45 3,37 3,42 3,55 3,43 (1), (9) kw 6,9 8,9 11,2 15,0 16,7 19,4 22,2 24,2 27,8 32,5 37,1 40,6 (1), (9) 4,06 4,12 4,36 4,16 4,16 4,37 4,29 4,28 4,10 4,23 4,40 4,23 (3), (9) kw 6,9 8,8 10,9 14,8 16,3 18,9 21,7 23,5 27,1 31,7 35,9 39,4 (3), (9) 3,21 3,20 3,43 3,29 3,34 3,47 3,41 3,39 3,32 3,37 3,49 3,38 (5) kw 8,5 10,2 13,0 17,9 19,5 22,6 26,0 28,3 32,9 39,9 43,5 45,1 (5), (2) kw 2,2 2,6 3,1 4,3 4,6 5,4 6,4 6,9 8,3 9,3 10,9 11,5 (5) 3,84 3,88 4,19 4,14 4,28 4,23 4,05 4,12 3,98 4,29 4,00 3,93 (6) kw 6,2 7,6 9,7 13,4 14,2 16,8 19,1 20,8 24,4 29,6 32,4 38,6 (6),(2) kw 2,1 2,5 2,9 4,0 4,4 4,9 5,9 6,4 7,6 8,7 10,1 11,0 (6) 2,90 3,02 3,38 3,31 3,23 3,40 3,24 3,27 3,21 3,42 3,20 3,51 B B (5), (9) kw 8,5 10,2 13,0 17,8 19,4 22,5 25,9 28,1 32,7 39,7 43,2 44,9 (5), (9) 3,80 3,84 4,14 3,98 4,15 4,09 3,92 4,01 3,88 4,18 3,90 3,84 (6), (9) kw 6,2 7,5 9,6 13,2 14,1 16,6 18,9 20,7 24,2 29,4 32,2 38,4 (6), (9) 2,87 2,99 3,33 3,16 3,12 3,28 3,13 3,17 3,11 3,32 3,11 3,42 C B Scroll n / n 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 n kg 1,1 1,3 1,3 1,2 1,7 1,9 1,8 2,5 3,3 3,3 3,3 3,3 kg 2,6 3,5 4,2 5,7 6,2 7,0 8,4 9,1 10,7 12,4 13,5 14,2 xial n m3/h Plates (1) l/h (1) kpa P1 P1 P1 P2 P2 P2 P3 P3 P3 P3 P3 P4 kpa l l (7) db() (8) db() mm mm mm kg (1) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (2) The total power is given by the sum of the power absorbed by the compressors and by the fans (3) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (4) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (5) External air temperature 35 C; input water-evaporator output temperature C (6) External air temperature 35 C; input water-evaporator output temperature 12-7 C 20 (7) Sound power levels calculated compliant to ISO 3744 (8) Sound pressure levels refer to 10 meters from unit in free field and directionality factor Q=2 (9) Values compliant with EN :2011 This board reports the feature data of the base and standard versions; for details, refer to the specific documentation.

21 MROON 2 MT TECHNICL DT Heating (Gross values) Nominal heating capacity (7;W35) Heating absorbed power COP Efficiency Class Nominal heating capacity (7;W45) Heating absorbed power COP Efficiency Class Heating (EN14511 values) Nominal heating capacity (7;W35) COP Efficiency Class Nominal heating capacity (7;W45) COP Efficiency Class Cooling (Gross values) Nominal cooling capacity (35;W18) Cooling absorbed power EER Efficiency Class Nominal cooling capacity (35;W7) Cooling absorbed power EER Efficiency Class Cooling (EN14511 values) Nominal cooling capacity (35;W18) EER Efficiency Class Nominal cooling capacity (35;W7) EER Efficiency Class Compressor Type Quantity/Cooling circuits Capacity control Total oil load Total refrigerant load Fans Type Quantity ir flow rate User side exchanger Type Water flow rate Pressure drop Hydraulic module Pump model Useful pump head Noise Sound power level Noise pressure level Dimensions and weight Length Depth Height Operating weight Unit size (1) kw 45,6 53,4 60,6 70,6 77,0 (1), (2) kw 10,9 12,1 13,9 16,3 17,9 (1) 4,18 4,40 4,37 4,34 4,30 (3) kw 44,3 52,0 59,1 68,3 75,1 (3), (2) kw 13,1 14,9 17,2 20,0 21,8 (3) 3,38 3,50 3,43 3,41 3,44 (1), (9) kw 45,9 53,7 60,9 71,0 77,4 (1), (9) 4,11 4,32 4,30 4,26 4,23 (3), (9) kw 44,6 52,3 59,4 68,6 75,5 (3), (9) 3,34 3,45 3,39 3,37 3,39 (5) kw 54,3 64,5 73,6 83,6 91,4 (5), (2) kw 14,8 16,5 20,0 22,0 25,3 (5) 3,67 3,90 3,68 3,79 3,62 B B B C (6) kw 40,5 48,2 55,0 62,5 68,8 (6),(2) kw 13,6 15,1 18,4 20,5 23,2 (6) 2,97 3,18 2,99 3,06 2,97 B B B B (5), (9) kw 54,0 64,2 73,2 83,2 91,1 (5), (9) 3,59 3,81 3,61 3,72 3,55 C C B C (6), (9) kw 40,2 47,9 54,7 62,2 68,4 (6), (9) 2,90 3,10 2,93 2,99 2,91 C B B B Scroll n / n 2/1 2/1 2/1 2/1 2/1 n kg 3,6 6,8 6,8 6,8 6,8 kg 15,2 17,8 20,2 23,5 25,7 xial n m3/h Plates (1) l/h (1) kpa P5 P5 P5 P5 P5 kpa (7) db() (8) db() mm mm mm kg (1) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (2) The total power is given by the sum of the power absorbed by the compressors and by the fans (3) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (4) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (5) External air temperature 35 C; input water-evaporator output temperature C (6) External air temperature 35 C; input water-evaporator output temperature 12-7 C (7) Sound power levels calculated compliant to ISO 3744 (8) Sound pressure levels refer to 10 meters from unit in free field and directionality factor Q=2 (9) Values compliant with EN :2011 This board reports the feature data of the base and standard versions; for details, refer to the specific documentation. 21

22 MROON 2 HT TECHNICL DT Unit size Heating (Gross values) Nominal heating capacity (7;W35) Heating absorbed power COP Efficiency Class Nominal heating capacity (7;W45) Heating absorbed power COP Efficiency Class Heating (EN14511 values) Nominal heating capacity (7;W35) COP Efficiency Class Nominal heating capacity (7;W45) COP Efficiency Class Cooling (Gross values) Nominal cooling capacity (35;W18) Cooling absorbed power EER Efficiency Class Nominal cooling capacity (35;W7) Cooling absorbed power EER Efficiency Class Cooling (EN14511 values) Nominal cooling capacity (35;W18) EER Efficiency Class Nominal cooling capacity (35;W7) EER Efficiency Class Compressor Type Quantity/Cooling circuits Capacity control Total oil load Total refrigerant load Fans Type Quantity ir flow rate User side exchanger Type Water flow rate Pressure drop Hydraulic module Pump model Useful pump head Storage tank capacity Expansion tank Noise Sound power level Noise pressure level Dimensions and weight Length Depth Height Operating weight (1) kw 6,8 8,4 10,8 13,0 16,0 21,0 25,0 29,7 34,3 37,4 (1), (2) kw 1,6 2,0 2,5 3,0 3,7 4,9 5,8 7,1 8,1 8,9 (1) 4,19 4,33 4,32 4,30 4,30 4,28 4,29 4,21 4,24 4,19 (3) kw 6,6 8,3 10,5 13,2 16,3 21,2 25,3 30,7 33,1 38,0 (3), (2) kw 1,9 2,4 3,1 3,8 4,6 6,1 7,3 8,8 10,1 11,0 (3) 3,38 3,45 3,39 3,52 3,51 3,46 3,46 3,49 3,28 3,46 (1), (9) kw 6,8 8,5 10,8 13,1 16,1 21,1 25,2 29,9 34,5 37,6 (1), (9) 4,15 4,30 4,28 4,19 4,20 4,18 4,19 4,13 4,16 4,13 (3), (9) kw 6,6 8,3 10,5 13,3 16,4 21,4 25,5 30,8 33,3 38,2 (3), (9) 3,38 3,45 3,39 3,52 3,51 3,46 3,46 3,49 3,28 3,46 (5) kw 8,3 10,4 13,3 15,4 18,6 25,2 29,9 38,1 41,9 48,4 (5), (2) kw 2,0 2,6 3,4 3,8 4,6 6,3 7,4 9,7 10,4 12,3 (5) 4,24 4,07 3,88 4,10 4,03 4,02 4,05 3,91 4,05 3,95 (6) kw 6,1 7,7 10,1 12,1 14,5 19,8 23,1 29,9 34,0 37,8 (6),(2) kw 1,9 2,4 3,2 3,7 4,5 6,1 7,0 9,2 10,1 11,5 (6) 3,24 3,18 3,15 3,29 3,24 3,25 3,33 3,26 3,38 3,27 (5), (9) kw 8,2 10,4 13,3 15,3 18,5 25,1 29,7 37,9 41,7 48,2 (5), (9) 4,19 4,03 3,84 3,96 3,91 3,89 3,93 3,82 3,95 3,88 (6), (9) kw 6,0 7,7 10,0 12,0 14,4 19,6 22,9 29,8 33,8 37,6 (6), (9) 3,20 3,15 3,11 3,17 3,14 3,14 3,22 3,18 3,29 3,20 Scroll n / n 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 1 / 1 n kg 0,7 1,2 1,2 1,2 1,2 1,9 3,4 3,4 3,4 3,4 kg 2,6 3,5 4,2 6,2 7,0 8,4 9,1 10,7 12,4 13,5 xial n m3/h Plates (1) l/h (1) kpa P1 P1 P1 P2 P2 P3 P3 P3 P4 P4 kpa l l (7) db() (8) db() mm mm mm kg (1) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (2) The total power is given by the sum of the power absorbed by the compressors and by the fans (3) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (4) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (5) External air temperature 35 C; input water-evaporator output temperature C (6) External air temperature 35 C; input water-evaporator output temperature 12-7 C 22 (7) Sound power levels calculated compliant to ISO 3744 (8) Sound pressure levels refer to 10 meters from unit in free field and directionality factor Q=2 (9) Values compliant with EN :2011 This board reports the feature data of the base and standard versions; for details, refer to the specific documentation.

23 MROON 2 HT TECHNICL DT Heating (Gross values) Nominal heating capacity (7;W35) Heating absorbed power COP Efficiency Class Nominal heating capacity (7;W45) Heating absorbed power COP Efficiency Class Heating (EN14511 values) Nominal heating capacity (7;W35) COP Efficiency Class Nominal heating capacity (7;W45) COP Efficiency Class Cooling (Gross values) Nominal cooling capacity (35;W18) Cooling absorbed power EER Efficiency Class Nominal cooling capacity (35;W7) Cooling absorbed power EER Efficiency Class Cooling (EN14511 values) Nominal cooling capacity (35;W18) EER Efficiency Class Nominal cooling capacity (35;W7) EER Efficiency Class Compressor Type Quantity/Cooling circuits Capacity control Total oil load Total refrigerant load Fans Type Quantity ir flow rate User side exchanger Type Water flow rate Pressure drop Hydraulic module Pump model Useful pump head Noise Sound power level Noise pressure level Dimensions and weight Length Depth Height Operating weight Unit size (1) kw 41,8 50,3 55,9 69,3 76,2 (1), (2) kw 9,7 11,5 13,3 16,1 17,8 (1) 4,31 4,38 4,20 4,30 4,27 (3) kw 42,4 51,1 57,7 70,7 77,5 (3), (2) kw 12,2 14,4 16,8 20,0 22,0 (3) 3,48 3,54 3,43 3,53 3,52 (1), (9) kw 42,0 50,5 56,2 69,7 76,5 (1), (9) 4,23 4,30 4,14 4,23 4,20 (3), (9) kw 42,6 51,4 57,9 71,0 77,9 (3), (9) 3,48 3,54 3,43 3,53 3,52 (5) kw 49,7 57,9 71,9 80,9 93,1 (5), (2) kw 13,1 15,4 19,2 21,2 25,1 (5) 3,80 3,77 3,74 3,81 3,70 B B B (6) kw 39,2 44,9 55,7 63,9 72,9 (6),(2) kw 12,5 14,5 18,0 20,5 23,5 (6) 3,13 3,09 3,10 3,12 3,10 B B (5), (9) kw 49,5 57,7 71,6 80,5 92,8 (5), (9) 3,72 3,69 3,68 3,74 3,64 B B B B C (6), (9) kw 39,0 44,6 55,4 63,6 72,5 (6), (9) 3,06 3,01 3,04 3,06 3,04 B B B B B Scroll n / n 2/1 2/1 2/1 2/1 2/1 n kg 3,8 6,8 6,8 6,8 6,8 kg 14,0 18,0 19,0 23,0 25,0 xial n m3/h Plates (1) l/h (1) kpa P5 P5 P5 P5 P5 kpa (7) db() (8) db() mm mm mm kg (1) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (2) The total power is given by the sum of the power absorbed by the compressors and by the fans (3) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (4) External air temperature 7 C DB, 6 C WB; condenser input-output temperature C (5) External air temperature 35 C; input water-evaporator output temperature C (6) External air temperature 35 C; input water-evaporator output temperature 12-7 C (7) Sound power levels calculated compliant to ISO 3744 (8) Sound pressure levels refer to 10 meters from unit in free field and directionality factor Q=2 (9) Values compliant with EN :2011 This board reports the feature data of the base and standard versions; for details, refer to the specific documentation. 23

24 MROON 2 MT ELECTRICL DT Unit size Maximum absorbed power Maximum absorbed current Maximum current at peak (1),(3) (2),(3) (4) kw 3,1 16,7 61,7 3,9 19,7 82,7 4,5 8,7 48,7 6,3 11,5 65,5 6,4 13,3 65,5 7,6 16,5 75,5 8,9 18,4 104,4 9,6 19,4 98,4 11,2 26,0 116,0 12,9 27,0 123,0 14,2 30,0 123,0 15,9 36,0 145,0 3,3 (17,7) (62,7) 4,1 (20,7) (83,7) 4,7 (9,7) (49,7) 6,7 (13,5) (67,5) 6,8 (15,3) (67,5) 8,0 (18,5) (77,5) 9,5 (21,2) (107,2) 10,2 (22,2) (101,2) 11,8 (28,8) (118,8) 13,5 (29,8) (125,8) 14,8 (32,8) (125,8) 16,8 (38,6) (147,6) Maximum current at peak with 37,0 49,6 29,2 39,3 39,3 45,3 62,6 59,0 69,6 73,8 73,8 87,0 (4) soft-starter (37,6) (50,2) (29,8) (40,5) (40,5) (46,5) (64,3) (60,7) (71,3) (75,5) (75,5) (88,6) Fan nominal power n x kw 1 x 0,2 1 x 0,2 1 x 0,2 2 x 0,2 2 x 0,2 2 x 0,2 2 x 0,3 2 x 0,3 2 x 0,6 2 x 0,6 2 x 0,6 2 x 0,6 Fan nominal current Pump motor nominal power Pump motor nominal current n x kw 1 x 0,7 0,21 1,00 1 x 0,7 0,21 1,00 1 x 0,7 0,21 1,00 2 x 0,7 0,42 2,00 2 x 0,7 0,42 2,00 2 x 0,7 0,42 2,00 2 x 1,7 0,62 2,77 2 x 1,7 0,62 2,77 2 x 2,5 0,62 2,77 2 x 2,5 0,62 2,77 2 x 2,5 0,62 2,77 2 x 2,5 0,90 2,61 Electric power supply V/ph/Hz 230/1~/50 230/1~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 Optional power supply V/ph/Hz 400/3N~/50 400/3N~/50 230/1~/50 230/1~/ MROON 2 MT ELECTRICL DT Unit size Maximum absorbed power Maximum absorbed current Maximum current at peak (1),(3) (2),(3) (4) kw 18,4 34,9 119,7 21,7 44,5 134,5 25,0 46,5 142,5 29,1 54,7 147,7 31,4 66,7 175,7 19,8 (37,6) (122,4) 23,1 (47,2) (137,2) 26,4 (49,2) (145,2) 30,5 (57,4) (150,4) 32,8 (69,4) (178,4) Maximum current at peak with softstarter (73,4) (82,3) (87,1) (90,2) (107,0) 71,8 80,7 85,5 88,6 105,4 (4) Fan nominal power Fan nominal current Pump motor nominal power Pump motor nominal current Electric power supply Optional power supply n x kw n x kw V/ph/Hz V/ph/Hz 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 2,1 1 x 4,7 1,43 2,70 400/3~/50 1 x 2,1 1 x 4,7 1,43 2,70 400/3~/50 (1) Electric power that must be available from the electric network for the unit to work. (2) Current at which the units' internal protections intervene. It is the maximum current absorbed by the unit. This value must never be exceeded and must be taken into account when sizing the line and the relative protection devices (see the wiring diagram supplied with the units). (3) The values between brackets refer to the ST version units with the maximum number of 24 pumps available (with or without storage tank). (4) Maximum peak current calculated considering the compressor start-up with higher power and maximum current absorbed by all other devices. This board reports the feature data of the base and standard versions; for details, refer to the specific documentation.

