Technical specification for the ALBA area radiation monitor network and detectors

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1 ALBA Project Document No: Page: 1 of 21 Radiation Safety ALBA Project Document No: EDMS Document No. Created: Page: 1 of 21 H&S-HS-RS-0704 Modified: Rev. No.: 2.0 Technical specification for the ALBA area radiation monitor network and detectors Abstract This document summarizes the requirements specification for the area radiation monitors network and detectors for the ALBA light source. This equipment will be used as area monitors to control the total annual personal dose from ionization radiation nature. X. Queralt Prepared by: G. García Checked by: J. Bordas Approved by: D. Einfeld J. Klora S. Ferrer D. Fernandez D. Bertran F. Fernandez Distribution List

2 ALBA Project Document No: Page: 2 of 21 History of Changes Rev. No. Date Pages Description of changes First version G. Garcia, D. Fernandez and F. Fernandez Comments included Including the guarantee clause and modify the tendering information Including gamma spectrometer in separate lots D. Fernández and D. Bertrán comments included on v J. Bordas and G. García comments included on v1.4

3 ALBA Project Document No: Page: 3 of 21 References [1] Spanish Royal Decree 783/2001: Ionizing Radiation Health Protection Rules. [2] IEC 60529: Degrees of protection provided by enclosures. [3] IEC INTERNATIONAL STANDARD 60846: Radiation protection instrumentation Ambient and/or directional dose equivalent (rate) meters and/or monitors for beta, X and γ radiation. [4] EN : Electromagnetic compatibility (industrial ambient). [5] EN : Electromagnetic compatibility (industrial field). [6] TANGO control system. [7] CELLS Administrative clauses.

4 ALBA Project Document No: Page: 4 of 21 Index - Page - 1. Previous considerations Scope of the supply Technical specifications Installation and start-up Commissioning, technical acceptance and final acceptance Health and safety aspects for the equipment Packing and transport Tendering documentation Annex I General Schedule Annex II Fixed detector position: General ALBA layout Annex III Radiation monitor connections Annex IV Radiation monitor network connections Annex V Earth connection labelling

5 ALBA Project Document No: Page: 5 of Previous considerations 1.1 Objective a. The radiation monitor measurement system controls that the limit of the radiation dose levels given by the Spanish regulation [1] are followed, and the data obtained from it is used as document for the inspection local authorities. The network measurement system has to consist of photon (X and γ rays), neutron measurement stations and both, and a PC Central Control unit. Depending on the measurement site one X and γ rays monitor and one neutron monitor, jointly with one electronic system of local measurement (Local Control and Display Unit) will be mounted together. In other places the two types of detector will be installed separately (photons or neutrons), but all of them will be connected to the PC Central Control unit in any case (see Annex III and IV). b. During the commissioning of the ALBA accelerators, radiation portable detectors (either for photons or neutrons) will be used to check any shielding leakage. c. In addition, to determine what kind of element activation may occurs across ALBA, portable gamma spectrometers will be needed. d. In this report, a proposed network distribution for the photons and neutrons radiation monitors (also portable detectors and spectrometers) is given for all the ALBA facility (from the LINAC accelerator to the beamlines). Any other solution that will fulfil the technical specifications and the legal aspects is acceptable for CELLS, especially if some cost reduction applies. e. The scope of supply is divided into FOUR lots, as detailed in section 2. f. Due to the installation requirements and schedule, the delivery of the radiation monitors (for each of the four lots) has to be done in 2 batches. The first one shall be ready for the LINAC installation and the second one for the other 2 accelerators and beamlines (see the schedule in Annex I). Each batch delivery includes some portable detector units and spectrometers, as detailed in Table 2 (section 3.10). 1.2 ALBA description a. The ALBA synchrotron light source layout consists on 3 accelerators and 7 experimental beamlines (see Annex II). The acceleration system is formed by the LINAC injector, one synchrotron accelerator injector (called Booster) and finally the 2 nd synchrotron accelerator that stores the electron beam for several hours (the so called Storage Ring). The LINAC accelerates the electron current up to 100 MeV, then the current is injected at the Booster to be ramped up to 3 GeV, which is the nominal energy in the Storage Ring. Afterwards, passing by the Booster to storage flight path, the electrons are injected at the synchrotron Storage Ring, where the electron beam current is stored for a period of time of several hours. The length of the LINAC, Booster and Storage Ring are 15 m, 265 m and 285 m respectively. b. The overall charge delivered by the LINAC is 4 nc (per shot), and the maximum electron beam current stored (and consequently ramped) in the Booster is 10 ma, and at the storage up to 400 ma. All the acceleration and ramp process is based in 5 Hz repetition rate given by the LINAC (it could be tuned from 1 to 5 Hz). The stored beam (at the Storage Ring) is achieved after 5 minutes after the injection process has started (this time depends on the injection efficiency). The stored beam is circulating inside an ultra high vacuum system. In the bending regions (bending magnets or insertion device zones) the ultra relativistic electron radiates synchrotron radiation. The amount of stored electrons is reducing slowly due to the collisions with the residual gas and the electrons from the same bunch. For that reason after several minutes (depending on beam lifetime and the variation current accepted in the Storage Ring), it is needed to repeat the injection process (if the accelerator works on the so called top-up mode). c. To store the beam in the Storage Ring 32 dipole electromagnets (bending magnets) are used, with magnetic fields around 1.42 T, and 6 RF cavities where a transmission of high frequency of 500 MHz and 150 kw of power each is delivered to the electron beam. In the Experimental Hall it is planned to install 7 photon beamlines, with their corresponding measurement and control electronic system of high sensitivity. d. The LINAC accelerator is located in a separated vault next to the circular tunnel where the other 2 synchrotron accelerators are installed. The surface of the LINAC vault is 85 m 2 (22.5 m x 3.8 m) approximately. The walls are made of high density concrete (3.4 g/cm 3 ) of 1 m thickness, and the roof (3 m high) if formed by 2 layers of 0.5 m thickness made of normal concrete (2.4 g/cm 3 ). See Annex II for a detailed drawing.