25 MROON 2 HT ELECTRICL DT Unit size Maximum absorbed power Maximum absorbed current Maximum current at peak (1),(3) (2),(3) (4) kw 2,9 13,5 60,7 3,6 6,9 43,7 4,6 7,9 52,2 5,8 11,7 54,0 7,1 13,4 72,5 9,7 19,4 104,4 13,4 32,4 121,4 13,9 34,0 123,0 15,7 39,5 145,0 17,4 44,0 179,0 3,1 (14,5) (61,7) 3,8 (7,9) (44,7) 4,8 (8,9) (53,2) 6,3 (13,7) (56,0) 7,6 (15,4) (74,5) 10,3 (22,2) (107,2) 14,0 (35,2) (124,2) 14,5 (36,8) (125,8) 16,6 (42,1) (147,6) 18,3 (46,6) (181,6) Maximum current at peak with softstarter (37,0) (26,8) (31,9) (33,6) (44,7) (64,3) (74,5) (75,5) (88,6) (109,0) 36,4 26,2 31,3 32,4 43,5 62,6 72,8 73,8 87,0 107,4 (4) Fan nominal power Fan nominal current Pump motor nominal power Pump motor nominal current n x kw n x kw 1 x 0,2 1 x 0,7 0,21 1,00 1 x 0,2 1 x 0,7 0,21 1,00 1 x 0,2 1 x 0,7 0,21 1,00 1 x 0,6 1 x 2,5 0,42 2,00 1 x 0,6 1 x 2,5 0,42 2,00 2 x 0,3 2 x 1,7 0,62 2,77 2 x 0,3 2 x 1,7 0,62 2,77 2 x 0,6 2 x 2,5 0,62 2,77 2 x 0,6 2 x 2,5 0,90 2,61 2 x 0,6 2 x 2,5 0,90 2,61 Electric power supply V/ph/Hz 230/1~/50 230/1~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 400/3N~/50 Optional power supply V/ph/Hz /1~/ MROON 2 HT ELECTRICL DT Unit size Maximum absorbed power Maximum absorbed current Maximum current at peak (1),(3) (2),(3) (4) kw 19,5 34,5 119,5 26,8 60,5 149,5 26,8 60,5 149,5 31,3 73,7 179,2 34,7 82,7 217,7 20,9 (37,2) (122,2) 28,2 (63,2) (152,2) 28,2 (63,2) (152,2) 32,7 (76,4) (181,9) 36,1 (85,4) (220,4) Maximum current at peak with softstarter (73,3) (91,3) (91,3) (109,1) (132,2) 71,7 89,7 89,7 107,5 130,6 (4) Fan nominal power Fan nominal current Pump motor nominal power Pump motor nominal current Electric power supply Optional power supply n x kw n x kw V/ph/Hz V/ph/Hz 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 1,3 1 x 2,5 1,43 2,70 400/3~/50 1 x 2,1 1 x 4,7 1,43 2,70 400/3~/50 1 x 2,1 1 x 4,7 1,43 2,70 400/3~/50 (1) Electric power that must be available from the electric network for the unit to work. (2) Current at which the units' internal protections intervene. It is the maximum current absorbed by the unit. This value must never be exceeded and must be taken into account when sizing the line and the relative protection devices (see the wiring diagram supplied with the units). (3) The values between brackets refer to the ST version units with the maximum number of pumps available (with or without storage tank). (4) Maximum peak current calculated considering the compressor start-up with higher power and maximum current absorbed by all other devices. This board reports the feature data of the base and standard versions; for details, refer to the specific documentation. 25

26 PUMP DIGRMS - MROON 2 MT STTIC HED [kpa] P4 50 P1 P2 P CPCITY [l/h] EXCHNGER DIGRMS - MROON 2 MT PRESSURE DROPS [kpa] CPCITY [l/h] 26

27 PUMP DIGRMS - MROON 2 MT P5 STTIC HED [kpa] CPCITY [l/h] EXCHNGER DIGRMS - MROON 2 MT PRESSURE DROPS [kpa] CPCITY [l/h] 27

28 PUMP DIGRMS - MROON 2 HT STTIC HED [kpa] P4 50 P1 P2 P CPCITY [l/h] EXCHNGER DIGRMS - MROON 2 HT PRESSURE DROPS [kpa] CPCITY [l/h] 28

29 PUMP DIGRMS - MROON 2 HT P5 STTIC HED [kpa] CPCITY [l/h] EXCHNGER DIGRMS - MROON 2 HT PRESSURE DROPS [kpa] CPCITY [l/h] 29

30 OPERTING LIMITS - MROON 2 MT COOLING Utility outlet water temperature ( C) Utility outlet water temperature ( C) External air temperature ( C) HETING External air temperature ( C) RECOVERY Utility outlet water temperature ( C) External air temperature ( C) Notes: The thermal gradient to the utility side exchanger must be between 3 C and 6 C : the unit can only operate in this area with evaporator side glycol water 30

31 OPERTING LIMITS - MROON 2 HT COOLING Utility outlet water temperature ( C) Utility outlet water temperature ( C) External air temperature ( C) HETING External air temperature ( C) RECOVERY Utility outlet water temperature ( C) External air temperature ( C) Notes: The thermal gradient to the utility side exchanger must be between 3 C and 6 C : the unit can only operate in this area with evaporator side glycol water : limit for models 7, 9 and 11 31

32 COOLING CPCITIES - MROON 2 MT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 6,5 1,7 3,82 6,2 1,9 3,24 5,8 2,1 2,71 5,4 2,4 2,25 6 6,7 1,7 3,92 6,4 1,9 3,33 6,0 2,1 2,80 5,6 2,4 2,33 7 6,9 1,7 4,04 6,6 1,9 3,43 6,2 2,1 2,87 5,7 2,4 2,40 8 7,2 1,7 4,14 6,8 1,9 3,52 6,4 2,1 2,97 5,9 2,4 2,46 9 7,4 1,7 4,27 7,0 1,9 3,62 6,6 2,2 3,04 6,1 2,4 2, ,6 1,7 4,37 7,2 1,9 3,71 6,8 2,2 3,13 6,3 2,4 2, ,3 1,8 4,70 7,8 2,0 3,99 7,4 2,2 3,38 6,9 2,4 2, ,5 1,8 4,80 8,1 2,0 4,09 7,6 2,2 3,46 7,1 2,4 2, ,7 1,8 4,91 8,3 2,0 4,18 7,8 2,2 3,54 7,3 2,4 2, ,0 1,8 5,02 8,5 2,0 4,30 8,0 2,2 3,63 7,5 2,5 3, ,2 1,8 5,13 8,7 2,0 4,39 8,2 2,2 3,71 7,7 2,5 3, ,5 1,8 5,23 9,0 2,0 4,49 8,5 2,2 3,80 7,9 2,5 3,20 5 8,1 2,0 4,09 7,6 2,2 3,42 7,1 2,5 2,84 6,6 2,8 2,33 6 8,3 2,0 4,20 7,8 2,2 3,51 7,3 2,5 2,92 6,8 2,8 2,40 7 8,6 2,0 4,30 8,1 2,2 3,61 7,5 2,5 3,00 7,0 2,8 2,46 8 8,8 2,0 4,41 8,3 2,2 3,70 7,8 2,5 3,07 7,2 2,8 2,53 9 9,1 2,0 4,51 8,6 2,3 3,78 8,0 2,5 3,15 7,4 2,9 2, ,3 2,0 4,62 8,8 2,3 3,88 8,2 2,5 3,23 7,6 2,9 2, ,1 2,1 4,91 9,5 2,3 4,13 8,9 2,6 3,45 8,3 2,9 2, ,4 2,1 5,02 9,8 2,3 4,23 9,2 2,6 3,53 8,5 2,9 2, ,7 2,1 5,11 10,1 2,3 4,30 9,4 2,6 3,61 8,8 2,9 2, ,0 2,1 5,21 10,3 2,4 4,40 9,7 2,6 3,68 9,0 2,9 3, ,3 2,1 5,31 10,6 2,4 4,48 9,9 2,6 3,77 9,2 3,0 3, ,6 2,1 5,42 10,9 2,4 4,57 10,2 2,7 3,83 9,5 3,0 3, ,3 2,3 4,41 9,7 2,6 3,77 9,1 2,8 3,19 8,4 3,2 2, ,6 2,3 4,52 10,0 2,6 3,86 9,3 2,9 3,26 8,7 3,2 2, ,9 2,4 4,62 10,3 2,6 3,94 9,6 2,9 3,34 8,9 3,2 2, ,2 2,4 4,73 10,6 2,6 4,02 9,9 2,9 3,41 9,2 3,2 2, ,5 2,4 4,83 10,9 2,6 4,12 10,2 2,9 3,48 9,5 3,3 2, ,9 2,4 4,92 11,2 2,7 4,21 10,5 2,9 3,56 9,7 3,3 2, ,9 2,5 5,22 12,1 2,7 4,46 11,4 3,0 3,78 10,6 3,3 3, ,2 2,5 5,32 12,5 2,7 4,54 11,7 3,0 3,86 10,9 3,4 3, ,6 2,5 5,41 12,8 2,8 4,63 12,0 3,1 3,92 11,1 3,4 3, ,9 2,5 5,51 13,1 2,8 4,70 12,3 3,1 4,00 11,4 3,4 3, ,3 2,5 5,60 13,5 2,8 4,79 12,6 3,1 4,07 11,7 3,4 3, ,6 2,6 5,68 13,8 2,8 4,88 13,0 3,1 4,14 12,0 3,5 3, ,0 3,4 4,16 13,2 3,7 3,57 12,5 4,1 3,02 11,6 4,6 2, ,4 3,4 4,25 13,6 3,7 3,66 12,9 4,1 3,10 12,0 4,6 2, ,8 3,4 4,35 14,0 3,8 3,74 13,2 4,2 3,17 12,3 4,7 2, ,2 3,4 4,44 14,4 3,8 3,82 13,6 4,2 3,26 12,7 4,7 2, ,6 3,4 4,54 14,8 3,8 3,91 14,0 4,2 3,33 13,1 4,7 2, ,1 3,5 4,63 15,3 3,8 3,99 14,4 4,2 3,40 13,4 4,7 2, ,4 3,6 4,89 16,5 3,9 4,23 15,6 4,3 3,61 14,6 4,8 3, ,8 3,6 4,97 17,0 3,9 4,31 16,0 4,3 3,69 15,0 4,8 3, ,3 3,6 5,07 17,4 4,0 4,39 16,4 4,4 3,76 15,4 4,8 3, ,8 3,7 5,14 17,9 4,0 4,46 16,9 4,4 3,83 15,8 4,9 3, ,3 3,7 5,22 18,3 4,0 4,53 17,3 4,4 3,90 16,2 4,9 3, ,7 3,7 5,31 18,8 4,1 4,61 17,7 4,5 3,96 16,6 4,9 3, ,0 3,7 4,01 14,1 4,1 3,46 13,2 4,5 2,96 12,2 4,9 2, ,4 3,7 4,12 14,6 4,1 3,56 13,7 4,5 3,05 12,7 4,9 2, ,9 3,8 4,23 15,0 4,1 3,66 14,1 4,5 3,13 13,1 4,9 2, ,4 3,8 4,34 15,5 4,1 3,75 14,5 4,5 3,22 13,5 4,9 2, ,9 3,8 4,45 16,0 4,1 3,85 15,0 4,5 3,31 13,9 5,0 2, ,4 3,8 4,57 16,4 4,2 3,96 15,4 4,5 3,40 14,4 5,0 2, ,9 3,8 4,91 17,9 4,2 4,26 16,8 4,6 3,66 15,7 5,0 3, ,4 3,9 5,02 18,4 4,2 4,37 17,3 4,6 3,76 16,1 5,0 3, ,9 3,9 5,14 18,9 4,2 4,47 17,8 4,6 3,85 16,6 5,1 3, ,5 3,9 5,27 19,5 4,2 4,58 18,3 4,6 3,94 17,1 5,1 3, ,1 3,9 5,38 20,0 4,3 4,68 18,8 4,7 4,05 17,6 5,1 3, ,6 3,9 5,51 20,5 4,3 4,79 19,4 4,7 4,14 18,1 5,1 3, ,6 4,1 4,28 16,7 4,5 3,68 15,7 5,0 3,15 14,6 5,5 2, ,2 4,2 4,37 17,2 4,6 3,77 16,2 5,0 3,22 15,1 5,5 2, ,7 4,2 4,46 17,7 4,6 3,85 16,7 5,1 3,29 15,5 5,6 2, ,2 4,2 4,56 18,2 4,6 3,93 17,1 5,1 3,37 16,0 5,6 2, ,8 4,3 4,64 18,7 4,7 4,01 17,6 5,1 3,43 16,5 5,7 2, ,3 4,3 4,73 19,3 4,7 4,10 18,1 5,2 3,50 16,9 5,7 2, ,1 4,4 5,01 20,9 4,8 4,34 19,7 5,3 3,72 18,4 5,8 3, ,7 4,4 5,10 21,5 4,9 4,42 20,2 5,3 3,79 18,9 5,9 3, ,3 4,5 5,19 22,0 4,9 4,50 20,8 5,4 3,87 19,4 5,9 3, ,9 4,5 5,28 22,6 4,9 4,58 21,3 5,4 3,94 19,9 6,0 3, ,5 4,6 5,38 23,2 5,0 4,66 21,9 5,5 4,00 20,5 6,0 3, ,1 4,6 5,46 23,8 5,0 4,74 22,5 5,5 4,08 21,0 6,0 3,48 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 32

33 COOLING CPCITIES - MROON 2 MT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 20,0 4,9 4,05 18,9 5,4 3,50 17,8 5,9 2,99 16,6 6,6 2, ,5 5,0 4,14 19,5 5,4 3,58 18,4 6,0 3,07 17,2 6,6 2, ,2 5,0 4,23 20,1 5,5 3,66 18,9 6,0 3,14 17,7 6,7 2, ,8 5,0 4,32 20,7 5,5 3,74 19,5 6,1 3,21 18,3 6,7 2, ,4 5,1 4,40 21,3 5,6 3,81 20,1 6,1 3,28 18,8 6,7 2, ,1 5,1 4,48 21,9 5,6 3,89 20,7 6,2 3,35 19,4 6,8 2, ,1 5,3 4,74 23,8 5,8 4,12 22,5 6,3 3,56 21,1 6,9 3, ,7 5,3 4,82 24,5 5,8 4,21 23,2 6,4 3,63 21,7 7,0 3, ,4 5,4 4,91 25,2 5,9 4,28 23,8 6,4 3,70 22,3 7,0 3, ,2 5,4 4,99 25,9 5,9 4,36 24,5 6,5 3,78 23,0 7,1 3, ,9 5,5 5,08 26,6 6,0 4,43 25,1 6,5 3,84 23,6 7,2 3, ,6 5,6 5,15 27,3 6,0 4,51 25,8 6,6 3,92 24,3 7,2 3, ,0 5,3 4,14 20,8 5,9 3,55 19,5 6,4 3,02 18,1 7,1 2, ,7 5,4 4,23 21,4 5,9 3,64 20,1 6,5 3,10 18,6 7,2 2, ,3 5,4 4,33 22,1 5,9 3,72 20,7 6,5 3,17 19,2 7,2 2, ,0 5,4 4,42 22,7 6,0 3,82 21,3 6,6 3,25 19,8 7,2 2, ,7 5,5 4,51 23,4 6,0 3,90 22,0 6,6 3,33 20,4 7,3 2, ,4 5,5 4,60 24,1 6,0 3,98 22,6 6,6 3,40 21,0 7,3 2, ,5 5,7 4,88 26,1 6,2 4,22 24,6 6,8 3,63 22,9 7,5 3, ,3 5,7 4,96 26,8 6,2 4,31 25,2 6,8 3,70 23,5 7,5 3, ,0 5,8 5,04 27,6 6,3 4,39 25,9 6,9 3,77 24,2 7,5 3, ,8 5,8 5,14 28,3 6,3 4,47 26,6 6,9 3,85 24,9 7,6 3, ,6 5,9 5,21 29,0 6,4 4,55 27,4 7,0 3,92 25,5 7,6 3, ,4 5,9 5,30 29,8 6,4 4,63 28,1 7,0 3,99 26,2 7,7 3, ,4 6,5 3,92 24,2 7,1 3,43 22,8 7,7 2,96 21,4 8,5 2, ,2 6,5 4,01 24,9 7,1 3,51 23,5 7,7 3,04 22,0 8,5 2, ,0 6,6 4,11 25,7 7,1 3,59 24,3 7,8 3,12 22,7 8,5 2, ,8 6,6 4,20 26,4 7,2 3,67 25,0 7,8 3,18 23,4 8,6 2, ,6 6,7 4,28 27,2 7,2 3,76 25,7 7,9 3,26 24,1 8,6 2, ,4 6,7 4,38 27,9 7,3 3,84 26,4 7,9 3,33 24,8 8,7 2, ,8 6,9 4,63 30,3 7,5 4,07 28,7 8,1 3,54 27,0 8,8 3, ,7 6,9 4,71 31,1 7,5 4,14 29,4 8,2 3,60 27,7 8,9 3, ,6 7,0 4,78 31,9 7,6 4,21 30,2 8,2 3,67 28,4 9,0 3, ,4 7,1 4,86 32,8 7,7 4,28 31,0 8,3 3,74 29,2 9,0 3, ,3 7,2 4,94 33,6 7,7 4,35 31,8 8,4 3,80 29,9 9,1 3, ,2 7,2 5,00 34,5 7,8 4,41 32,7 8,5 3,86 30,7 9,2 3, ,3 7,3 4,30 29,6 8,0 3,71 27,7 8,8 3,16 25,7 9,6 2, ,2 7,3 4,39 30,4 8,0 3,80 28,5 8,8 3,24 26,5 9,7 2, ,1 7,4 4,49 31,4 8,1 3,89 29,4 8,9 3,32 27,3 9,7 2, ,1 7,4 4,59 32,3 8,1 3,97 30,3 8,9 3,40 28,1 9,8 2, ,0 7,5 4,68 33,2 8,2 4,06 31,2 9,0 3,48 29,0 9,8 2, ,0 7,5 4,78 34,1 8,2 4,15 32,1 9,0 3,55 29,8 9,9 3, ,0 7,7 5,05 37,0 8,4 4,40 34,8 9,2 3,78 32,4 10,1 3, ,0 7,8 5,14 38,0 8,5 4,48 35,7 9,3 3,86 33,3 10,1 3, ,1 7,8 5,23 39,0 8,5 4,56 36,7 9,3 3,94 34,2 10,2 3, ,1 7,9 5,32 40,0 8,6 4,65 37,7 9,4 4,01 35,1 10,3 3, ,2 8,0 5,41 41,0 8,7 4,73 38,7 9,5 4,09 36,1 10,3 3, ,3 8,1 5,49 42,1 8,8 4,81 39,6 9,5 4,16 37,0 10,4 3, ,0 8,5 4,02 32,3 9,3 3,48 30,3 10,2 2,97 28,2 11,3 2, ,0 8,5 4,11 33,2 9,3 3,56 31,2 10,3 3,04 29,0 11,3 2, ,1 8,6 4,21 34,2 9,4 3,65 32,2 10,3 3,12 29,9 11,4 2, ,1 8,6 4,30 35,2 9,4 3,72 33,1 10,4 3,19 30,8 11,5 2, ,1 8,7 4,39 36,2 9,5 3,81 34,0 10,4 3,26 31,7 11,5 2, ,2 8,8 4,48 37,2 9,6 3,89 35,0 10,5 3,33 32,6 11,6 2, ,5 9,0 4,74 40,3 9,8 4,13 38,0 10,7 3,54 35,4 11,8 3, ,6 9,0 4,83 41,4 9,8 4,20 39,0 10,8 3,61 36,4 11,9 3, ,7 9,1 4,92 42,5 9,9 4,28 40,0 10,9 3,68 37,3 11,9 3, ,9 9,2 5,00 43,6 10,0 4,36 41,1 10,9 3,75 38,3 12,0 3, ,1 9,3 5,09 44,7 10,1 4,44 42,1 11,0 3,82 39,3 12,1 3, ,3 9,3 5,17 45,8 10,2 4,51 43,2 11,1 3,89 40,3 12,2 3, ,7 9,3 4,40 38,6 10,1 3,82 36,2 11,1 3,27 33,6 12,1 2, ,9 9,3 4,49 39,7 10,2 3,90 37,3 11,1 3,35 34,6 12,2 2, ,1 9,4 4,58 40,9 10,3 3,99 38,4 11,2 3,42 35,7 12,3 2, ,3 9,5 4,67 42,0 10,3 4,07 39,5 11,3 3,49 36,7 12,4 2, ,6 9,6 4,76 43,2 10,4 4,15 40,6 11,4 3,57 37,7 12,5 3, ,8 9,7 4,85 44,4 10,5 4,23 41,7 11,5 3,64 38,8 12,6 3, ,7 9,9 5,12 48,1 10,8 4,47 45,2 11,7 3,85 42,0 12,8 3, ,1 10,0 5,20 49,4 10,9 4,55 46,4 11,8 3,92 43,2 12,9 3, ,4 10,1 5,28 50,7 10,9 4,63 47,6 11,9 4,00 44,3 13,0 3, ,8 10,2 5,37 52,0 11,1 4,70 48,9 12,0 4,07 45,5 13,1 3, ,2 10,3 5,45 53,3 11,2 4,78 50,1 12,1 4,14 46,6 13,2 3, ,7 10,4 5,53 54,7 11,3 4,85 51,4 12,2 4,21 47,8 13,3 3,59 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 33

34 HETING CPCITIES - MROON 2 MT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,1 1,8 2,26 * * * * * * * * * ,2 1,8 2,32 * * * * * * * * * ,7 1,8 2,63 4,8 2,3 2,14 * * * * * * ,0 1,8 2,86 5,1 2,2 2,30 * * * * * * ,7 1,7 3,26 5,7 2,2 2,61 5,8 2,8 2,10 5,9 3,1 1, ,9 1,7 3,43 5,9 2,2 2,72 6,0 2,8 2,18 6,1 3,1 1, ,2 1,7 3,61 6,2 2,2 2,87 6,3 2,7 2,29 6,3 3,1 2, ,7 1,7 3,88 6,6 2,1 3,08 6,6 2,7 2,42 6,6 3,1 2, ,0 1,7 4,10 6,9 2,1 3,24 6,9 2,7 2,55 6,8 3,0 2, ,5 1,7 4,44 7,4 2,1 3,48 7,3 2,7 2,73 7,2 3,0 2, ,9 1,7 4,65 7,7 2,1 3,66 7,6 2,7 2,85 7,5 3,0 2, ,5 1,7 5,04 8,2 2,1 3,93 8,0 2,6 3,06 7,9 3,0 2, ,2 2,3 2,29 * * * * * * * * * ,3 2,3 2,34 * * * * * * * * * ,0 2,3 2,65 6,2 2,9 2,13 * * * * * * ,4 2,2 2,88 6,6 2,9 2,30 * * * * * * ,2 2,2 3,28 7,4 2,8 2,59 7,6 3,7 2,07 7,6 4,2 1, ,6 2,2 3,44 7,6 2,8 2,71 7,8 3,6 2,14 7,9 4,1 1, ,9 2,2 3,61 8,0 2,8 2,85 8,1 3,6 2,25 8,2 4,1 2, ,5 2,2 3,91 8,5 2,8 3,05 8,5 3,6 2,39 8,6 4,1 2, ,9 2,2 4,12 8,8 2,8 3,20 8,9 3,5 2,50 8,9 4,0 2, ,6 2,1 4,46 9,4 2,7 3,44 9,4 3,5 2,67 9,4 4,0 2, ,0 2,1 4,70 9,8 2,7 3,61 9,7 3,5 2,79 9,7 4,0 2, ,8 2,1 5,07 10,6 2,7 3,91 10,3 3,5 2,98 10,3 3,9 2, ,3 2,5 2,53 * * * * * * * * * ,5 2,5 2,59 * * * * * * * * * ,3 2,5 2,91 7,4 3,1 2,35 * * * * * * ,9 2,5 3,13 7,9 3,1 2,52 * * * * * * ,0 2,5 3,53 8,9 3,2 2,82 8,9 4,0 2,24 9,0 4,5 1, ,4 2,5 3,70 9,3 3,2 2,95 9,3 4,0 2,33 9,3 4,5 2, ,9 2,5 3,87 9,7 3,2 3,07 9,7 4,0 2,43 9,7 4,5 2, ,6 2,6 4,15 10,4 3,2 3,29 10,3 4,0 2,58 10,2 4,5 2, ,2 2,6 4,36 10,9 3,2 3,44 10,7 4,0 2,69 10,6 4,5 2, ,0 2,6 4,68 11,7 3,2 3,69 11,4 4,0 2,87 11,3 4,5 2, ,6 2,6 4,92 12,3 3,2 3,87 11,9 4,0 2,99 11,7 4,5 2, ,5 2,6 5,28 13,2 3,2 4,13 12,7 4,0 3,20 12,5 4,5 2, ,7 3,6 2,42 * * * * * * * * * ,9 3,6 2,48 * * * * * * * * * ,1 3,6 2,79 10,2 4,6 2,20 * * * * * * ,9 3,6 3,00 10,9 4,6 2,37 * * * * * * ,2 3,6 3,40 12,2 4,6 2,68 12,2 6,0 2,04 12,1 6,9 1, ,8 3,6 3,56 12,7 4,5 2,80 12,6 5,9 2,13 12,6 6,8 1, ,4 3,6 3,71 13,3 4,5 2,94 13,2 5,9 2,24 13,1 6,8 1, ,3 3,6 3,98 14,1 4,5 3,14 13,9 5,8 2,40 13,8 6,7 2, ,0 3,6 4,16 14,8 4,5 3,29 14,5 5,8 2,52 14,3 6,6 2, ,1 3,6 4,45 15,7 4,5 3,52 15,4 5,7 2,69 15,1 6,6 2, ,8 3,6 4,63 16,4 4,5 3,67 16,0 5,7 2,82 15,8 6,5 2, ,1 3,6 4,98 17,6 4,5 3,93 17,1 5,7 3,02 16,7 6,5 2, ,1 4,1 2,24 * * * * * * * * * ,4 4,1 2,31 * * * * * * * * * ,9 4,1 2,67 10,6 4,9 2,14 * * * * * * ,9 4,1 2,91 11,5 4,9 2,34 * * * * * * ,5 4,1 3,33 13,2 4,9 2,68 12,7 6,0 2,13 12,5 6,6 1, ,2 4,1 3,50 13,8 4,9 2,81 13,3 6,0 2,22 13,0 6,6 1, ,8 4,0 3,67 14,5 4,9 2,95 14,0 6,0 2,35 13,7 6,6 2, ,0 4,0 3,96 15,5 4,9 3,18 15,0 5,9 2,52 14,6 6,6 2, ,7 4,0 4,16 16,3 4,9 3,34 15,7 5,9 2,65 15,4 6,6 2, ,1 4,0 4,50 17,4 4,8 3,60 16,8 5,9 2,84 16,4 6,6 2, ,0 4,0 4,75 18,3 4,8 3,77 17,6 5,9 2,99 17,2 6,5 2, ,4 4,0 5,12 19,7 4,8 4,10 18,8 5,9 3,21 18,3 6,5 2, ,9 4,2 2,57 * * * * * * * * * ,1 4,2 2,63 * * * * * * * * * ,6 4,3 2,96 12,6 5,2 2,41 * * * * * * ,7 4,3 3,18 13,6 5,3 2,58 * * * * * * ,6 4,3 3,59 15,3 5,3 2,88 15,2 6,6 2,30 15,1 7,4 2, ,3 4,4 3,74 16,1 5,4 3,00 15,8 6,6 2,38 15,7 7,4 2, ,1 4,4 3,91 16,8 5,4 3,13 16,5 6,6 2,48 16,3 7,4 2, ,4 4,4 4,19 18,0 5,4 3,33 17,6 6,7 2,63 17,3 7,5 2, ,4 4,4 4,37 18,9 5,4 3,47 18,4 6,7 2,74 18,1 7,5 2, ,9 4,5 4,67 20,2 5,5 3,71 19,6 6,7 2,90 19,3 7,5 2, ,9 4,5 4,89 21,2 5,5 3,86 20,5 6,8 3,03 20,1 7,6 2, ,7 4,5 5,23 22,8 5,5 4,14 21,9 6,8 3,22 21,4 7,6 2,82 Pt Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 34

35 HETING CPCITIES - MROON 2 MT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,3 4,9 2,52 * * * * * * * * * ,7 4,9 2,59 * * * * * * * * * ,4 5,0 2,91 14,4 6,1 2,35 * * * * * * ,7 5,0 3,14 15,5 6,2 2,51 * * * * * * ,9 5,1 3,54 17,6 6,2 2,82 17,4 7,8 2,24 17,5 8,7 2, ,7 5,1 3,69 18,3 6,3 2,92 18,1 7,8 2,33 18,1 8,7 2, ,7 5,1 3,85 19,3 6,3 3,07 19,0 7,8 2,43 18,9 8,8 2, ,1 5,2 4,10 20,6 6,3 3,27 20,1 7,8 2,57 20,0 8,8 2, ,2 5,2 4,29 21,7 6,3 3,41 21,2 7,9 2,70 20,9 8,8 2, ,8 5,2 4,56 23,2 6,4 3,63 22,6 7,9 2,86 22,1 8,8 2, ,0 5,3 4,75 24,3 6,4 3,79 23,6 7,9 2,98 23,3 8,8 2, ,0 5,3 5,07 26,1 6,5 4,04 25,2 8,0 3,17 24,8 8,9 2, ,2 5,5 2,42 * * * * * * * * * ,6 5,5 2,48 * * * * * * * * * ,6 5,5 2,83 15,5 6,9 2,26 * * * * * * ,0 5,6 3,06 16,8 6,9 2,44 * * * * * * ,5 5,6 3,48 19,1 6,9 2,76 18,7 8,6 2,18 18,6 9,7 1, ,4 5,6 3,64 19,9 6,9 2,88 19,5 8,6 2,26 19,4 9,7 2, ,4 5,6 3,81 20,9 6,9 3,02 20,4 8,6 2,37 20,2 9,7 2, ,0 5,6 4,09 22,4 6,9 3,23 21,7 8,6 2,52 21,4 9,7 2, ,2 5,6 4,28 23,5 6,9 3,39 22,8 8,6 2,65 22,4 9,7 2, ,9 5,7 4,58 25,2 6,9 3,62 24,3 8,6 2,82 23,8 9,7 2, ,2 5,7 4,79 26,4 7,0 3,79 25,4 8,6 2,95 24,9 9,6 2, ,3 5,7 5,12 28,3 7,0 4,06 27,2 8,6 3,15 26,5 9,6 2, ,3 6,7 2,30 * * * * * * * * * ,7 6,7 2,36 * * * * * * * * * ,0 6,7 2,69 17,8 8,2 2,17 * * * * * * ,6 6,7 2,92 19,2 8,2 2,35 * * * * * * ,3 6,7 3,32 21,9 8,2 2,69 21,4 10,1 2,11 21,2 11,4 1, ,4 6,7 3,48 22,8 8,2 2,80 22,3 10,1 2,21 22,1 11,4 1, ,6 6,7 3,65 24,1 8,2 2,96 23,5 10,1 2,33 23,2 11,3 2, ,5 6,8 3,91 25,8 8,2 3,17 25,0 10,0 2,49 24,7 11,3 2, ,8 6,8 4,10 27,1 8,2 3,32 26,3 10,0 2,63 25,9 11,2 2, ,9 6,8 4,38 29,0 8,2 3,55 28,1 10,0 2,81 27,5 11,2 2, ,3 6,8 4,57 30,4 8,2 3,71 29,4 10,0 2,94 28,9 11,2 2, ,8 6,9 4,89 32,6 8,2 3,96 31,4 10,0 3,14 30,8 11,2 2, ,0 7,5 2,39 * * * * * * * * * ,5 7,5 2,45 * * * * * * * * * ,2 7,6 2,79 21,0 9,3 2,24 * * * * * * ,0 7,6 3,02 22,7 9,4 2,43 * * * * * * ,2 7,6 3,43 25,7 9,4 2,74 25,3 11,6 2,18 25,2 13,0 1, ,5 7,7 3,59 26,9 9,4 2,87 26,3 11,6 2,26 26,1 13,0 2, ,8 7,7 3,76 28,2 9,4 3,00 27,6 11,6 2,37 27,3 13,0 2, ,0 7,7 4,03 30,2 9,4 3,22 29,4 11,6 2,53 28,9 13,0 2, ,5 7,7 4,23 31,7 9,4 3,37 30,8 11,6 2,65 30,3 13,0 2, ,0 7,7 4,54 33,9 9,4 3,60 32,8 11,6 2,82 32,2 13,0 2, ,9 7,8 4,76 35,5 9,4 3,77 34,3 11,6 2,95 33,6 13,0 2, ,7 7,8 5,09 38,1 9,4 4,04 36,6 11,6 3,16 35,8 12,9 2, ,3 8,1 2,49 * * * * * * * * * ,9 8,2 2,56 * * * * * * * * * ,0 8,2 2,91 23,4 10,0 2,33 * * * * * * ,1 8,3 3,16 25,4 10,1 2,52 * * * * * * ,8 8,3 3,57 29,0 10,2 2,85 28,0 12,6 2,23 27,4 14,1 1, ,3 8,4 3,74 30,3 10,2 2,98 29,2 12,6 2,32 28,7 14,1 2, ,8 8,4 3,92 31,9 10,2 3,12 30,7 12,6 2,43 30,1 14,1 2, ,3 8,4 4,21 34,2 10,2 3,33 32,8 12,7 2,59 32,1 14,2 2, ,1 8,4 4,40 35,9 10,3 3,50 34,5 12,7 2,72 33,7 14,2 2, ,0 8,4 4,73 38,4 10,3 3,74 36,8 12,7 2,89 35,8 14,2 2, ,8 8,5 4,93 40,3 10,3 3,91 38,5 12,7 3,03 37,6 14,3 2, ,3 8,5 5,30 43,4 10,3 4,20 41,2 12,8 3,23 40,0 14,3 2, ,8 9,1 2,51 * * * * * * * * * ,3 9,1 2,56 * * * * * * * * * ,6 9,3 2,87 26,3 11,2 2,34 * * * * * * ,8 9,3 3,08 28,4 11,3 2,50 * * * * * * ,7 9,4 3,46 32,0 11,5 2,79 31,2 14,0 2,22 30,7 15,6 1, ,2 9,5 3,62 33,5 11,5 2,91 32,4 14,1 2,30 31,9 15,6 2, ,9 9,5 3,78 35,1 11,5 3,04 34,0 14,2 2,40 33,3 15,7 2, ,7 9,6 4,05 37,6 11,6 3,24 36,2 14,2 2,55 35,4 15,8 2, ,6 9,6 4,23 39,4 11,6 3,38 37,9 14,3 2,66 37,0 15,9 2, ,8 9,7 4,52 42,3 11,7 3,62 40,4 14,3 2,82 39,3 15,9 2, ,1 9,7 4,73 44,2 11,7 3,76 42,3 14,4 2,94 41,1 16,0 2, ,6 9,8 5,04 47,8 11,8 4,05 45,3 14,4 3,14 43,8 16,0 2,73 Pt: Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 35

36 COOLING CPCITIES - MROON 2 MT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 42,5 11,5 3,69 40,3 12,5 3,22 38,0 13,7 2,78 35,4 15,0 2, ,7 11,6 3,77 41,5 12,6 3,28 39,1 13,8 2,84 36,5 15,1 2, ,0 11,7 3,85 42,7 12,7 3,36 40,3 13,9 2,90 37,6 15,2 2, ,3 11,8 3,93 44,0 12,8 3,43 41,4 14,0 2,96 38,7 15,3 2, ,6 11,9 4,01 45,2 12,9 3,50 42,6 14,1 3,03 39,9 15,4 2, ,0 12,0 4,09 46,5 13,0 3,57 43,8 14,2 3,09 41,0 15,5 2, ,0 12,2 4,33 50,4 13,3 3,78 47,5 14,5 3,27 44,5 15,8 2, ,4 12,3 4,41 51,7 13,4 3,85 48,8 14,6 3,33 45,7 16,0 2, ,9 12,4 4,49 53,0 13,5 3,92 50,1 14,7 3,40 46,9 16,1 2, ,3 12,5 4,57 54,4 13,6 3,99 51,4 14,9 3,46 48,1 16,2 2, ,8 12,6 4,66 55,8 13,7 4,06 52,7 15,0 3,52 49,4 16,3 3, ,3 12,7 4,74 57,2 13,9 4,13 54,0 15,1 3,58 50,6 16,5 3, ,4 12,6 3,99 47,9 13,8 3,46 45,2 15,2 2,97 42,2 16,8 2, ,8 12,7 4,08 49,3 13,9 3,54 46,5 15,3 3,04 43,5 16,9 2, ,4 12,8 4,17 50,7 14,0 3,62 47,9 15,4 3,11 44,8 17,0 2, ,9 12,9 4,26 52,2 14,1 3,70 49,3 15,5 3,18 46,2 17,1 2, ,5 13,0 4,34 53,7 14,2 3,77 50,7 15,6 3,25 47,5 17,2 2, ,0 13,1 4,42 55,2 14,3 3,85 52,1 15,7 3,31 48,9 17,4 2, ,8 13,5 4,66 59,8 14,7 4,06 56,5 16,1 3,51 53,0 17,7 2, ,5 13,6 4,73 61,3 14,9 4,13 58,0 16,2 3,57 54,4 17,9 3, ,1 13,8 4,80 62,9 15,0 4,20 59,5 16,4 3,63 55,9 18,0 3, ,8 13,9 4,87 64,5 15,1 4,26 61,0 16,5 3,69 57,3 18,1 3, ,5 14,1 4,94 66,1 15,3 4,32 62,6 16,7 3,75 58,8 18,3 3, ,2 14,2 5,01 67,8 15,5 4,38 64,1 16,9 3,80 60,3 18,5 3, ,4 15,1 3,88 55,1 16,6 3,31 51,6 18,4 2,80 47,7 20,4 2, ,1 15,2 3,96 56,7 16,8 3,38 53,1 18,5 2,86 49,2 20,6 2, ,8 15,3 4,03 58,4 16,9 3,46 54,7 18,7 2,93 50,7 20,7 2, ,6 15,4 4,12 60,1 17,0 3,53 56,3 18,8 2,99 52,2 20,8 2, ,3 15,6 4,19 61,8 17,2 3,60 57,9 18,9 3,06 53,7 20,9 2, ,1 15,7 4,27 63,5 17,3 3,67 59,5 19,1 3,12 55,2 21,1 2, ,5 16,1 4,50 68,7 17,7 3,88 64,5 19,5 3,31 59,9 21,5 2, ,4 16,3 4,57 70,5 17,9 3,94 66,2 19,7 3,37 61,5 21,7 2, ,3 16,4 4,64 72,3 18,0 4,01 67,9 19,8 3,43 63,1 21,8 2, ,2 16,6 4,71 74,1 18,2 4,07 69,6 20,0 3,48 64,8 22,0 2, ,2 16,8 4,78 76,0 18,4 4,14 71,4 20,1 3,54 66,4 22,2 3, ,1 16,9 4,85 77,9 18,5 4,20 73,2 20,3 3,60 68,1 22,3 3, ,1 17,0 3,89 62,6 18,6 3,36 58,7 20,5 2,86 54,5 22,7 2, ,9 17,1 3,98 64,4 18,7 3,43 60,4 20,7 2,93 56,1 22,8 2, ,9 17,2 4,06 66,2 18,9 3,51 62,2 20,8 2,99 57,8 23,0 2, ,0 17,3 4,15 68,1 19,0 3,58 64,0 20,9 3,06 59,5 23,1 2, ,9 17,5 4,23 70,0 19,1 3,66 65,8 21,1 3,13 61,2 23,3 2, ,9 17,6 4,32 72,0 19,3 3,74 67,7 21,2 3,19 62,9 23,4 2, ,1 18,0 4,56 77,9 19,7 3,96 73,3 21,6 3,39 68,2 23,9 2, ,3 18,2 4,64 79,9 19,8 4,03 75,2 21,8 3,45 70,0 24,0 2, ,4 18,3 4,72 82,0 20,0 4,10 77,1 21,9 3,52 71,9 24,2 2, ,6 18,5 4,80 84,1 20,2 4,17 79,1 22,1 3,58 73,7 24,3 3, ,9 18,6 4,88 86,2 20,3 4,24 81,1 22,3 3,64 75,6 24,5 3, ,1 18,8 4,96 88,4 20,5 4,31 83,2 22,4 3,71 77,6 24,7 3, ,8 19,3 3,77 68,9 21,1 3,26 64,6 23,2 2,79 59,9 25,5 2, ,8 19,5 3,85 70,9 21,3 3,33 66,5 23,3 2,85 61,7 25,6 2, ,0 19,6 3,92 72,9 21,4 3,40 68,4 23,5 2,91 63,5 25,8 2, ,1 19,8 4,00 75,0 21,6 3,47 70,3 23,7 2,97 65,2 26,0 2, ,4 20,0 4,07 77,1 21,8 3,53 72,3 23,9 3,03 67,1 26,2 2, ,6 20,2 4,15 79,2 22,0 3,60 74,3 24,0 3,09 68,9 26,4 2, ,4 20,7 4,36 85,6 22,6 3,79 80,3 24,6 3,26 74,5 27,0 2, ,7 21,0 4,43 87,8 22,8 3,86 82,4 24,8 3,32 76,5 27,2 2, ,1 21,2 4,50 90,0 23,0 3,92 84,5 25,0 3,37 78,4 27,4 2, ,5 21,4 4,56 92,3 23,2 3,98 86,6 25,3 3,43 80,4 27,6 2, ,0 21,6 4,63 94,7 23,4 4,04 88,8 25,5 3,49 82,5 27,8 2, ,5 21,8 4,69 97,0 23,6 4,10 91,0 25,7 3,54 84,5 28,0 3,01 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 36