6 ALBA Project Document No: Page: 6 of 21 e. The Booster and the Storage Ring are located in the same concrete tunnel. The inner wall has circular shape, while the outer one has a ratchet configuration (see Annex II). As in the LINAC, the roof is 3 m high formed by 2 layers of 0.5 m normal concrete, but in the Booster to Storage Ring transfer line area one more layer is added (total 1.5 m). The concrete inner wall thickness varies from 1 to 1.75 m depending on the accelerator position. It is thicker in the forementioned transfer line zone. The ratchet wall thickness is 1 m (normal concrete) for all the side walls and 1.5 m (heavy concrete) for all the front walls. The area contained inside this wall is a Prohibited Zone when the Storage Ring or the Booster are switched on. The Experimental Hall outside the wall is a Free Access zone (Dose Limit 1 msv/y). f. There are 3 different sources of radiation: gas and solid bremsstrahlung (also called prompt radiation) and synchrotron radiation. The gas and solid bremsstrahlung are produced in all 3 accelerators when the electrons from the beam hit the molecules and atoms of the residual gas or the vacuum pipe walls, the emitted radiation is in the X and γ ray energy range depending on the electron beam energy. The synchrotron radiation is produced when the electron current trajectory is bent either in the Booster or in the Storage Ring. This occurs in the dipole magnets (for both synchrotron machines) and in the Insertion Devices (ID) which are located in the Storage Ring straight sections. The photon energy of this radiation depends on the dipole and ID magnetic field strength (most of them are in the X ray region). Due to all these processes photons (X and γ) and neutron radiation are generated, and they have to be properly dealt with. g. In the beamline areas the main sources of radiation are gas bremsstrahlung and synchrotron radiation. However neutrons rising from the photon-nucleus reaction can be present too. For that reason a radiation monitor has to be placed next to the beamline wall (hutch beamline wall). h. The low energy synchrotron radiation, corresponding to the X ray range, is absorbed by the vacuum chamber walls (made of stainless steel). The purpose of the radiation monitor network object of the present specification is having a record from the γ and neutron radiation that are produced in any part of the installation, as well as providing interlock signals to the Personal Safety System (PSS), see Annex III. The intensity of the γ radiation spectrum has a maximum around 1 MeV, with a continuous extension up to the electron beam energy (around 3 GeV). The neutron radiation is formed by high resonance neutrons, with an energy spectrum similar to the spectrum from Cf, with a maximum located at 1 MeV; and with fast neutrons having energies that may reach 100 MeV. During the injection time, the radiation produced is pulsed, the time structure being around ns pulse length, with a maximum repetition rate of 5 Hz, given by the LINAC time structure. Once the electron beam is stored, the electron current is formed by 445 bunches of 2 ns time length and 0.9 ma current each. The pulse characteristics in the ALBA accelerators are summarized in the table below: Radiation Source Pulse length Repetition rate LINAC ns 1 5 Hz Booster ns 1 5 Hz Storage Ring 2 ns (continuous) 500 MHz (continuous) Table 1. The pulse structure characteristic for the ALBA accelerator i. This radiation shall be measured in all the installation areas where the dose rate could be higher than the radiation background level. It applies out of the prohibited areas that are shielded. The area outside the LINAC vault and tunnel walls are zones under control. The objective of the network measurement system is to monitor the radiation at any time and to give the integrated dose for long period (see Annex IV). It is requested to compute the annual dose for the reporting to the national authorities. j. During injection a typical dose rate of 2.5 µsv/h, for neutrons and γ rays, can be expected. This implies an instantaneous peak value of 5.0 Sv/h (due to the radiation pulsed structure). k. The highest dose rate will happen during injection where the electron loss rate will be higher for the 3 accelerators, and next to the first optical element at the beamline. Depending on the vacuum pressure the gas bremsstrahlung dominates in the beamline, and it is related with the vacuum conditions. l. Between the injection steps the radiation does not have a pulsed structure (it comes from a stochastic electron loss), and the expected dose rate is in the range of the natural radiation background (0.1 µsv/h).