37 HETING CPCITIES - MROON 2 MT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,4 10,6 2,39 * * * * * * * * * ,0 10,6 2,45 * * * * * * * * * ,7 10,7 2,78 29,2 13,0 2,25 * * * * * * ,2 10,8 2,99 31,8 13,0 2,44 * * * * * * ,7 10,9 3,37 36,0 13,1 2,74 35,2 16,1 2,19 34,2 17,8 1, ,5 11,0 3,52 37,7 13,2 2,87 36,9 16,1 2,30 36,0 17,8 2, ,5 11,0 3,67 39,6 13,2 3,00 38,6 16,1 2,40 37,9 17,9 2, ,7 11,1 3,93 42,5 13,3 3,19 41,2 16,2 2,55 40,6 17,9 2, ,9 11,2 4,11 44,6 13,4 3,34 43,2 16,2 2,67 42,5 18,0 2, ,4 11,2 4,40 48,0 13,5 3,57 46,1 16,3 2,83 45,2 18,1 2, ,0 11,3 4,61 50,2 13,5 3,71 48,3 16,3 2,96 47,3 18,1 2, ,9 11,3 4,93 54,1 13,6 3,98 51,8 16,4 3,15 50,5 18,2 2, ,6 12,2 2,44 * * * * * * * * * ,4 12,2 2,49 * * * * * * * * * ,8 12,3 2,84 34,4 15,2 2,26 * * * * * * ,8 12,3 3,08 37,3 15,2 2,45 * * * * * * ,1 12,3 3,49 42,4 15,2 2,79 41,6 19,1 2,18 41,2 21,6 1, ,2 12,3 3,66 44,3 15,2 2,92 43,3 19,0 2,28 42,9 21,5 1, ,4 12,4 3,83 46,5 15,2 3,07 45,6 19,0 2,40 45,0 21,4 2, ,0 12,4 4,12 49,9 15,2 3,30 48,6 18,9 2,57 48,0 21,3 2, ,7 12,4 4,32 52,3 15,2 3,45 51,0 18,9 2,70 50,3 21,3 2, ,7 12,5 4,62 56,2 15,2 3,70 54,5 18,8 2,89 53,5 21,2 2, ,7 12,5 4,84 58,8 15,2 3,86 56,9 18,8 3,02 56,0 21,2 2, ,3 12,7 5,16 63,3 15,3 4,13 61,1 18,9 3,24 59,7 21,1 2, ,8 13,8 2,44 * * * * * * * * * ,7 13,9 2,50 * * * * * * * * * ,6 14,0 2,84 39,5 17,4 2,27 * * * * * * ,0 14,0 3,07 42,6 17,5 2,44 * * * * * * ,8 14,1 3,47 48,2 17,5 2,75 47,7 22,0 2,17 47,7 24,7 1, ,4 14,1 3,65 50,5 17,5 2,88 49,7 21,9 2,27 49,4 24,7 2, ,0 14,1 3,83 52,7 17,5 3,01 51,9 21,9 2,37 51,6 24,7 2, ,9 14,1 4,09 56,6 17,5 3,23 55,4 21,9 2,52 54,6 24,7 2, ,9 14,2 4,30 59,4 17,5 3,39 57,8 21,9 2,64 57,0 24,6 2, ,3 14,2 4,59 63,6 17,6 3,62 61,7 21,9 2,82 60,7 24,6 2, ,6 14,3 4,80 66,7 17,6 3,79 64,4 21,9 2,94 63,2 24,6 2, ,7 14,3 5,14 71,6 17,6 4,06 69,1 21,9 3,15 67,6 24,6 2, ,9 16,1 2,42 * * * * * * * * * ,0 16,1 2,48 * * * * * * * * * ,0 16,3 2,82 44,9 19,9 2,25 * * * * * * ,0 16,4 3,05 48,8 20,0 2,44 * * * * * * ,9 16,5 3,45 55,5 20,2 2,75 53,8 25,0 2,16 53,0 27,9 1, ,8 16,5 3,62 58,1 20,2 2,88 56,2 25,0 2,25 55,2 28,0 1, ,6 16,5 3,78 61,0 20,3 3,01 59,2 25,1 2,36 58,0 28,1 2, ,5 16,6 4,06 65,5 20,3 3,22 63,1 25,2 2,51 61,9 28,2 2, ,0 16,6 4,26 68,6 20,4 3,37 66,2 25,2 2,62 64,8 28,3 2, ,2 16,7 4,56 73,7 20,4 3,61 70,9 25,3 2,80 69,0 28,3 2, ,1 16,8 4,77 77,3 20,4 3,78 74,0 25,3 2,92 72,2 28,4 2, ,2 16,9 5,11 83,1 20,5 4,05 79,4 25,4 3,13 77,2 28,4 2, ,6 17,2 2,53 * * * * * * * * * ,7 17,3 2,58 * * * * * * * * * ,9 17,6 2,89 50,4 21,3 2,37 * * * * * * ,9 17,8 3,09 54,3 21,6 2,52 * * * * * * ,2 18,0 3,46 61,3 21,9 2,80 59,9 26,7 2,24 59,1 29,6 2, ,4 18,0 3,63 64,2 22,0 2,93 62,5 26,9 2,33 61,5 29,8 2, ,7 18,1 3,79 67,1 22,0 3,04 65,3 27,0 2,42 64,2 30,0 2, ,7 18,2 4,05 71,9 22,1 3,25 69,6 27,2 2,56 68,1 30,2 2, ,4 18,3 4,23 75,5 22,2 3,40 72,7 27,3 2,67 71,1 30,3 2, ,1 18,4 4,51 80,8 22,3 3,62 77,6 27,4 2,84 75,8 30,5 2, ,6 18,5 4,73 84,7 22,4 3,78 80,9 27,5 2,95 78,9 30,5 2, ,1 18,7 5,03 91,0 22,5 4,04 86,9 27,6 3,15 84,4 30,7 2,75 Pt: Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 37

38 RECOVERY CPCITIES - MROON 2 MT To DHW temperature [ C] Model [ C] 40/45 45/50 50/55 55/60 Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP 5 5,8 1,9 7,7 3,03 4,03 5,4 2,2 7,6 2,48 3,48 5,0 2,5 7,4 2,01 3,01 4,5 2,8 7,3 1,59 2,59 7 6,2 1,9 8,1 3,28 4,28 5,8 2,2 8,0 2,68 3,69 5,3 2,5 7,8 2,17 3,16 4,8 2,8 7,6 1,72 2, ,9 1,9 8,8 3,64 4,63 6,4 2,1 8,6 3,00 4,00 5,9 2,4 8,3 2,43 3,43 5,3 2,8 8,1 1,93 2, ,8 1,9 9,7 4,18 5,18 7,3 2,1 9,4 3,44 4,44 6,7 2,4 9,1 2,80 3,80 6,1 2,7 8,8 2,25 3, ,8 1,9 10,7 4,78 5,78 8,3 2,1 10,4 3,94 4,94 7,7 2,4 10,0 3,21 4,21 7,0 2,7 9,7 2,59 3,59 5 7,4 2,1 9,5 3,52 4,52 6,9 2,4 9,3 2,86 3,86 6,3 2,8 9,1 2,29 3,29 5,7 3,2 8,9 1,80 2,80 7 7,9 2,1 10,0 3,80 4,80 7,4 2,4 9,8 3,08 4,08 6,8 2,7 9,5 2,48 3,48 6,1 3,1 9,3 1,95 2, ,8 2,1 10,8 4,24 5,24 8,2 2,4 10,5 3,45 4,45 7,5 2,7 10,2 2,77 3,77 6,8 3,1 9,9 2,19 3, ,0 2,1 12,0 4,85 5,85 9,3 2,4 11,6 3,95 4,95 8,6 2,7 11,2 3,19 4,19 7,8 3,1 10,8 2,54 3, ,3 2,0 13,3 5,51 6,51 10,5 2,3 12,8 4,51 5,51 9,7 2,7 12,4 3,67 4,67 8,8 3,0 11,9 2,92 3,92 5 9,4 2,5 11,9 3,79 4,79 8,7 2,8 11,5 3,12 4,12 8,0 3,2 11,2 2,53 3,53 7,2 3,6 10,8 2,00 2, ,1 2,5 12,6 4,06 5,06 9,4 2,8 12,2 3,34 4,34 8,6 3,2 11,8 2,72 3,72 7,7 3,6 11,3 2,15 3, ,1 2,5 13,6 4,48 5,48 10,3 2,8 13,1 3,69 4,69 9,5 3,2 12,7 3,01 4,01 8,6 3,6 12,2 2,39 3, ,6 2,5 15,1 5,05 6,05 11,7 2,8 14,5 4,19 5,19 10,8 3,2 14,0 3,42 4,42 9,8 3,6 13,4 2,73 3, ,2 2,5 16,7 5,70 6,70 13,3 2,8 16,1 4,74 5,74 12,3 3,2 15,4 3,88 4,89 11,2 3,6 14,7 3,11 4, ,5 3,6 16,2 3,44 4,44 11,6 4,2 15,8 2,79 3,79 10,5 4,8 15,3 2,19 3,19 9,2 5,6 14,8 1,65 2, ,4 3,6 17,0 3,68 4,68 12,4 4,2 16,6 2,99 3,99 11,3 4,8 16,1 2,37 3,37 9,9 5,5 15,5 1,79 2, ,7 3,6 18,3 4,04 5,04 13,7 4,1 17,8 3,31 4,31 12,5 4,7 17,2 2,64 3,64 11,1 5,5 16,6 2,03 3, ,5 3,6 20,2 4,53 5,54 15,4 4,1 19,6 3,75 4,75 14,2 4,7 18,9 3,02 4,02 12,7 5,4 18,1 2,35 3, ,5 3,7 22,2 5,03 6,03 17,4 4,1 21,5 4,19 5,19 16,0 4,7 20,7 3,42 4,42 14,5 5,4 19,9 2,69 3, ,5 3,9 17,4 3,48 4,47 12,5 4,3 16,8 2,88 3,89 11,4 4,8 16,2 2,35 3,35 10,1 5,4 15,5 1,86 2, ,5 3,9 18,4 3,75 4,75 13,5 4,3 17,8 3,12 4,12 12,3 4,8 17,1 2,55 3,55 11,0 5,4 16,4 2,02 3, ,1 3,8 19,9 4,19 5,19 14,9 4,3 19,2 3,49 4,49 13,7 4,8 18,5 2,86 3,86 12,3 5,4 17,7 2,29 3, ,3 3,8 22,1 4,82 5,82 17,1 4,2 21,3 4,03 5,03 15,7 4,7 20,5 3,33 4,33 14,2 5,3 19,6 2,67 3, ,7 3,7 24,5 5,54 6,54 19,4 4,2 23,6 4,65 5,65 18,0 4,7 22,6 3,85 4,85 16,4 5,3 21,6 3,11 4, ,9 4,4 20,3 3,57 4,57 14,7 5,0 19,7 2,96 3,96 13,5 5,6 19,1 2,42 3,42 12,2 6,3 18,5 1,93 2, ,9 4,5 21,4 3,80 4,80 15,8 5,0 20,8 3,15 4,15 14,5 5,6 20,1 2,58 3,58 13,1 6,3 19,4 2,06 3, ,6 4,5 23,1 4,16 5,16 17,4 5,0 22,4 3,46 4,46 16,0 5,7 21,7 2,83 3,83 14,5 6,4 20,9 2,27 3, ,1 4,5 25,6 4,67 5,67 19,7 5,1 24,7 3,89 4,89 18,2 5,7 23,9 3,20 4,20 16,5 6,4 22,9 2,58 3, ,8 4,5 28,3 5,23 6,24 22,2 5,1 27,3 4,38 5,38 20,6 5,7 26,3 3,61 4,60 18,8 6,4 25,2 2,92 3, ,7 5,3 23,1 3,33 4,33 16,5 6,0 22,5 2,76 3,75 15,2 6,7 21,9 2,25 3,25 13,8 7,6 21,4 1,80 2, ,0 5,4 24,3 3,54 4,54 17,7 6,0 23,7 2,94 3,94 16,3 6,8 23,1 2,41 3,41 14,8 7,6 22,4 1,93 2, ,9 5,4 26,3 3,88 4,88 19,5 6,0 25,6 3,23 4,23 18,0 6,8 24,8 2,66 3,66 16,4 7,7 24,1 2,14 3, ,7 5,5 29,1 4,34 5,34 22,2 6,1 28,3 3,63 4,64 20,6 6,8 27,4 3,01 4,01 18,8 7,7 26,5 2,43 3, ,7 5,5 32,3 4,83 5,83 25,1 6,2 31,3 4,07 5,07 23,4 6,9 30,3 3,38 4,38 21,4 7,8 29,2 2,76 3, ,7 5,7 25,4 3,46 4,46 18,2 6,4 24,6 2,85 3,85 16,5 7,2 23,8 2,29 3,29 14,7 8,2 22,9 1,80 2, ,1 5,7 26,7 3,70 4,70 19,5 6,4 25,9 3,05 4,05 17,8 7,2 25,0 2,47 3,47 15,9 8,2 24,1 1,94 2, ,2 5,7 28,9 4,07 5,07 21,6 6,4 28,0 3,37 4,37 19,7 7,2 27,0 2,74 3,74 17,7 8,2 25,9 2,17 3, ,3 5,7 32,0 4,59 5,59 24,5 6,4 30,9 3,82 4,82 22,5 7,2 29,7 3,12 4,12 20,3 8,2 28,5 2,49 3, ,6 5,8 35,4 5,13 6,12 27,7 6,5 34,2 4,30 5,30 25,6 7,2 32,8 3,54 4,54 23,2 8,2 31,3 2,84 3, ,0 6,5 29,4 3,55 4,55 21,4 7,3 28,7 2,95 3,95 19,7 8,2 27,9 2,41 3,41 17,7 9,3 27,1 1,91 2, ,5 6,5 31,0 3,79 4,79 22,9 7,3 30,2 3,16 4,16 21,2 8,2 29,3 2,59 3,59 19,1 9,3 28,4 2,06 3, ,9 6,5 33,5 4,14 5,14 25,3 7,3 32,5 3,47 4,47 23,4 8,2 31,6 2,86 3,86 21,3 9,3 30,6 2,30 3, ,4 6,6 37,0 4,61 5,61 28,5 7,3 35,9 3,89 4,89 26,5 8,2 34,8 3,23 4,23 24,3 9,3 33,6 2,62 3, ,1 6,7 40,8 5,08 6,08 32,1 7,4 39,5 4,31 5,31 29,9 8,3 38,2 3,60 4,60 27,5 9,3 36,8 2,95 3, ,5 7,2 35,7 3,96 4,96 26,5 8,1 34,6 3,26 4,26 24,2 9,2 33,3 2,64 3,64 21,7 10,4 32,0 2,09 3, ,5 7,2 37,7 4,24 5,24 28,4 8,1 36,5 3,50 4,50 26,0 9,1 35,1 2,84 3,84 23,3 10,4 33,7 2,25 3, ,6 7,2 40,8 4,66 5,66 31,3 8,1 39,4 3,86 4,86 28,8 9,1 37,9 3,15 4,15 26,0 10,3 36,3 2,51 3, ,0 7,2 45,2 5,24 6,24 35,5 8,1 43,6 4,38 5,38 32,8 9,1 41,9 3,59 4,59 29,7 10,3 40,0 2,88 3, ,7 7,3 50,0 5,87 6,87 40,1 8,1 48,2 4,92 5,92 37,1 9,1 46,3 4,07 5,07 33,8 10,3 44,1 3,29 4, ,4 9,0 39,4 3,40 4,40 28,2 10,1 38,2 2,79 3,79 25,6 11,4 37,0 2,25 3,25 22,8 12,9 35,7 1,77 2, ,5 9,0 41,5 3,63 4,63 30,1 10,1 40,2 2,99 3,99 27,5 11,4 38,9 2,41 3,41 24,6 12,9 37,5 1,90 2, ,7 9,0 44,7 3,98 4,98 33,2 10,1 43,3 3,28 4,28 30,4 11,4 41,8 2,66 3,66 27,3 12,9 40,2 2,11 3, ,3 9,0 49,3 4,47 5,47 37,6 10,1 47,7 3,71 4,71 34,6 11,4 46,0 3,02 4,02 31,2 13,0 44,1 2,40 3, ,3 9,1 54,4 4,99 5,99 42,3 10,2 52,5 4,16 5,16 39,1 11,5 50,5 3,41 4,41 35,4 13,0 48,4 2,73 3,73 Pf: Cooling power [kw] Pt: Heating capacity [kw] To: Utility outlet water temperature to the utility exchanger [ C] 38

39 RECOVERY CPCITIES - MROON 2 MT To DHW temperature [ C] Model [ C] 40/45 45/50 50/55 55/60 Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP 5 38,5 12,1 50,5 3,19 4,19 35,8 13,4 49,2 2,67 3,67 32,8 15,0 47,8 2,19 3,19 29,8 16,6 46,4 1,79 2, ,1 12,1 53,2 3,39 4,39 38,2 13,5 51,7 2,84 3,84 35,3 15,0 50,2 2,35 3,35 32,2 16,6 48,8 1,94 2, ,2 12,2 57,4 3,71 4,71 42,2 13,5 55,8 3,12 4,12 39,1 15,0 54,1 2,60 3,60 35,8 16,6 52,4 2,15 3, ,1 12,3 63,3 4,17 5,17 47,8 13,6 61,4 3,51 4,51 44,4 15,1 59,5 2,94 3,94 40,9 16,7 57,6 2,45 3, ,5 12,3 69,8 4,68 5,68 53,9 13,7 67,6 3,93 4,93 50,3 15,2 65,4 3,32 4,32 46,5 16,8 63,2 2,77 3, ,9 13,5 59,3 3,41 4,41 42,0 15,6 57,6 2,70 3,70 38,5 17,6 56,1 2,19 3,19 34,8 19,8 54,6 1,76 2, ,6 13,7 62,3 3,56 4,56 45,0 15,6 60,5 2,89 3,89 41,4 17,5 59,0 2,36 3,36 37,6 19,7 57,4 1,91 2, ,1 13,9 66,9 3,82 4,82 49,6 15,6 65,2 3,19 4,19 45,9 17,5 63,4 2,62 3,62 42,0 19,6 61,6 2,14 3, ,9 14,0 73,9 4,28 5,28 56,1 15,7 71,7 3,58 4,58 52,1 17,5 69,7 2,98 3,98 48,0 19,6 67,6 2,45 3, ,2 14,2 81,4 4,73 5,73 63,1 15,8 78,9 3,98 4,98 58,9 17,6 76,5 3,34 4,34 54,5 19,6 74,1 2,78 3, ,0 15,8 69,8 3,42 4,42 49,1 18,3 67,4 2,68 3,68 44,7 20,7 65,4 2,16 3,16 40,3 23,2 63,5 1,74 2, ,7 15,8 73,5 3,65 4,65 52,6 18,3 70,9 2,88 3,88 48,1 20,6 68,8 2,33 3,33 43,5 23,1 66,6 1,88 2, ,6 16,2 78,8 3,86 4,86 58,2 18,3 76,4 3,18 4,18 53,4 20,6 73,9 2,59 3,59 48,4 23,0 71,5 2,10 3, ,8 16,3 87,1 4,35 5,35 66,0 18,3 84,3 3,62 4,62 60,9 20,5 81,4 2,97 3,97 55,5 22,9 78,5 2,42 3, ,7 16,3 96,1 4,88 5,88 74,6 18,3 92,9 4,07 5,07 69,1 20,5 89,6 3,37 4,37 63,3 22,9 86,2 2,77 3, ,9 17,7 77,6 3,38 4,38 54,3 20,6 74,8 2,64 3,64 49,3 23,2 72,5 2,12 3,12 44,2 26,0 70,2 1,70 2, ,8 17,7 81,6 3,60 4,60 58,1 20,6 78,7 2,83 3,83 53,0 23,2 76,2 2,28 3,28 47,7 26,0 73,7 1,83 2, ,1 18,2 87,3 3,79 4,79 64,1 20,6 84,7 3,12 4,12 58,7 23,2 81,9 2,53 3,53 53,1 26,0 79,1 2,04 3, ,0 18,3 96,3 4,27 5,27 72,6 20,6 93,2 3,53 4,53 66,7 23,2 89,9 2,88 3,88 60,7 26,0 86,7 2,33 3, ,8 18,4 106,1 4,78 5,78 81,8 20,6 102,5 3,97 4,97 75,6 23,2 98,7 3,26 4,26 69,0 26,0 95,0 2,66 3, ,3 19,6 86,9 3,44 4,44 61,2 22,6 83,8 2,71 3,71 55,7 25,3 81,0 2,20 3,20 50,1 28,1 78,3 1,78 2, ,8 19,7 91,4 3,65 4,65 65,5 22,6 88,1 2,89 3,89 59,7 25,4 85,1 2,36 3,36 53,8 28,2 82,0 1,91 2, ,3 20,0 98,3 3,91 4,91 72,1 22,7 94,8 3,18 4,18 65,9 25,4 91,3 2,60 3,60 59,6 28,3 87,9 2,11 3, ,8 20,4 108,2 4,30 5,30 81,6 22,8 104,4 3,58 4,58 74,9 25,5 100,4 2,94 3,94 68,0 28,3 96,3 2,40 3, ,9 20,6 119,5 4,80 5,80 92,1 22,9 115,1 4,02 5,02 84,9 25,5 110,4 3,32 4,32 77,3 28,4 105,7 2,73 3,73 Pf: Cooling power [kw] Pt: Heating capacity [kw] To: Utility outlet water temperature to the utility exchanger [ C] 39

40 COOLING CPCITIES - MROON 2 HT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 6,3 1,6 4,04 6,0 1,7 3,50 5,7 1,9 3,04 5,3 2,0 2,61 6 6,5 1,6 4,14 6,2 1,7 3,61 5,9 1,9 3,12 5,5 2,0 2,68 7 6,7 1,6 4,26 6,4 1,7 3,70 6,0 1,9 3,20 5,6 2,1 2,75 8 6,9 1,6 4,36 6,6 1,7 3,79 6,2 1,9 3,28 5,8 2,1 2,82 9 7,1 1,6 4,49 6,8 1,7 3,91 6,4 1,9 3,38 6,0 2,1 2, ,3 1,6 4,60 7,0 1,7 4,00 6,6 1,9 3,46 6,2 2,1 2, ,0 1,6 4,97 7,6 1,8 4,30 7,2 1,9 3,72 6,7 2,1 3, ,2 1,6 5,08 7,8 1,8 4,42 7,4 1,9 3,81 6,9 2,1 3, ,5 1,6 5,22 8,0 1,8 4,52 7,6 1,9 3,90 7,1 2,1 3, ,7 1,6 5,33 8,3 1,8 4,64 7,8 1,9 4,00 7,3 2,1 3, ,9 1,6 5,48 8,5 1,8 4,75 8,0 2,0 4,10 7,5 2,1 3, ,2 1,6 5,60 8,7 1,8 4,85 8,2 2,0 4,19 7,7 2,2 3,57 5 8,1 2,0 4,09 7,7 2,2 3,51 7,3 2,4 3,01 6,8 2,7 2,55 6 8,4 2,0 4,20 8,0 2,2 3,60 7,5 2,4 3,07 7,0 2,7 2,62 7 8,7 2,0 4,30 8,2 2,2 3,69 7,7 2,4 3,15 7,2 2,7 2,68 8 8,9 2,0 4,41 8,4 2,2 3,79 7,9 2,5 3,23 7,4 2,7 2,75 9 9,2 2,0 4,51 8,7 2,2 3,86 8,2 2,5 3,31 7,6 2,7 2, ,4 2,0 4,62 8,9 2,3 3,95 8,4 2,5 3,39 7,8 2,7 2, ,2 2,1 4,94 9,7 2,3 4,23 9,1 2,5 3,62 8,5 2,8 3, ,5 2,1 5,05 10,0 2,3 4,33 9,4 2,5 3,70 8,7 2,8 3, ,8 2,1 5,16 10,2 2,3 4,42 9,6 2,5 3,79 9,0 2,8 3, ,1 2,1 5,28 10,5 2,3 4,52 9,9 2,6 3,86 9,2 2,8 3, ,4 2,1 5,42 10,8 2,3 4,62 10,1 2,6 3,94 9,4 2,8 3, ,7 2,1 5,53 11,1 2,3 4,72 10,4 2,6 4,03 9,7 2,8 3, ,6 2,6 4,06 10,1 2,9 3,49 9,5 3,2 2,98 8,8 3,5 2, ,9 2,6 4,16 10,4 2,9 3,56 9,7 3,2 3,05 9,1 3,5 2, ,2 2,7 4,24 10,7 2,9 3,64 10,0 3,2 3,12 9,3 3,5 2, ,6 2,7 4,33 10,9 2,9 3,72 10,3 3,2 3,18 9,6 3,6 2, ,9 2,7 4,41 11,3 3,0 3,80 10,6 3,3 3,25 9,8 3,6 2, ,2 2,7 4,52 11,6 3,0 3,88 10,9 3,3 3,31 10,1 3,6 2, ,2 2,8 4,77 12,5 3,0 4,11 11,7 3,4 3,50 10,9 3,7 2, ,5 2,8 4,86 12,8 3,1 4,18 12,0 3,4 3,57 11,2 3,7 3, ,9 2,8 4,97 13,1 3,1 4,26 12,3 3,4 3,64 11,5 3,7 3, ,2 2,8 5,06 13,5 3,1 4,34 12,6 3,4 3,69 11,7 3,8 3, ,6 2,8 5,15 13,8 3,1 4,41 13,0 3,4 3,76 12,0 3,8 3, ,0 2,9 5,24 14,2 3,2 4,48 13,3 3,5 3,83 12,3 3,8 3, ,2 3,0 4,03 11,8 3,4 3,51 11,4 3,8 3,04 10,9 4,2 2, ,5 3,0 4,11 12,1 3,4 3,58 11,7 3,8 3,11 11,2 4,2 2, ,8 3,0 4,21 12,4 3,4 3,67 12,0 3,8 3,17 11,5 4,2 2, ,1 3,1 4,30 12,7 3,4 3,74 12,3 3,8 3,23 11,7 4,2 2, ,5 3,1 4,40 13,0 3,4 3,82 12,6 3,8 3,30 12,0 4,2 2, ,8 3,1 4,51 13,4 3,4 3,90 12,9 3,8 3,36 12,3 4,3 2, ,8 3,1 4,81 14,3 3,4 4,15 13,7 3,8 3,57 13,1 4,3 3, ,1 3,1 4,91 14,6 3,5 4,23 14,0 3,9 3,64 13,4 4,3 3, ,5 3,1 5,02 14,9 3,5 4,33 14,4 3,9 3,71 13,7 4,3 3, ,8 3,1 5,13 15,3 3,5 4,42 14,7 3,9 3,79 14,0 4,3 3, ,2 3,1 5,26 15,6 3,5 4,52 15,0 3,9 3,86 14,3 4,4 3, ,5 3,1 5,38 16,0 3,5 4,61 15,3 3,9 3,94 14,6 4,4 3, ,5 3,7 3,96 14,1 4,1 3,46 13,7 4,5 3,01 13,2 5,1 2, ,8 3,7 4,06 14,5 4,1 3,54 14,0 4,6 3,07 13,5 5,1 2, ,2 3,7 4,15 14,8 4,1 3,62 14,4 4,6 3,14 13,8 5,1 2, ,6 3,7 4,24 15,2 4,1 3,70 14,7 4,6 3,21 14,2 5,1 2, ,0 3,7 4,34 15,6 4,1 3,78 15,1 4,6 3,27 14,5 5,2 2, ,4 3,7 4,43 16,0 4,1 3,86 15,4 4,6 3,34 14,8 5,2 2, ,6 3,7 4,71 17,1 4,2 4,11 16,5 4,7 3,54 15,9 5,2 3, ,0 3,7 4,82 17,5 4,2 4,18 16,9 4,7 3,62 16,2 5,2 3, ,5 3,8 4,92 17,9 4,2 4,26 17,3 4,7 3,68 16,6 5,3 3, ,9 3,8 5,01 18,3 4,2 4,35 17,7 4,7 3,75 16,9 5,3 3, ,3 3,8 5,12 18,7 4,2 4,44 18,1 4,7 3,82 17,3 5,3 3, ,8 3,8 5,22 19,2 4,2 4,52 18,5 4,7 3,89 17,7 5,3 3,33 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 40

41 COOLING CPCITIES - MROON 2 HT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 20,0 4,9 4,05 19,4 5,5 3,51 18,7 6,2 3,02 17,9 6,9 2, ,5 4,9 4,15 19,9 5,6 3,58 19,2 6,2 3,08 18,3 7,0 2, ,0 5,0 4,24 20,4 5,6 3,66 19,6 6,2 3,15 18,8 7,0 2, ,5 5,0 4,33 20,9 5,6 3,74 20,1 6,3 3,21 19,2 7,0 2, ,1 5,0 4,43 21,4 5,6 3,81 20,6 6,3 3,27 19,7 7,1 2, ,6 5,0 4,52 21,9 5,6 3,89 21,1 6,3 3,34 20,1 7,1 2, ,2 5,0 4,82 23,4 5,7 4,14 22,5 6,4 3,53 21,5 7,2 3, ,7 5,0 4,92 23,9 5,7 4,22 23,0 6,4 3,60 21,9 7,2 3, ,3 5,0 5,03 24,5 5,7 4,30 23,5 6,4 3,67 22,4 7,2 3, ,9 5,0 5,14 25,0 5,7 4,39 24,0 6,4 3,74 22,9 7,2 3, ,5 5,0 5,25 25,6 5,7 4,48 24,5 6,4 3,81 23,3 7,2 3, ,0 5,0 5,37 26,1 5,7 4,57 25,0 6,5 3,88 23,8 7,3 3, ,1 5,7 4,08 22,5 6,3 3,56 21,8 7,1 3,08 21,0 7,9 2, ,7 5,7 4,16 23,1 6,4 3,64 22,4 7,1 3,15 21,5 7,9 2, ,3 5,7 4,25 23,7 6,4 3,72 23,0 7,1 3,22 22,1 8,0 2, ,9 5,8 4,34 24,3 6,4 3,79 23,5 7,2 3,29 22,6 8,0 2, ,6 5,8 4,42 24,9 6,4 3,87 24,1 7,2 3,36 23,2 8,0 2, ,2 5,8 4,50 25,5 6,5 3,95 24,7 7,2 3,43 23,8 8,1 2, ,1 5,9 4,76 27,4 6,6 4,18 26,5 7,3 3,63 25,5 8,2 3, ,8 6,0 4,83 28,1 6,6 4,25 27,2 7,3 3,70 26,1 8,2 3, ,5 6,0 4,92 28,7 6,6 4,32 27,8 7,4 3,77 26,7 8,2 3, ,2 6,0 5,00 29,4 6,7 4,40 28,4 7,4 3,83 27,3 8,3 3, ,9 6,1 5,08 30,0 6,7 4,47 29,1 7,5 3,90 28,0 8,3 3, ,6 6,1 5,16 30,7 6,8 4,55 29,7 7,5 3,97 28,6 8,3 3, ,6 7,5 3,96 29,1 8,3 3,49 28,3 9,3 3,06 27,4 10,3 2, ,3 7,5 4,02 29,8 8,4 3,56 29,0 9,3 3,12 28,0 10,4 2, ,1 7,6 4,10 30,5 8,4 3,63 29,8 9,3 3,18 28,8 10,4 2, ,8 7,6 4,17 31,2 8,5 3,69 30,4 9,4 3,24 29,4 10,5 2, ,6 7,7 4,23 32,0 8,5 3,76 31,2 9,4 3,30 30,1 10,5 2, ,4 7,8 4,30 32,7 8,6 3,83 31,9 9,5 3,36 30,8 10,5 2, ,7 7,9 4,49 35,0 8,7 4,01 34,1 9,6 3,53 32,9 10,7 3, ,5 8,0 4,55 35,7 8,8 4,07 34,8 9,7 3,59 33,6 10,7 3, ,3 8,1 4,61 36,5 8,8 4,13 35,5 9,7 3,65 34,3 10,8 3, ,1 8,2 4,66 37,3 8,9 4,18 36,3 9,8 3,70 35,0 10,8 3, ,9 8,3 4,71 38,1 9,0 4,24 37,1 9,9 3,75 35,8 10,9 3, ,7 8,3 4,77 38,9 9,1 4,29 37,8 9,9 3,81 36,5 11,0 3, ,9 8,2 4,00 32,2 9,2 3,51 31,4 10,2 3,08 30,4 11,4 2, ,7 8,3 4,08 33,0 9,2 3,59 32,1 10,2 3,14 31,1 11,4 2, ,5 8,3 4,16 33,8 9,2 3,66 32,9 10,3 3,20 31,9 11,5 2, ,3 8,3 4,25 34,6 9,3 3,73 33,7 10,3 3,27 32,6 11,5 2, ,1 8,3 4,34 35,4 9,3 3,81 34,4 10,4 3,33 33,3 11,5 2, ,9 8,3 4,43 36,2 9,3 3,88 35,2 10,4 3,39 34,1 11,6 2, ,4 8,4 4,70 38,6 9,4 4,12 37,6 10,5 3,59 36,4 11,7 3, ,3 8,4 4,79 39,4 9,4 4,20 38,4 10,5 3,66 37,2 11,7 3, ,2 8,4 4,89 40,3 9,4 4,28 39,2 10,5 3,73 37,9 11,8 3, ,0 8,4 4,99 41,1 9,4 4,36 40,0 10,6 3,79 38,7 11,8 3, ,9 8,4 5,08 42,0 9,5 4,44 40,9 10,6 3,86 39,5 11,8 3, ,8 8,4 5,19 42,9 9,5 4,53 41,7 10,6 3,94 40,3 11,9 3, ,8 9,4 4,02 36,8 10,4 3,53 35,7 11,6 3,08 34,4 12,9 2, ,7 9,5 4,09 37,8 10,5 3,60 36,6 11,7 3,14 35,3 13,0 2, ,7 9,5 4,18 38,7 10,5 3,67 37,6 11,7 3,20 36,2 13,1 2, ,7 9,6 4,26 39,7 10,6 3,74 38,5 11,8 3,26 37,0 13,2 2, ,7 9,6 4,34 40,6 10,7 3,81 39,4 11,9 3,32 37,9 13,2 2, ,7 9,6 4,42 41,6 10,7 3,88 40,3 11,9 3,38 38,8 13,3 2, ,8 9,8 4,67 44,6 10,9 4,10 43,2 12,1 3,56 41,5 13,5 3, ,8 9,9 4,75 45,6 10,9 4,16 44,2 12,2 3,62 42,4 13,6 3, ,9 9,9 4,84 46,6 11,0 4,24 45,1 12,3 3,68 43,4 13,7 3, ,0 9,9 4,92 47,7 11,1 4,31 46,1 12,3 3,74 44,3 13,8 3, ,0 10,0 5,00 48,7 11,1 4,38 47,1 12,4 3,80 45,3 13,8 3, ,2 10,1 5,09 49,8 11,2 4,45 48,2 12,5 3,86 46,2 13,9 3,32 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 41

42 HETING CPCITIES - MROON 2 HT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,3 1,5 2,22 * * * * * * * * * ,8 1,5 2,50 3,7 1,8 2,11 * * * * * * ,4 1,6 2,81 4,3 1,8 2,35 * * * * * * ,8 1,6 3,01 4,7 1,9 2,50 4,6 2,2 2,07 * * * ,4 1,6 3,37 5,3 1,9 2,79 5,2 2,3 2,28 * * * ,7 1,6 3,53 5,6 1,9 2,90 5,4 2,3 2,36 5,2 2,7 1, ,0 1,6 3,70 5,8 1,9 3,02 5,6 2,3 2,44 5,4 2,7 1, ,4 1,6 3,94 6,2 1,9 3,20 6,0 2,3 2,58 5,7 2,8 2, ,8 1,6 4,15 6,6 2,0 3,36 6,3 2,3 2,68 6,0 2,8 2, ,3 1,6 4,46 7,0 2,0 3,59 6,7 2,4 2,84 6,3 2,8 2, ,7 1,6 4,68 7,4 2,0 3,75 7,0 2,4 2,97 6,6 2,8 2, ,2 1,6 5,03 7,9 2,0 4,02 7,5 2,4 3,14 7,0 2,8 2, ,3 1,9 2,33 * * * * * * * * * ,9 1,9 2,58 5,0 2,3 2,17 * * * * * * ,5 1,9 2,88 5,6 2,3 2,40 * * * * * * ,0 1,9 3,09 6,0 2,3 2,56 6,0 2,8 2,11 * * * ,8 2,0 3,48 6,7 2,4 2,83 6,7 2,9 2,31 * * * ,1 2,0 3,65 7,0 2,4 2,94 6,9 2,9 2,39 6,8 3,5 1, ,5 2,0 3,81 7,4 2,4 3,08 7,2 2,9 2,49 7,0 3,5 1, ,0 2,0 4,09 7,9 2,4 3,28 7,6 2,9 2,61 7,4 3,5 2, ,5 2,0 4,30 8,3 2,4 3,43 8,0 2,9 2,73 7,7 3,5 2, ,1 2,0 4,62 8,8 2,4 3,65 8,5 2,9 2,89 8,1 3,6 2, ,5 2,0 4,84 9,3 2,4 3,83 8,9 3,0 3,01 8,4 3,6 2, ,3 2,0 5,26 9,9 2,4 4,11 9,5 3,0 3,20 8,8 3,6 2, ,5 2,3 2,38 * * * * * * * * * ,3 2,4 2,64 6,3 2,8 2,21 * * * * * * ,1 2,4 2,92 7,1 2,9 2,43 * * * * * * ,7 2,5 3,11 7,7 3,0 2,57 7,6 3,6 2,12 * * * ,7 2,5 3,48 8,6 3,0 2,83 8,4 3,7 2,30 * * * ,2 2,5 3,63 9,0 3,1 2,94 8,8 3,7 2,37 8,5 4,4 1, ,6 2,5 3,79 9,4 3,1 3,06 9,2 3,7 2,46 8,8 4,4 1, ,3 2,5 4,05 10,1 3,1 3,24 9,7 3,8 2,58 9,3 4,5 2, ,8 2,6 4,23 10,5 3,1 3,37 10,2 3,8 2,68 9,6 4,5 2, ,6 2,6 4,52 11,3 3,2 3,58 10,8 3,8 2,83 10,2 4,6 2, ,2 2,6 4,76 11,8 3,2 3,73 11,3 3,9 2,93 10,6 4,6 2, ,1 2,6 5,09 12,7 3,2 3,99 12,0 3,9 3,10 11,2 4,7 2, ,4 3,0 2,44 7,8 3,7 2,11 * * * * * * ,3 3,0 2,72 8,7 3,7 2,33 * * * * * * ,2 3,1 2,99 9,6 3,8 2,55 10,1 4,7 2,15 * * * ,9 3,1 3,19 10,2 3,8 2,69 10,6 4,7 2,25 * * * ,0 3,1 3,52 11,3 3,8 2,95 11,6 4,7 2,44 12,0 5,9 2, ,4 3,1 3,66 11,7 3,8 3,04 11,9 4,8 2,51 12,3 5,9 2, ,9 3,1 3,80 12,1 3,8 3,16 12,4 4,8 2,60 12,7 5,9 2, ,6 3,1 4,02 12,8 3,9 3,32 13,0 4,8 2,71 13,1 5,9 2, ,1 3,1 4,19 13,3 3,9 3,45 13,5 4,8 2,81 13,5 6,0 2, ,9 3,1 4,44 14,0 3,9 3,63 14,1 4,8 2,93 14,1 6,0 2, ,4 3,1 4,62 14,5 3,9 3,77 14,6 4,8 3,03 14,5 6,0 2, ,3 3,1 4,95 15,4 3,9 3,98 15,3 4,8 3,18 15,1 6,0 2, ,0 3,6 2,46 9,5 4,4 2,15 * * * * * * ,1 3,7 2,73 10,6 4,5 2,36 * * * * * * ,3 3,8 2,99 11,8 4,6 2,57 12,4 5,7 2,18 * * * ,1 3,8 3,18 12,5 4,6 2,70 13,1 5,7 2,28 * * * ,4 3,8 3,51 13,9 4,7 2,94 14,3 5,8 2,46 14,8 7,2 2, ,0 3,8 3,65 14,4 4,7 3,05 14,8 5,9 2,52 15,2 7,2 2, ,6 3,8 3,80 14,9 4,7 3,16 15,3 5,9 2,60 15,7 7,3 2, ,4 3,8 4,02 15,8 4,8 3,32 16,1 5,9 2,72 16,3 7,3 2, ,1 3,8 4,20 16,4 4,8 3,45 16,7 5,9 2,81 16,8 7,4 2, ,1 3,8 4,46 17,3 4,8 3,63 17,5 5,9 2,94 17,4 7,5 2, ,8 3,8 4,65 18,0 4,8 3,78 18,1 6,0 3,04 17,9 7,7 2, ,9 3,8 4,97 19,0 4,7 4,00 19,0 6,0 3,19 18,5 8,2 2,27 Pt: Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 42