7 ALBA Project Document No: Page: 7 of Scope of the supply The scope of the supply is the design, manufacturing, testing, calibration, installation, start-up and commissioning of: LOT#1: AREA DETECTORS a. 15 fixed and 3 movable (integrated on the respective trolley) γ radiation monitors. b. 3 movable (integrated on the respective trolley) neutron radiation monitors. c. 9 fixed combined γ and neutron radiation monitors and 3 movable (integrated on the respective trolley) combined γ and neutron radiation monitors. d. For the fixed detector the corresponding support (not specified in this document). e. For the movable ones the corresponding trolleys (not specified in this document). f. For all of them the corresponding electronic system (referred as Local Control and Display unit). g. For all of them the corresponding interconnecting cables. h. A PC unit for remote control (referred as PC Central Control unit). i. A software application to display the dose, dose rate, status, etc, as well as to control and to configure remotely the radiation monitors. j. 1 neutron and gamma-ray calibration sources pack. k. Any other ancillary equipment necessary for proper operation, including but not limited to the items indicated in section 4. LOT#2: PORTABLE GAMMA DETECTORS l. 5 portable γ radiation detectors. LOT#3: PORTABLE NEUTRON DETECTORS m. 3 portable neutron radiation detectors. LOT#4: GAMMA SPECTOMETERS n. 2 gamma-ray portable spectrometers to determine the activated elements across the ALBA facility Also for all the lots: o. The corresponding calibration certification (Spanish or European approval) p. Training course for all the equipment and software q. Packaging and transportation for all the materials listed in lot#1, lot#2, lot#3 and lot#4. The scope of the supply of the different lots is summarized in Table 2 (section 3.10). 3. Technical specifications 3.1 Generalities a. The installation of the photon and neutron radiation monitors is considered in 2 phases (corresponding to the 2 delivery batches): i. LINAC and the corresponding transfer line installation. The monitors corresponding to this phase are referred to as 1 st BATCH in the following. ii. Booster, Storage Ring, the transfer line and the 7 experimental beamlines. The monitors corresponding to this phase are referred to as 2 nd BATCH in the following.