43 HETING CPCITIES - MROON 2 HT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,8 4,8 2,45 12,5 6,0 2,08 * * * * * * ,3 4,9 2,73 14,0 6,1 2,30 * * * * * * ,8 4,9 3,00 15,4 6,1 2,52 16,2 7,7 2,09 * * * ,9 5,0 3,19 16,4 6,2 2,66 17,1 7,8 2,20 * * * ,7 5,0 3,52 18,1 6,2 2,91 18,7 7,8 2,38 19,2 9,8 1, ,4 5,0 3,65 18,8 6,2 3,01 19,2 7,9 2,44 19,7 9,9 2, ,1 5,0 3,79 19,5 6,3 3,12 19,9 7,9 2,53 20,3 9,9 2, ,3 5,0 4,02 20,6 6,3 3,28 20,9 7,9 2,64 21,1 9,9 2, ,1 5,0 4,18 21,4 6,3 3,39 21,6 7,9 2,73 21,7 9,9 2, ,4 5,0 4,44 22,6 6,3 3,58 22,7 7,9 2,86 22,5 10,0 2, ,2 5,0 4,63 23,4 6,3 3,71 23,4 7,9 2,95 23,0 10,1 2, ,6 5,0 4,93 24,7 6,3 3,93 24,6 8,0 3,10 23,8 10,3 2, ,7 5,9 2,34 14,3 7,3 1,95 * * * * * * ,5 5,9 2,62 16,1 7,4 2,17 * * * * * * ,4 5,9 2,93 18,0 7,4 2,41 18,6 9,3 1,99 * * * ,7 6,0 3,14 19,2 7,5 2,58 19,8 9,4 2,11 * * * ,9 6,0 3,50 21,4 7,5 2,86 21,9 9,4 2,33 22,4 11,7 1, ,7 6,0 3,64 22,1 7,5 2,96 22,6 9,4 2,40 23,1 11,7 1, ,7 6,0 3,80 23,1 7,5 3,09 23,6 9,4 2,50 24,0 11,7 2, ,1 6,0 4,03 24,5 7,5 3,27 24,8 9,4 2,63 25,1 11,7 2, ,2 6,0 4,19 25,5 7,5 3,40 25,8 9,4 2,74 25,9 11,8 2, ,7 6,0 4,45 27,0 7,5 3,60 27,2 9,4 2,88 27,1 11,8 2, ,9 6,0 4,62 28,1 7,5 3,74 28,2 9,4 2,99 27,9 11,9 2, ,6 6,1 4,90 29,7 7,5 3,96 29,7 9,4 3,16 29,1 12,0 2, ,7 7,3 2,29 17,5 9,0 1,94 * * * * * * ,0 7,3 2,60 19,8 9,0 2,19 * * * * * * ,2 7,3 2,91 22,1 9,1 2,44 22,9 11,2 2,05 * * * ,7 7,3 3,12 23,6 9,1 2,61 24,5 11,2 2,19 * * * ,1 7,2 3,47 26,2 9,0 2,90 27,0 11,2 2,41 27,7 13,7 2, ,1 7,2 3,61 27,1 9,0 3,01 28,0 11,2 2,50 28,6 13,7 2, ,1 7,2 3,75 28,1 9,0 3,12 29,0 11,2 2,59 29,6 13,7 2, ,8 7,2 3,97 29,7 9,0 3,31 30,5 11,2 2,73 31,1 13,7 2, ,9 7,2 4,13 30,8 9,0 3,44 31,6 11,2 2,84 32,1 13,7 2, ,7 7,3 4,36 32,5 8,9 3,63 33,2 11,1 2,99 33,6 13,7 2, ,1 7,3 4,53 33,8 8,9 3,77 34,4 11,1 3,10 34,7 13,6 2, ,0 7,4 4,75 35,7 8,9 3,99 36,2 11,1 3,27 36,4 13,6 2, ,9 8,1 2,34 19,2 9,8 1,97 * * * * * * ,6 8,1 2,65 22,0 9,9 2,23 * * * * * * ,3 8,2 2,96 24,9 10,0 2,48 25,4 12,3 2,06 * * * ,0 8,2 3,16 26,6 10,1 2,65 27,3 12,4 2,19 * * * ,0 8,3 3,49 29,7 10,2 2,92 30,4 12,6 2,42 31,0 15,5 2, ,1 8,3 3,63 30,8 10,2 3,03 31,5 12,6 2,50 32,1 15,5 2, ,3 8,3 3,77 32,1 10,2 3,14 32,8 12,6 2,60 33,4 15,6 2, ,3 8,3 4,00 34,0 10,2 3,32 34,6 12,7 2,73 35,2 15,7 2, ,5 8,3 4,15 35,2 10,2 3,45 35,9 12,7 2,83 36,4 15,7 2, ,6 8,3 4,42 37,3 10,2 3,65 37,9 12,7 2,98 38,2 15,7 2, ,0 8,3 4,59 38,5 10,2 3,77 39,2 12,7 3,08 39,6 15,8 2, ,2 8,2 4,89 40,9 10,2 4,01 41,3 12,7 3,25 41,4 15,8 2, ,8 8,8 2,36 21,6 10,7 2,01 * * * * * * ,5 8,9 2,65 24,3 10,8 2,25 * * * * * * ,2 8,9 2,93 27,1 10,9 2,48 28,2 13,5 2,08 * * * ,0 9,0 3,12 28,9 11,0 2,63 29,9 13,6 2,20 * * * ,2 9,0 3,45 32,1 11,1 2,89 33,0 13,7 2,40 34,0 17,0 2, ,6 9,1 3,60 33,4 11,1 3,00 34,2 13,8 2,48 35,1 17,0 2, ,8 9,1 3,72 34,6 11,1 3,11 35,5 13,8 2,57 36,4 17,1 2, ,1 9,1 3,96 36,8 11,2 3,29 37,5 13,9 2,71 38,2 17,2 2, ,6 9,1 4,13 38,2 11,2 3,42 38,9 13,9 2,80 39,5 17,2 2, ,9 9,1 4,37 40,6 11,2 3,61 41,1 14,0 2,95 41,6 17,3 2, ,6 9,1 4,55 42,2 11,2 3,75 42,6 14,0 3,04 42,9 17,3 2, ,2 9,1 4,83 44,7 11,2 3,97 45,1 14,0 3,22 45,2 17,4 2,60 Pt: Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 43

44 COOLING CPCITIES - MROON 2 HT Model To External air temperature [ C] [ C] Pf Pat EER Pf Pat EER Pf Pat EER Pf Pat EER 5 39,8 10,1 3,95 38,6 11,3 3,42 37,2 12,6 2,95 35,6 14,2 2, ,8 10,1 4,04 39,5 11,3 3,49 38,1 12,7 3,00 36,4 14,2 2, ,8 10,1 4,12 40,5 11,4 3,56 39,0 12,7 3,06 37,3 14,3 2, ,8 10,2 4,21 41,5 11,4 3,63 39,9 12,8 3,12 38,1 14,4 2, ,8 10,2 4,29 42,5 11,5 3,70 40,8 12,9 3,18 39,0 14,4 2, ,9 10,2 4,38 43,4 11,5 3,77 41,8 12,9 3,23 39,9 14,5 2, ,0 10,3 4,64 46,4 11,6 3,99 44,6 13,1 3,41 42,5 14,7 2, ,1 10,4 4,73 47,4 11,7 4,06 45,5 13,1 3,46 43,3 14,8 2, ,2 10,4 4,82 48,5 11,7 4,13 46,5 13,2 3,52 44,2 14,8 2, ,2 10,4 4,92 49,5 11,8 4,21 47,5 13,2 3,58 45,2 14,9 3, ,4 10,4 5,01 50,6 11,8 4,29 48,5 13,3 3,65 46,1 14,9 3, ,5 10,5 5,11 51,6 11,8 4,36 49,5 13,3 3,71 47,0 15,0 3, ,2 11,7 3,86 43,9 13,1 3,36 42,4 14,7 2,90 40,7 16,4 2, ,3 11,8 3,93 45,0 13,1 3,43 43,5 14,7 2,96 41,8 16,5 2, ,5 11,8 4,01 46,2 13,2 3,50 44,7 14,8 3,02 42,9 16,6 2, ,7 11,9 4,09 47,4 13,3 3,56 45,8 14,9 3,08 43,9 16,6 2, ,9 12,0 4,17 48,5 13,4 3,64 46,9 14,9 3,14 45,0 16,7 2, ,2 12,1 4,24 49,7 13,4 3,70 48,1 15,0 3,20 46,1 16,8 2, ,9 12,3 4,47 53,4 13,6 3,91 51,5 15,2 3,38 49,5 17,0 2, ,2 12,4 4,55 54,6 13,7 3,98 52,7 15,3 3,44 50,6 17,1 2, ,5 12,4 4,62 55,8 13,8 4,04 53,9 15,4 3,50 51,7 17,2 3, ,8 12,5 4,69 57,1 13,9 4,11 55,1 15,5 3,56 52,9 17,3 3, ,1 12,6 4,77 58,4 14,0 4,17 56,4 15,6 3,62 54,1 17,4 3, ,5 12,7 4,84 59,7 14,1 4,24 57,6 15,7 3,68 55,3 17,5 3, ,5 14,3 3,94 55,4 16,1 3,44 53,8 18,1 2,98 51,9 20,3 2, ,9 14,4 4,00 56,7 16,2 3,51 55,1 18,1 3,04 53,1 20,4 2, ,3 14,6 4,07 58,1 16,3 3,57 56,5 18,2 3,09 54,4 20,5 2, ,7 14,7 4,14 59,4 16,4 3,63 57,8 18,3 3,15 55,7 20,6 2, ,1 14,8 4,20 60,8 16,5 3,69 59,1 18,4 3,21 57,0 20,7 2, ,5 14,9 4,27 62,2 16,6 3,75 60,5 18,5 3,26 58,3 20,8 2, ,9 15,3 4,44 66,5 16,9 3,92 64,6 18,9 3,42 62,1 21,1 2, ,4 15,4 4,49 67,9 17,1 3,98 65,9 19,0 3,47 63,4 21,2 2, ,9 15,6 4,55 69,3 17,2 4,03 67,3 19,1 3,52 64,8 21,3 3, ,4 15,8 4,60 70,8 17,4 4,08 68,7 19,3 3,57 66,1 21,4 3, ,0 15,9 4,65 72,3 17,5 4,13 70,1 19,4 3,62 67,4 21,6 3, ,5 16,1 4,70 73,8 17,7 4,18 71,6 19,5 3,66 68,8 21,7 3, ,7 16,6 3,84 62,4 18,5 3,37 60,7 20,6 2,94 58,6 23,0 2, ,2 16,6 3,92 63,8 18,6 3,44 62,1 20,7 3,00 60,0 23,1 2, ,8 16,7 4,00 65,3 18,6 3,51 63,6 20,8 3,06 61,5 23,2 2, ,3 16,8 4,08 66,9 18,7 3,58 65,1 20,9 3,12 62,9 23,3 2, ,9 16,8 4,16 68,4 18,8 3,65 66,6 20,9 3,18 64,4 23,4 2, ,5 16,9 4,24 70,0 18,8 3,72 68,1 21,0 3,24 65,8 23,5 2, ,3 17,0 4,49 74,6 19,0 3,93 72,6 21,3 3,42 70,2 23,8 2, ,0 17,0 4,57 76,2 19,1 4,00 74,2 21,3 3,48 71,6 23,9 3, ,6 17,1 4,66 77,8 19,1 4,07 75,7 21,4 3,54 73,1 24,0 3, ,3 17,1 4,75 79,5 19,2 4,14 77,3 21,5 3,60 74,6 24,1 3, ,0 17,2 4,84 81,1 19,2 4,22 78,9 21,5 3,66 76,1 24,1 3, ,7 17,2 4,93 82,8 19,3 4,30 80,5 21,6 3,73 77,7 24,2 3, ,2 19,1 3,84 71,3 21,2 3,37 69,1 23,6 2,93 66,4 26,3 2, ,0 19,2 3,91 73,1 21,3 3,43 70,8 23,7 2,99 68,0 26,5 2, ,9 19,3 3,99 74,9 21,4 3,50 72,5 23,8 3,04 69,7 26,6 2, ,7 19,4 4,06 76,7 21,5 3,56 74,3 24,0 3,09 71,4 26,8 2, ,7 19,5 4,14 78,6 21,7 3,62 76,1 24,2 3,15 73,1 27,0 2, ,6 19,6 4,21 80,4 21,8 3,69 77,9 24,3 3,20 74,8 27,2 2, ,5 20,0 4,43 86,1 22,2 3,88 83,3 24,8 3,36 79,9 27,7 2, ,5 20,1 4,51 88,0 22,3 3,94 85,1 24,9 3,42 81,6 27,9 2, ,5 20,2 4,58 90,0 22,5 4,00 87,0 25,1 3,47 83,4 28,0 2, ,6 20,3 4,66 92,0 22,6 4,07 88,9 25,2 3,52 85,2 28,2 3, ,7 20,4 4,73 94,0 22,8 4,13 90,8 25,4 3,57 87,0 28,4 3, ,8 20,6 4,80 96,0 22,9 4,19 92,7 25,6 3,63 88,8 28,6 3,11 Pf: Cooling power [kw] Pa: Total absorbed compressor power [kw] To: Utility outlet water temperature to the utility exchanger [ C] 44

45 HETING CPCITIES - MROON 2 HT Model Ta RH Condenser inlet water temperature [ C] [ C] % 30/35 40/45 50/55 55/60 Pt Pat COP Pt Pat COP Pt Pat COP Pt Pat COP ,3 9,6 2,43 24,7 11,9 2,08 * * * * * * ,4 9,7 2,73 27,7 12,0 2,31 * * * * * * ,5 9,8 3,02 30,6 12,1 2,53 32,1 15,3 2,10 * * * ,5 9,8 3,21 32,5 12,2 2,67 33,9 15,3 2,21 * * * ,1 9,9 3,55 36,0 12,3 2,93 37,0 15,4 2,40 38,2 19,4 1, ,5 9,9 3,68 37,3 12,3 3,03 38,3 15,5 2,47 39,3 19,4 2, ,0 9,9 3,82 38,8 12,3 3,14 39,6 15,5 2,55 40,5 19,5 2, ,5 9,9 4,07 41,0 12,4 3,31 41,6 15,6 2,67 42,2 19,5 2, ,0 9,9 4,23 42,6 12,4 3,43 43,1 15,6 2,76 43,5 19,5 2, ,7 9,9 4,52 45,1 12,4 3,63 45,2 15,6 2,89 45,3 19,6 2, ,5 9,9 4,71 46,7 12,4 3,76 46,8 15,7 2,99 46,7 19,6 2, ,5 9,8 5,05 49,6 12,4 4,01 49,3 15,7 3,15 48,7 19,6 2, ,4 11,6 2,36 28,6 14,5 1,98 * * * * * * ,2 11,7 2,68 32,4 14,6 2,23 * * * * * * ,1 11,7 3,00 36,2 14,7 2,47 37,6 18,3 2,05 * * * ,6 11,7 3,20 38,8 14,7 2,64 40,1 18,4 2,17 * * * ,0 11,7 3,58 43,1 14,7 2,93 44,3 18,5 2,39 45,5 22,9 1, ,8 11,7 3,73 44,8 14,7 3,04 45,9 18,5 2,48 47,0 23,0 2, ,6 11,7 3,88 46,6 14,7 3,17 47,7 18,5 2,58 48,8 23,0 2, ,6 11,8 4,13 49,5 14,7 3,36 50,3 18,5 2,72 51,2 23,0 2, ,5 11,8 4,30 51,4 14,7 3,49 52,2 18,5 2,82 53,1 23,0 2, ,9 11,8 4,58 54,6 14,7 3,71 55,2 18,5 2,98 55,6 23,0 2, ,2 11,8 4,76 56,6 14,7 3,85 57,1 18,5 3,09 57,6 23,0 2, ,9 11,8 5,06 60,3 14,7 4,10 60,5 18,5 3,28 60,5 23,0 2, ,3 13,7 2,28 32,6 17,0 1,92 * * * * * * ,5 13,7 2,59 37,0 17,1 2,16 * * * * * * ,7 13,7 2,90 41,4 17,2 2,40 42,9 21,4 2,00 * * * ,3 13,7 3,09 44,1 17,2 2,56 45,7 21,5 2,12 * * * ,9 13,6 3,45 48,8 17,2 2,84 50,5 21,6 2,34 51,8 26,5 1, ,0 13,6 3,60 50,8 17,2 2,96 52,4 21,6 2,43 53,6 26,6 2, ,0 13,6 3,75 52,8 17,1 3,08 54,3 21,6 2,51 55,5 26,6 2, ,0 13,6 3,98 55,8 17,1 3,26 57,3 21,5 2,66 58,3 26,7 2, ,2 13,6 4,14 57,9 17,1 3,39 59,4 21,5 2,76 60,2 26,7 2, ,5 13,6 4,37 61,2 17,0 3,59 62,5 21,5 2,91 63,2 26,6 2, ,0 13,7 4,54 63,5 17,0 3,73 64,8 21,4 3,02 65,2 26,6 2, ,8 13,8 4,78 67,2 17,0 3,94 68,3 21,4 3,20 68,5 26,5 2, ,0 16,0 2,38 38,6 19,4 1,99 * * * * * * ,4 16,1 2,70 44,3 19,6 2,26 * * * * * * ,8 16,3 3,00 50,0 19,9 2,52 51,1 24,5 2,09 * * * ,3 16,3 3,20 53,6 20,0 2,68 54,8 24,7 2,22 * * * ,3 16,4 3,55 59,7 20,2 2,96 61,1 25,0 2,44 62,4 30,8 2, ,7 16,5 3,69 62,2 20,2 3,07 63,6 25,1 2,54 64,7 31,0 2, ,0 16,5 3,83 64,5 20,3 3,18 65,9 25,1 2,62 67,2 31,1 2, ,0 16,5 4,06 68,4 20,3 3,37 69,8 25,2 2,76 70,9 31,2 2, ,7 16,5 4,23 71,0 20,3 3,49 72,3 25,3 2,86 73,4 31,3 2, ,8 16,5 4,48 75,2 20,3 3,69 76,4 25,3 3,01 77,2 31,4 2, ,7 16,4 4,67 78,0 20,3 3,84 78,9 25,4 3,11 79,7 31,5 2, ,2 16,3 4,97 82,5 20,3 4,06 83,4 25,4 3,29 83,8 31,5 2, ,1 17,5 2,40 43,8 21,4 2,05 * * * * * * ,7 17,7 2,70 49,5 21,6 2,29 * * * * * * ,3 17,8 2,99 55,1 21,8 2,53 57,3 27,0 2,12 * * * ,9 17,9 3,18 58,6 21,9 2,67 60,8 27,2 2,23 * * * ,4 18,0 3,52 65,1 22,1 2,94 67,1 27,5 2,44 69,1 34,0 2, ,3 18,1 3,66 67,8 22,2 3,06 69,6 27,6 2,53 71,6 34,1 2, ,1 18,1 3,81 70,5 22,3 3,17 72,1 27,6 2,61 74,0 34,2 2, ,4 18,2 4,04 74,8 22,3 3,35 76,3 27,8 2,75 77,8 34,4 2, ,5 18,2 4,20 77,9 22,4 3,48 79,2 27,8 2,85 80,4 34,5 2, ,2 18,2 4,45 82,5 22,4 3,68 83,7 28,0 2,99 84,6 34,7 2, ,7 18,3 4,64 85,9 22,5 3,82 86,9 28,0 3,10 87,3 34,8 2, ,0 18,3 4,93 91,1 22,5 4,04 91,9 28,1 3,27 92,1 35,0 2,63 Pt: Heating capacity [kw] Pa: Total absorbed compressor power [kw] Ta: Dry bulb temperature of the evaporator inlet air [ C] RH: Relative humidity of the input air at the evaporator [%] 45