8 ALBA Project Document No: Page: 8 of 21 The items included in each of the two batches, for the different contracting lots, are specified in section 3.10 below. b. Electromagnetic compatibility In order to avoid any interference between the radiation monitors and any electromagnetic source located in the Service Area, Experimental Hall or Control Room, the electronic system should follow the electromagnetic compatibility recommendations (see references [4] and [5]). This applies to all the instruments included in the present specifications (lots#1-#4). c. Documentation For all the items included in the present specifications (lots 1-4) the scope of the supply shall include service, functioning and safety description instructions (according to CE regulations). Furthermore, the awarded companies shall write at their own cost 3 copies for the technical documentation (either in English or Spanish), for each different type of detector. This technical documentation shall contain the following information: i. A general system description. ii. Detailed description of the setup. iii. iv. The main connection frame and the block diagram The detailed connection frame for the complete and final version for all the electronic system with all the information about the meaning of each component or product information for the integrated electronic components. v. Breakdown for all the individual element parts. vi. vii. viii. Plug connection drawing Installation drawing Operation instruction In addition to the fore mentioned 3 copies, the contractor shall provide 1 extra signed copy that will be used for the official license before the installation. The information on this copy will be a summary of that contained in the previous 3. The precise content will be given with enough time to compile it. 3.2 Technical specifications for the radiation detectors (lots#1 to #3) Specific for the LOT#1: a. We consider 2 types of radiation monitor stations depending on the site location: i. Fixed Stations: these stations are located on wall or floor holders (solid support attached to the concrete wall, experimental hutch lead panel or floor). The scope of supply must include all fixation elements and full installation of the monitors as detailed in section 4 below (the detailed design is not specified in this document). ii. Movable Stations: these stations are mounted on a trolley (the detailed design is not specified in this document) that allows for moving around the ALBA site, connection to the radiation monitor network and locking gadget in such a way that only an authorized person can move it. The scope of the supply includes the trolleys with the full integration of detectors and the local control and display unit onto them. b. At the ALBA site there are 2 different locations for the radiation monitor stations (for the fixed ones): i. Service Area ii. Experimental Hall c. According to the particle detector 3 different types of radiation monitor station are considered: i. γ rays detector only ii. Neutron detector only iii. γ rays and neutron stations All three types shall include the corresponding light and acoustic signals and the local display unit specified in this document (the so called Local Control and Display unit). d. The detector height (for any detector type) shall be 1.40 m (the height of the electron beam orbit)

9 ALBA Project Document No: Page: 9 of 21 e. At all radiation monitor stations it shall be allowed to read locally and remotely (from the PC Central Control unit). Specific for the LOT#1, LOT#2 and LOT#3: f. All dose monitors shall measure the following magnitudes: i. Ambient equivalent dose: H*10 ii. Ambient equivalent radiation dose rate according to the IEC [3] g. All dose monitors shall display the data in the following units or their submultiples: i. Sievert [Sv] ii. Sievert/hour [Sv/h] h. The dose rate measurement range given above is coming from the pulsed radiation during the injection stage. In the neutron sensors case, a pulse dispersion is produced due to neutron moderation (around 20 ps) in such a way that the pulse peak value is slightly lower. For both types of sensor, the accuracy in the radiated pulsed measurement should be better than 10 %. The measurement accuracy with a calibration source shall be better than 5%. Offers with lower precision will not discard if their values are justified and the equipment offered have other technical advantages. Specific for the LOT#1 and LOT#2: i. The detailed specifications for the γ radiation detectors are the following: i. Measurement range: 100 nsv/h 1 Sv/h (from natural background to beam loss). The bidders shall include in their offer detailed information on the detector sensitivity (cps/µsv/h). ii. Energy range: approximately 35 kev 7 MeV. The bidders shall include in their offer detailed information on the detector efficiency curve. iii. Possibility to be calibrated Specific for the LOT#1 and LOT#3: j. The detailed specifications for neutron radiation monitors are the following: i. Measurement range: 10 nsv/h 100 msv/h (for the LOT #3, a different type of display unit would be accepted). The bidders shall include in their offer detailed information on the detector sensitivity (cps/µsv/h). ii. Energy range: ev 15 MeV. The bidders shall include in their offer detailed information on the detector efficiency curve. iii. Possibility to be calibrated 3.3 Technical specifications for the Local Control and Display units (LOT#1 to #3) All radiation monitors included in the scope of lots#1 to #3 shall include an electronic measurement system (one single system for both gamma and neutron monitor, in the case of radiation monitor combined stations), complying with the following functionalities: a. For the LOT#1: i. Register, analysis and transmission of the measured data to the PC Central Control unit. ii. Data storage capacity to assure that any measured data (date, hour, status and measured values) is not lost under any electrical power or computing control fault. iii. Calibration mode. iv. Front panel display of the dose rate, as well as the integrated dose in the last day, month and year, separately for gamma rays and neutrons (if this is the case). v. Two independent dose rate configurable levels of alarm. vi. Acoustic and flashing light signals, activated according to the threshold levels mentioned in the previous item.