46 RECOVERY CPCITIES - MROON 2 HT To DHW temperature [ C] Model [ C] 40/45 45/50 50/55 55/60 Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP 5 5,5 1,7 7,2 3,16 4,16 5,1 1,9 7,0 2,65 3,65 4,7 2,1 6,8 2,20 3,20 4,2 2,4 6,6 1,78 2,78 7 5,9 1,8 7,6 3,36 4,35 5,5 1,9 7,4 2,83 3,83 5,0 2,1 7,2 2,34 3,35 4,5 2,4 6,9 1,89 2, ,5 1,8 8,2 3,70 4,70 6,0 1,9 8,0 3,10 4,10 5,5 2,2 7,7 2,56 3,56 5,0 2,4 7,4 2,07 3, ,3 1,8 9,1 4,18 5,18 6,8 2,0 8,8 3,49 4,49 6,3 2,2 8,4 2,88 3,88 5,6 2,4 8,1 2,33 3, ,3 1,8 10,0 4,71 5,71 7,7 2,0 9,6 3,94 4,94 7,1 2,2 9,3 3,24 4,24 6,4 2,4 8,8 2,63 3,62 5 7,3 2,2 9,5 3,31 4,31 6,8 2,5 9,2 2,77 3,77 6,2 2,7 9,0 2,29 3,29 5,6 3,0 8,6 1,84 2,84 7 7,8 2,2 10,0 3,54 4,54 7,3 2,5 9,7 2,96 3,96 6,7 2,7 9,4 2,44 3,44 6,0 3,1 9,0 1,96 2, ,6 2,2 10,8 3,89 4,90 8,0 2,5 10,4 3,24 4,24 7,3 2,7 10,1 2,67 3,67 6,6 3,1 9,6 2,15 3, ,7 2,2 11,9 4,40 5,40 9,0 2,5 11,5 3,66 4,66 8,3 2,8 11,0 3,01 4,01 7,4 3,1 10,5 2,42 3, ,9 2,2 13,1 4,98 5,97 10,2 2,5 12,6 4,14 5,15 9,3 2,8 12,1 3,39 4,39 8,4 3,1 11,5 2,72 3,72 5 9,6 2,9 12,5 3,29 4,29 8,9 3,2 12,2 2,76 3,76 8,2 3,6 11,8 2,28 3,27 7,3 4,0 11,3 1,84 2, ,2 2,9 13,1 3,49 4,50 9,5 3,3 12,7 2,92 3,92 8,7 3,6 12,3 2,41 3,41 7,8 4,0 11,8 1,94 2, ,2 2,9 14,1 3,80 4,80 10,4 3,3 13,7 3,17 4,18 9,5 3,6 13,2 2,62 3,61 8,5 4,0 12,6 2,11 3, ,6 3,0 15,5 4,25 5,25 11,7 3,3 15,0 3,55 4,55 10,7 3,7 14,4 2,92 3,92 9,6 4,1 13,7 2,34 3, ,1 3,0 17,0 4,75 5,75 13,1 3,3 16,4 3,96 4,95 12,0 3,7 15,7 3,25 4,25 10,8 4,1 14,9 2,64 3, ,4 3,2 14,6 3,57 4,57 10,9 3,6 14,6 2,99 4,00 10,3 4,2 14,5 2,48 3,48 9,6 4,7 14,3 2,03 3, ,0 3,2 15,2 3,75 4,75 11,5 3,6 15,1 3,15 4,15 10,8 4,2 15,0 2,61 3,61 10,1 4,8 14,8 2,12 3, ,9 3,2 16,1 4,05 5,05 12,3 3,6 16,0 3,39 4,39 11,7 4,2 15,8 2,81 3,81 10,8 4,8 15,6 2,28 3, ,2 3,2 17,4 4,50 5,50 13,6 3,6 17,2 3,75 4,75 12,8 4,1 16,9 3,09 4,09 11,9 4,7 16,6 2,50 3, ,6 3,1 18,7 5,02 6,02 14,9 3,6 18,5 4,15 5,15 14,0 4,1 18,1 3,41 4,41 13,4 4,7 18,1 2,82 3, ,6 4,1 17,7 3,33 4,33 13,1 4,6 17,7 2,82 3,82 12,5 5,3 17,8 2,36 3,36 11,7 6,0 17,7 1,95 2, ,3 4,1 18,4 3,51 4,51 13,8 4,6 18,4 2,97 3,97 13,1 5,3 18,4 2,48 3,48 12,3 6,0 18,3 2,04 3, ,4 4,1 19,5 3,79 4,79 14,8 4,6 19,5 3,19 4,19 14,1 5,3 19,4 2,67 3,67 13,2 6,0 19,2 2,19 3, ,0 4,1 21,0 4,20 5,20 16,3 4,6 20,9 3,52 4,52 15,5 5,3 20,7 2,93 3,93 14,4 6,0 20,5 2,39 3, ,7 4,0 22,7 4,64 5,64 17,9 4,6 22,5 3,89 4,90 16,9 5,3 22,2 3,22 4,22 16,3 6,0 22,3 2,70 3, ,8 5,5 24,3 3,39 4,39 17,9 6,3 24,2 2,85 3,85 17,0 7,2 24,1 2,36 3,36 15,8 8,2 24,0 1,93 2, ,7 5,5 25,3 3,57 4,57 18,9 6,3 25,2 2,99 4,00 17,8 7,2 25,0 2,48 3,48 16,6 8,2 24,8 2,02 3, ,3 5,5 26,8 3,85 4,85 20,3 6,3 26,6 3,22 4,22 19,2 7,2 26,4 2,67 3,67 17,8 8,2 26,0 2,17 3, ,4 5,5 28,8 4,27 5,27 22,3 6,3 28,6 3,56 4,56 21,0 7,2 28,2 2,93 3,93 19,5 8,2 27,7 2,37 3, ,6 5,4 31,0 4,75 5,75 24,4 6,2 30,6 3,93 4,93 23,0 7,1 30,1 3,23 4,23 22,0 8,2 30,2 2,67 3, ,6 6,7 28,3 3,21 4,21 20,7 7,6 28,3 2,72 3,72 19,6 8,6 28,3 2,27 3,27 18,4 9,8 28,3 1,87 2, ,8 6,7 29,5 3,39 4,39 21,8 7,6 29,4 2,87 3,87 20,8 8,6 29,4 2,40 3,40 19,5 9,8 29,3 1,98 2, ,6 6,7 31,3 3,67 4,67 23,6 7,6 31,2 3,11 4,11 22,5 8,6 31,1 2,60 3,60 21,1 9,8 31,0 2,15 3, ,2 6,7 33,9 4,05 5,05 26,1 7,6 33,7 3,44 4,44 24,9 8,6 33,5 2,88 3,88 23,4 9,8 33,2 2,38 3, ,9 6,7 36,6 4,45 5,45 28,7 7,6 36,3 3,78 4,78 27,4 8,6 36,0 3,18 4,18 26,4 9,8 36,3 2,69 3, ,8 7,7 36,4 3,76 4,76 27,9 8,7 36,6 3,22 4,22 26,8 9,8 36,6 2,73 3,73 25,4 11,1 36,6 2,28 3, ,3 7,6 37,9 3,96 4,96 29,4 8,7 38,1 3,40 4,40 28,3 9,8 38,1 2,89 3,89 26,8 11,1 37,9 2,41 3, ,6 7,7 40,2 4,26 5,26 31,6 8,6 40,3 3,67 4,67 30,4 9,8 40,2 3,12 4,12 28,9 11,1 40,0 2,61 3, ,7 7,7 43,4 4,65 5,65 34,7 8,6 43,4 4,02 5,02 33,4 9,7 43,2 3,44 4,44 31,8 11,0 42,8 2,88 3, ,1 7,8 46,9 5,03 6,03 38,0 8,7 46,7 4,38 5,38 36,6 9,7 46,3 3,76 4,76 34,8 11,0 45,8 3,16 4, ,6 8,9 40,5 3,54 4,54 30,6 10,1 40,6 3,03 4,03 29,3 11,4 40,7 2,57 3,57 27,8 13,0 40,7 2,14 3, ,2 8,9 42,1 3,73 4,73 32,2 10,1 42,2 3,19 4,19 30,9 11,4 42,3 2,71 3,71 29,3 13,0 42,2 2,26 3, ,6 8,9 44,5 4,02 5,02 34,5 10,0 44,6 3,44 4,44 33,2 11,4 44,6 2,92 3,92 31,6 13,0 44,5 2,43 3, ,0 8,8 47,8 4,44 5,44 37,8 10,0 47,8 3,79 4,80 36,4 11,3 47,7 3,21 4,21 34,6 12,9 47,5 2,68 3, ,6 8,7 51,2 4,91 5,91 41,3 9,9 51,2 4,18 5,18 39,8 11,2 51,0 3,54 4,54 37,8 12,8 50,6 2,94 3, ,3 9,9 46,2 3,65 4,65 35,0 11,2 46,2 3,13 4,13 33,6 12,7 46,2 2,65 3,65 31,7 14,4 46,1 2,21 3, ,3 9,9 48,2 3,85 4,85 37,0 11,2 48,2 3,30 4,30 35,4 12,7 48,1 2,79 3,79 33,5 14,4 47,9 2,32 3, ,3 9,9 51,2 4,16 5,16 39,9 11,2 51,1 3,56 4,56 38,2 12,7 50,9 3,01 4,01 36,2 14,4 50,6 2,50 3, ,5 9,9 55,4 4,59 5,59 44,0 11,2 55,2 3,92 4,92 42,1 12,7 54,9 3,31 4,31 39,9 14,5 54,4 2,75 3, ,0 9,9 59,9 5,06 6,06 48,3 11,2 59,5 4,32 5,32 46,3 12,7 59,0 3,64 4,64 43,8 14,5 58,3 3,03 4,03 Pf: Cooling power [kw] Pt: Heat power [kw] To: Utility outlet water temperature ( C) 46

47 RECOVERY CPCITIES - MROON 2 HT To DHW temperature [ C] Model [ C] 40/45 45/50 50/55 55/60 Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP Pf Pa Pt EER COP 5 37,7 10,9 48,6 3,47 4,47 35,9 12,6 48,5 2,84 3,84 34,0 14,4 48,3 2,36 3,36 31,9 16,2 48,1 1,97 2, ,4 11,1 50,5 3,56 4,56 37,7 12,6 50,3 2,98 3,98 35,7 14,4 50,1 2,49 3,49 33,6 16,2 49,8 2,07 3, ,5 11,0 53,5 3,85 4,85 40,6 12,6 53,2 3,22 4,22 38,4 14,3 52,8 2,68 3,68 36,0 16,2 52,2 2,23 3, ,7 11,0 57,6 4,26 5,26 44,6 12,6 57,1 3,55 4,55 42,2 14,3 56,4 2,95 3,95 39,5 16,1 55,6 2,45 3, ,2 10,8 62,0 4,74 5,75 48,8 12,4 61,3 3,93 4,93 46,2 14,2 60,4 3,26 4,26 43,2 16,1 59,3 2,69 3, ,8 13,0 55,8 3,30 4,30 40,7 15,2 55,9 2,68 3,68 38,7 17,3 55,9 2,24 3,24 36,6 19,4 56,0 1,89 2, ,2 13,0 58,2 3,48 4,48 43,0 15,2 58,2 2,83 3,83 40,9 17,2 58,1 2,38 3,38 38,8 19,4 58,1 2,00 3, ,5 13,4 61,8 3,63 4,63 46,5 15,1 61,7 3,07 4,07 44,3 17,2 61,5 2,58 3,58 42,0 19,3 61,3 2,18 3, ,5 13,3 66,8 4,02 5,02 51,4 15,1 66,5 3,41 4,41 49,1 17,1 66,2 2,87 3,87 46,6 19,2 65,8 2,43 3, ,9 13,3 72,3 4,43 5,43 56,7 15,1 71,7 3,76 4,76 54,2 17,0 71,2 3,18 4,18 51,5 19,1 70,6 2,69 3, ,1 15,3 70,4 3,61 4,61 53,0 17,8 70,8 2,97 3,97 50,8 20,2 71,0 2,52 3,52 48,3 22,6 70,9 2,13 3, ,9 15,3 73,2 3,79 4,79 55,8 17,8 73,6 3,13 4,13 53,5 20,1 73,7 2,66 3,66 51,0 22,6 73,5 2,26 3, ,9 15,7 77,6 3,95 4,95 60,1 17,7 77,8 3,39 4,39 57,7 20,0 77,7 2,88 3,88 54,9 22,4 77,4 2,45 3, ,0 15,7 83,7 4,32 5,32 65,9 17,7 83,6 3,72 4,72 63,4 19,9 83,3 3,18 4,18 60,4 22,3 82,7 2,71 3, ,4 15,9 90,2 4,68 5,68 72,1 17,8 89,9 4,06 5,06 69,4 19,9 89,3 3,49 4,49 66,2 22,2 88,4 2,98 3, ,4 17,6 79,1 3,48 4,48 59,0 20,5 79,5 2,87 3,87 56,5 23,2 79,8 2,43 3,43 53,8 26,1 79,9 2,06 3, ,5 17,6 82,2 3,66 4,66 62,1 20,5 82,6 3,03 4,03 59,6 23,2 82,8 2,57 3,57 56,8 26,1 82,8 2,18 3, ,9 18,1 87,0 3,82 4,82 66,7 20,5 87,2 3,26 4,26 64,1 23,2 87,3 2,77 3,77 61,2 26,0 87,2 2,35 3, ,4 17,9 93,3 4,22 5,22 73,1 20,3 93,4 3,60 4,60 70,4 23,0 93,4 3,06 4,06 67,2 25,9 93,1 2,59 3, ,3 17,6 100,0 4,67 5,67 79,8 20,1 99,9 3,97 4,97 76,9 22,8 99,7 3,37 4,37 73,4 25,7 99,1 2,86 3, ,7 19,7 90,4 3,59 4,59 67,7 22,9 90,6 2,96 3,96 64,7 25,9 90,6 2,50 3,50 61,5 29,0 90,5 2,12 3, ,5 19,7 94,2 3,78 4,78 71,4 22,9 94,3 3,12 4,12 68,3 25,9 94,2 2,64 3,64 64,9 29,1 94,0 2,23 3, ,2 19,9 100,1 4,03 5,03 77,1 22,9 100,0 3,36 4,36 73,8 25,9 99,7 2,85 3,85 70,1 29,1 99,2 2,41 3, ,0 20,2 108,2 4,35 5,35 85,0 22,9 107,9 3,71 4,71 81,4 25,9 107,3 3,14 4,14 77,3 29,1 106,5 2,65 3, ,7 20,1 116,8 4,80 5,80 93,4 22,8 116,2 4,09 5,09 89,5 25,9 115,3 3,46 4,46 85,1 29,1 114,2 2,92 3,92 Pf: Cooling power [kw] Pt: Heat power [kw] To: Utility outlet water temperature ( C) 47

48 SOUND LEVELS - MROON 2 MT MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp SOUND LEVELS - MROON 2 MT MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw: sound power values in free field calculated in compliance with ISO Lp: sound pressure levels detected at 10 m from the fan side unit, not channelled in free field, in compliance with ISO Data detected with the unit that works at following conditions: 35 C; W12/7 C 48

49 SOUND LEVELS - MROON 2 HT MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp SOUND LEVELS - MROON 2 HT MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw: sound power values in free field calculated in compliance with ISO Lp: sound pressure levels detected at 10 m from the fan side unit, not channelled in free field, in compliance with ISO Data detected with the unit that works at following conditions: 35 C; W12/7 C 49

50 SOUND LEVELS - MROON 2 MT /LN MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp SOUND LEVELS - MROON 2 MT /LN MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw: sound power values in free field calculated in compliance with ISO Lp: sound pressure levels detected at 10 m from the fan side unit, not channelled in free field, in compliance with ISO Data detected with the unit that works at following conditions: 35 C; W12/7 C 50

51 SOUND LEVELS - MROON 2 HT /LN MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp SOUND LEVELS - MROON 2 HT /LN MODEL Octave bands [db] 63 Hz 125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz Total [db()] Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw Lp Lw: sound power values in free field calculated in compliance with ISO Lp: sound pressure levels detected at 10 m from the fan side unit, not channelled in free field, in compliance with ISO Data detected with the unit that works at following conditions: 35 C; W12/7 C 51

52 MROON 2 MT DIMENSIONL LYOUTS MROON 2 MT Dimensional layout SD , ,5 59 B Cdn 600 CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P 900 SPZI DI INSTLLZIONE / CLERNCES ,5 Fori\Holes 10 17,5 IMPRONT TERR / FOOTPRINT LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU UTILIZZO 1" USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET FLUSSO RI IR FLOW MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 52 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

53 MROON 2 MT 1PS Dimensional layout SD Cdn 214 SPZI DI INSTLLZIONE / CLERNCES Fori\Holes 9 21 IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø35 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU UTILIZZO 1" USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET FLUSSO RI IR FLOW LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code Scala-Scale Data-Date Dis.-Draftsman GEYSER 2 MT 1PS Visto-Checked by Foglio - di Disegno-Drawing Rev. 53

54 MROON 2 MT Dimensional layout SD B Cdn CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES IMPRONT TERR / FOOTPRINT Fori\Holes 10 QUDRO ELETTRICO SCRICO CONDENS ø 18 ELECTRICL PNEL CONDENSTE DRIN INGRESSO LIMENTZIONE ELETTRIC INGRESSO CQU UTILIZZO 1" ELECTRICL SUPPLY INLET USER WTER INLET PNNELLO SPORTBILE USCIT CQU UTILIZZO 1" REMOVBLE PNEL USER WTER OUTLET 17, ,5 GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH FLUSSO RI IR FLOW LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 54 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

55 MROON 2 MT 1PS Dimensional layout SD Cdn SPZI DI INSTLLZIONE / CLERNCES Fori\Holes 9 22 IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø28 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU UTILIZZO 1" USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET FLUSSO RI IR FLOW LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT 1PS Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 55

56 MROON 2 MT Dimensional layout SD B B Cdn * CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES 87, , IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH Fori\Holes 12 B B 1" 1 1\4" 1" SCRICO CONDENS CONDENSTE DRIN INGRESSO CQU UTILIZZO USER WTER INLET ø 18 USCIT CQU UTILIZZO USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 56 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT Visto-Checked by Foglio N. 1 di 1 Disegno-Drawing Rev.

57 MROON 2 MT 1PS Dimensional layout SD Cdn SPZI DI INSTLLZIONE / CLERNCES Fori\Holes 9 22 IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø28 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU UTILIZZO 1" USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET FLUSSO RI IR FLOW LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT 1PS Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 57

58 MROON 2 MT Dimensional layout SD B B 197, ,2 563 Cdn * 600 CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P 900 SPZI DI INSTLLZIONE / CLERNCES Fori\Holes IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU UTILIZZO 1" 1/4 USER WTER INLET USCIT CQU UTILIZZO 1" 1/4 USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 58 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

59 MROON 2 MT 1PS Dimensional layout SD Cdn 917 * ,8 28,5 204, ,5 204, Fori\Holes ,2 IMPRONT TERR / FOOTPRINT SPZI DI INSTLLZIONE / CLERNCES DIMENSIONI - DIMENSIONS QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 22 INGRESSO CQU UTILIZZO 1" 1/4 USER WTER INLET USCIT CQU UTILIZZO 1" 1/4 USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL LUNGHEZZ WIDTH MODELLO MODEL PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 MT 1PS Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 59

60 MROON 2 MT/HWS Dimensional layout 8-20 SD Rout Rin , ,5 548 B FORI/HOLES IMPRONT TERR / FOOTPRINT 900 QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO LIFTING HOLES Ø28 Rin PNNELLO SPORTBILE REMOVBLE PNEL Rout GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS ø 18 CONDENSTE DRIN CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET INGRESSO CQU SNITRIO RECOVERY WTER INLET USCIT CQU SNITRIO RECOVERY WTER OUTLET FLUSSO RI IR FLOW 1" 1" 1" 1" SPZI DI INSTLLZIONE / CLERNCES LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT P P P P P P \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE 60 DIMENSIONL DRWING GEYSER 2 MT HWS 8-20 Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

61 MROON 2 MT/HWS 1PS Dimensional layout 8-20 SD Rout Rin , Fori\Holes IMPRONT TERR / FOOTPRINT MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT SPZI DI INSTLLZIONE / CLERNCES QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET 1" 1" LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT FORI SOLLEVMENTO LIFTING HOLES Ø28 Rin PNNELLO SPORTBILE REMOVBLE PNEL Rout GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 18 INGRESSO CQU RECUPERO RECOVERY WTER INLET USCIT CQU RECUPERO RECOVERY WTER OUTLET FLUSSO RI IR FLOW 1" 1" \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE DIMENSIONL DRWING GEYSER 2 MT HWS 1PS 8-20 Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 61

62 MROON 2 MT/HWS Dimensional layout SD Rout 269 Rin 1385 B , ,5 * FORI/HOLES IMPRONT TERR / FOOTPRINT MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT P P SPZI DI INSTLLZIONE / CLERNCES CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 20 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE 62 DIMENSIONL DRWING GEYSER 2 MT HWS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by Foglio N. 1 di 1 Disegno-Drawing Rev.

63 MROON 2 MT/HWS 1PS Dimensional layout SD Rout Rin FORI/HOLES * ,5 28, IMPRONT TERR / FOOTPRINT SPZI DI INSTLLZIONE / CLERNCES 1:20 MODELLO MODEL LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 22 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE DIMENSIONL DRWING GEYSER 2 MT HWS 1PS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by Disegno-Drawing Foglio N. 1 di 1 Rev. 63

64 MROON 2 MT/HWS Dimensional layout SD Rout 466 Rin B * FORI/HOLES IMPRONT TERR / FOOTPRINT MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT SPZI DI INSTLLZIONE / CLERNCES 29 1P P P P CONNESSIONI IDRULICHE / HYDRULIC CONNECTION DIMENSIONI - DIMENSIONS CQU UTILIZZO SENZ MODULO IDRULICO LUNGHEZZ PROFONDIT' LTEZZ USER WTER WITHOUT HYDRULIC MODULE WIDTH DEPTH HEIGHT B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS ø 20 CONDENSTE DRIN 900 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE 64 DIMENSIONL DRWING GEYSER 2 MT HWS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

65 MROON 2 MT/HWS 1PS Dimensional layout SD Rout 466 Rin , * Fori\Holes 9 28, ,5 204,5 IMPRONT TERR / FOOTPRINT 900 SPZI DI INSTLLZIONE / CLERNCES MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 22 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE DIMENSIONL DRWING GEYSER 2 MT HWS 1PS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 65

66 MROON 2 MT Dimensional layout SD * * B C , B C 371,5 MODELLO MODEL * PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT Δ PESO Δ WEIGHT MOD. 1P 16 Δ PESO Δ WEIGHT MOD. 2P 32 QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI DI SOLLEVMENTO LIFTING HOLES GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH OPZIONLE OPTIONL SPZI DI INSTLLZIONE / CLERNCES PNNELLO SPORTBILE REMOVBLE PNEL SCRICO CONDENS VERSIONE HP CONDENSTE DRIN HP VERSION INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET ø20 2" 2" CONNESSIONI IDRULICHE / HYDRULIC CONNECTIONS MODELLO STNDRD STNDRD MODEL B MODELLO 1P 1P MODEL C MODELLO 2P 2P MODEL LUNGHEZZ WIDTH DIMENSIONI / DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING 66GEYSER 2 MT SD00165 Swegon Scala-Scale reserves the right Data-Date to alter specifications. Dis.-Draftsman Visto-Checked by Foglio di N /30 12/12/2012 P. Frigolorpe N. Bettio Sheet of SD00165

67 MROON 2 MT Dimensional layout SD IMPRONT TERR / FOOTPRINT G1 G2 G3 G Fh G.. FORI DI FISSGGIO FIXING HOLES Ø18 PUNTI DI PPOGGIO NTIVIBRNTI VIBRTION DMPER FOOT HOLDS G1 G2 G3 G / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING GEYSER 2 MT SD00165 Swegon reserves Scala-Scale the right to alter Data-Date specifications. Dis.-Draftsman Visto-Checked by Foglio di N. 2 1/12,5 12/12/2012 P. Frigolorpe N. Bettio Sheet of SD

68 MROON 2 MT/HWS Dimensional layout SD OPZIONLE / OPTIONL OPZIONLE / OPTIONL Rout C , Rin C Rin B B ,5 MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT Δ PESO Δ WEIGHT MOD. 1P 16 Δ PESO Δ WEIGHT MOD. 2P 32 Δ PESO Δ WEIGHT MOD. 1R 17 Δ PESO Δ WEIGHT MOD. 1R 1P 33 Δ PESO Δ WEIGHT MOD. 1R 2P 49 QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI DI SOLLEVMENTO LIFTING HOLES GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH PNNELLO SPORTBILE REMOVBLE PNEL SPZI DI INSTLLZIONE / CLERNCES Rin Rout SCRICO CONDENS VERSIONE HP CONDENSTE DRIN HP VERSION INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET INGRESSO CQU RECUPERO RECOVERY WTER INLET USCIT CQU RECUPERO RECOVERY WTER OUTLET ø20 2" 2" 2" 2" CONNESSIONI IDRULICHE / HYDRULIC CONNECTIONS MODELLO STNDRD STNDRD MODEL B MODELLO 1P - 2P 1P - 2P MODEL C MODELLO 1R 1R MODEL LUNGHEZZ WIDTH DIMENSIONI / DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING 68GEYSER 2 MT HWS SD00166 Swegon Scala-Scale reserves the right Data-Date to alter specifications. Dis.-Draftsman Visto-Checked by Foglio di N /30 28/11/2012 P. Frigolorpe N. Bettio Sheet of SD00166

69 MROON 2 MT/HWS Dimensional layout SD IMPRONT TERR / FOOTPRINT G1 G2 G3 G Fh G.. FORI DI FISSGGIO FIXING HOLES Ø18 PUNTI DI PPOGGIO NTIVIBRNTI VIBRTION DMPER FOOT HOLDS G1 G2 G3 G / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING GEYSER 2 MT HWS SD00166 Swegon reserves Scala-Scale the right to alter Data-Date specifications. Dis.-Draftsman Visto-Checked by Foglio di N. 2 1/12,5 28/11/2012 P. Frigolorpe N. Bettio Sheet of SD

70 MROON 2 HT DIMENSIONL LYOUTS MROON 2 HT Dimensional layout SD B Lp Cdn Lp CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES Lp IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH PUNTO DI SOLLEVMENTO LIFTING POINT FORI 12 LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT SCRICO CONDENS CONDENSTE DRIN ø 22 INGRESSO CQU UTILIZZO USCIT CQU UTILIZZO 1" 1" USER WTER INLET USER WTER OUTLET FLUSSO RI IR FLOW MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 70 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER Visto-Checked by / Foglio N. 1 di 1 Disegno-Drawing Rev.

71 MROON 2 HT 1PS Dimensional layout SD Cdn SPZI DI INSTLLZIONE / CLERNCES 28, , IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø35 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH Fori\Holes 9 SCRICO CONDENS CONDENSTE DRIN INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET FLUSSO RI IR FLOW ø 22 1" 1" LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code Scala-Scale Data-Date Dis.-Draftsman GEYSER 2 1PS Visto-Checked by Foglio / di Disegno-Drawing SD00146 Rev. 71

72 MROON 2 HT Dimensional layout SD B B Cdn * CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES 87, , IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH Fori\Holes 12 B B 1" 1 1\4" 1" SCRICO CONDENS CONDENSTE DRIN INGRESSO CQU UTILIZZO USER WTER INLET ø 22 USCIT CQU UTILIZZO USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 72 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER Visto-Checked by Foglio N. 1 di 1 Disegno-Drawing Rev.

73 MROON 2 HT 1PS Dimensional layout SD Cdn * 242 SPZI DI INSTLLZIONE / CLERNCES , ,5 148 IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH Fori\Holes 9 SCRICO CONDENS CONDENSTE DRIN ø 22 INGRESSO CQU UTILIZZO 1" 1/4 USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 1PS Visto-Checked by Disegno-Drawing Foglio N. 1 di 1 Rev. 73

74 MROON 2 HT Dimensional layout SD B B Cdn * CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES Fori\Holes IMPRONT TERR / FOOTPRINT LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL ø 22 1" 1/4 1" 1/4 MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 74 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

75 MROON 2 HT 1PS Dimensional layout SD Cdn 917 * , , Fori\Holes IMPRONT TERR / FOOTPRINT SPZI DI INSTLLZIONE / CLERNCES DIMENSIONI - DIMENSIONS QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø34 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH SCRICO CONDENS CONDENSTE DRIN ø 22 INGRESSO CQU UTILIZZO 1" 1/4 USER WTER INLET USCIT CQU UTILIZZO 1" 1/4 USER WTER OUTLET FLUSSO RI IR FLOW * OPZIONLE \ OPTIONL LUNGHEZZ WIDTH MODELLO MODEL PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 1PS Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 75

76 MROON 2 HT/HWS Dimensional layout SD Rout Rin B Lp Cdn Lp CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P SPZI DI INSTLLZIONE / CLERNCES Lp IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH PUNTO DI SOLLEVMENTO LIFTING POINT FLUSSO RI IR FLOW FORI 12 LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT SCRICO CONDENS CONDENSTE DRIN ø 22 Rin Rout INGRESSO CQU UTILIZZO USCIT CQU UTILIZZO INGRESSO CQU RECUPERO USCIT CQU RECUPERO 1" 1" 1" 1\4 1" 1\4 USER WTER INLET USER WTER OUTLET RECOVERY WTER INLET RECOVERY WTER OUTLET MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT P P P P P \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE 76 DIMENSIONL DRWING Scala-Scale Data-Date Dis.-Draftsman \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code GEYSER 2 HWS Visto-Checked by / Foglio N. 1 di 1 Disegno-Drawing Rev.

77 MROON 2 HT/HWS 1PS Dimensional layout SD Rout Rin Cdn SPZI DI INSTLLZIONE / CLERNCES 28,5 28, IMPRONT TERR / FOOTPRINT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI SOLLEVMENTO Ø35 LIFTING HOLES PNNELLO SPORTBILE REMOVBLE PNEL GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH FLUSSO RI IR FLOW Fori\Holes 9 SCRICO CONDENS CONDENSTE DRIN ø 22 INGRESSO CQU UTILIZZO 1" USER WTER INLET USCIT CQU UTILIZZO 1" USER WTER OUTLET Rin INGRESSO CQU RECUPERO 1" 1/4 RECOVERY WTER INLET Rout USCIT CQU RECUPERO 1" 1/4 RECOVERY WTER OUTLET LUNGHEZZ WIDTH MODELLO MODEL DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT \ \ \ Rev. Data-Date Dis.-Draftsman Denominazione-Denomination SCHEM DIMENSIONLE DIMENSIONL DRWING \ \ Visto-Checked by Descrizione revisione-revision description Codice-Code Scala-Scale Data-Date Dis.-Draftsman GEYSER 2 HWS 1PS Visto-Checked by Foglio / di Disegno-Drawing SD00172 Rev. 77

78 MROON 2 HT/HWS Dimensional layout SD Rout B Rin * FORI/HOLES IMPRONT TERR / FOOTPRINT MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT P P SPZI DI INSTLLZIONE / CLERNCES CONNESSIONI IDRULICHE / HYDRULIC CONNECTION CQU UTILIZZO SENZ MODULO IDRULICO USER WTER WITHOUT HYDRULIC MODULE CQU UTILIZZO CON MODULO IDRULICO 1P B USER WTER WITH HYDRULIC MODULE 1P LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 20 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE 78 DIMENSIONL DRWING GEYSER 2 HWS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by Foglio N. 1 di 1 Disegno-Drawing Rev.

79 MROON 2 HT/HWS 1PS Dimensional layout SD Rout Rin FORI/HOLES * ,5 28, IMPRONT TERR / FOOTPRINT SPZI DI INSTLLZIONE / CLERNCES 1:20 MODELLO MODEL LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 22 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE DIMENSIONL DRWING GEYSER 2 HWS 1PS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by Disegno-Drawing Foglio N. 1 di 1 Rev. 79

80 MROON 2 HT/HWS Dimensional layout SD Rout Rin B * FORI/HOLES IMPRONT TERR / FOOTPRINT MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT P P P SPZI DI INSTLLZIONE / CLERNCES CONNESSIONI IDRULICHE / HYDRULIC CONNECTION DIMENSIONI - DIMENSIONS CQU UTILIZZO SENZ MODULO IDRULICO LUNGHEZZ PROFONDIT' USER WTER WITHOUT HYDRULIC MODULE WIDTH DEPTH B CQU UTILIZZO CON MODULO IDRULICO 1P USER WTER WITH HYDRULIC MODULE 1P QUDRO ELETTRICO INGRESSO CQU UTILIZZO ELECTRICL PNEL USER WTER INLET INGRESSO LIMENTZIONE ELETTRIC USCIT CQU UTILIZZO ELECTRICL SUPPLY INLET USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS ø 20 CONDENSTE DRIN * OPZIONLE / OPTIONL LTEZZ HEIGHT 1" 1/4 1" 1/4 1" 1/4 1" 1/4 \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE 80 DIMENSIONL DRWING GEYSER 2 HWS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Foglio N. 1 di 1 Disegno-Drawing Rev.

81 MROON 2 HT/HWS 1PS Dimensional layout SD Rout Rin * Fori\Holes 9 28, ,5 204 IMPRONT TERR / FOOTPRINT 900 SPZI DI INSTLLZIONE / CLERNCES MODELLO MODEL PESO PESO IN FUNZIONE WEIGHT OPERTING WEIGHT LUNGHEZZ WIDTH DIMENSIONI - DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET FORI SOLLEVMENTO INGRESSO CQU RECUPERO Ø34 Rin LIFTING HOLES RECOVERY WTER INLET PNNELLO SPORTBILE USCIT CQU RECUPERO Rout REMOVBLE PNEL RECOVERY WTER OUTLET GRIGLIE DI PROTEZIONE FLUSSO RI PROTECTIVE METL MESH IR FLOW SCRICO CONDENS CONDENSTE DRIN ø 22 * OPZIONLE / OPTIONL 1" 1/4 1" 1/4 1" 1/4 1" 1/4 \ \ \ \ \ Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code SCHEM DIMENSIONLE DIMENSIONL DRWING GEYSER 2 HWS 1PS Scala-Scale Data-Date Dis.-Draftsman Visto-Checked by - Disegno-Drawing Foglio N. 1 di 1 Rev. 81

82 MROON 2 HT Dimensional layout SD * * B C , B C 371,5 MODELLO MODEL * PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT Δ PESO Δ WEIGHT MOD. 1P 20 Δ PESO Δ WEIGHT MOD. 2P 40 QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI DI SOLLEVMENTO LIFTING HOLES GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH OPZIONLE OPTIONL SPZI DI INSTLLZIONE / CLERNCES PNNELLO SPORTBILE REMOVBLE PNEL SCRICO CONDENS VERSIONE HP CONDENSTE DRIN HP VERSION INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET ø20 2" 2" CONNESSIONI IDRULICHE / HYDRULIC CONNECTIONS MODELLO STNDRD STNDRD MODEL B MODELLO 1P 1P MODEL C MODELLO 2P 2P MODEL LUNGHEZZ WIDTH DIMENSIONI / DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING 82GEYSER SD00163 Swegon Scala-Scale reserves the right Data-Date to alter specifications. Dis.-Draftsman Visto-Checked by Foglio di N /30 12/12/2012 P. Frigolorpe N. Bettio Sheet of SD00163

83 MROON 2 HT Dimensional layout SD IMPRONT TERR / FOOTPRINT G1 G2 G3 G Fh G.. FORI DI FISSGGIO FIXING HOLES Ø18 PUNTI DI PPOGGIO NTIVIBRNTI VIBRTION DMPER FOOT HOLDS G1 G2 G3 G / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING GEYSER SD00163 Swegon reserves Scala-Scale the right to alter Data-Date specifications. Dis.-Draftsman Visto-Checked by Foglio di N. 2 1/12,5 12/12/2012 P. Frigolorpe N. Bettio Sheet of SD

84 MROON 2 HT/HWS Dimensional layout SD OPZIONLE / OPTIONL OPZIONLE / OPTIONL Rout C , Rin C Rin B B ,5 MODELLO MODEL PESO WEIGHT PESO IN FUNZIONE OPERTING WEIGHT Δ PESO Δ WEIGHT MOD. 1P 20 Δ PESO Δ WEIGHT MOD. 2P 40 Δ PESO Δ WEIGHT MOD. 1R 17 Δ PESO Δ WEIGHT MOD. 1R 1P 37 Δ PESO Δ WEIGHT MOD. 1R 2P 57 QUDRO ELETTRICO ELECTRICL PNEL INGRESSO LIMENTZIONE ELETTRIC ELECTRICL SUPPLY INLET FORI DI SOLLEVMENTO LIFTING HOLES GRIGLIE DI PROTEZIONE PROTECTIVE METL MESH PNNELLO SPORTBILE REMOVBLE PNEL SPZI DI INSTLLZIONE / CLERNCES Rin Rout SCRICO CONDENS VERSIONE HP CONDENSTE DRIN HP VERSION INGRESSO CQU UTILIZZO USER WTER INLET USCIT CQU UTILIZZO USER WTER OUTLET INGRESSO CQU RECUPERO RECOVERY WTER INLET USCIT CQU RECUPERO RECOVERY WTER OUTLET ø20 2" 2" 2" 2" CONNESSIONI IDRULICHE / HYDRULIC CONNECTIONS MODELLO STNDRD STNDRD MODEL B MODELLO 1P - 2P 1P - 2P MODEL C MODELLO 1R 1R MODEL LUNGHEZZ WIDTH DIMENSIONI / DIMENSIONS PROFONDIT' DEPTH LTEZZ HEIGHT / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING 84GEYSER 2 HWS SD00164 Swegon Scala-Scale reserves the right Data-Date to alter specifications. Dis.-Draftsman Visto-Checked by Foglio di N /30 28/11/2012 P. Frigolorpe N. Bettio Sheet of SD00164

85 MROON 2 HT/HWS Dimensional layout SD IMPRONT TERR / FOOTPRINT G1 G2 G3 G Fh G.. FORI DI FISSGGIO FIXING HOLES Ø18 PUNTI DI PPOGGIO NTIVIBRNTI VIBRTION DMPER FOOT HOLDS G1 G2 G3 G / / / / / Rev. Data-Date Dis.-Draftsman Visto-Checked by Descrizione revisione-revision description Denominazione-Denomination Codice-Code Disegno-Drawing Rev. SCHEM DIMENSIONLE / DIMENSIONL DRWING GEYSER 2 HWS SD00164 Swegon reserves Scala-Scale the right to alter Data-Date specifications. Dis.-Draftsman Visto-Checked by Foglio di N. 2 1/12,5 28/11/2012 P. Frigolorpe N. Bettio Sheet of SD

86 _MROON 2_