10 ALBA Project Document No: Page: 10 of 21 vii. Alarm message for the memory status. viii. The local data has to be shown in a human readable format for any measure (γ and neutron). ix. The registered data shall include a time stamp together with the measured values of the γ and neutron radiation monitors. It shall be possible to read the data as an ASCII file. x. Permanent storage for all the measured parameters in a memory with equalized battery. xi. Sample rate variable from 10 seconds to 24 hours. xii. The measurement shall re-start automatically after a power supply trip-off. xiii. The system shall have a password protection for the measurement parameters configuration. b. For the LOT#2 and LOT#3: i. It shall be possible to store data locally and download it subsequently to a computer via a standard connection. ii. Calibration mode. iii. Acoustic signals activated according to a threshold levels. iv. Alarm message for the memory status. 3.4 Remote control and data acquisition for the area radiation monitors (LOT#1) a. The scope of supply of lot#1 includes a PC Central Control unit, which shall fulfil the following requirements: i. Long term measurement data file and records. ii. Graphical plot for the measured dose rate and daily, weekly and annual records for: γ dose, neutron dose and total dose, at any time range. iii. Possibility of data selection and plotting in an external code like MS-EXCELL. iv. Color printer and printer drivers. CELLS will give the PC characteristics at an early stage in the execution of the contract. b. ALBA uses TANGO [6] as a toolkit to build the control system, and therefore it shall be possible to remotely configure and read out radiation monitors from Tango device servers. To that end the bidders shall provide a well documented protocol for the remote control link. The successful bidder will supply the source code of example programs (with no cost) for both configuration and read out. TANGO has first been developed at the ESRF (Grenoble, France) and now it is a collaboration between four institutes (ESRF, Soleil located near Paris/France, Elettra at Trieste/Italy and ALBA). c. ALBA s control system is based on Suse Linux (currently Suse10.2, kernel 2.6). Windows XP is accepted in some exceptional cases. The bidders shall detail in their offer the operating system that the PC Central Control unit will use. d. Based on the experience of similar installations, the safety integrity level ALBA requires for its Personal Safety System (PSS) is SIL3 (norm IEC 61508). Transmission of every digital signal is done on 4 wires. All fixed stations (lot#1) will be connected to the PSS by interlock signals (24V or dry contacts). The number of interlock outputs available per electronic measurement system shall be enough to comply with the SIL-3 policy. The interlock signal thresholds shall be programmable both locally and from the PC Central Control unit. e. The preferred remote control link is Ethernet. However, both, RS485 and RS232 are also accepted. Any connection topology proposed by the bidders shall take into account the approximate position of the radiation monitors in the global layout of the installations (see Annex II) and the fact that a single PC Central Control unit shall control and readout all monitors (see Annex IV). The PC Central Control unit shall be installed in the ALBA control room. f. The distance range between the Control Room and the fixed radiation monitors is typically in the range from 50 m to 200 m. g. Every station shall be equipped with a connection for remote control. Besides through the local panel, it shall be possible to setup and readout every station (fixed or movable) through the remote link. This include, calibration, alarm and interlock thresholds, as well as data acquisition. 3.5 Technical specifications for the analysis programme (software application for LOT#1)

11 ALBA Project Document No: Page: 11 of 21 a. Besides a detailed description of the remote link protocol the scope of lot#1 includes a software application. It shall allow for remote configuration of the devices, data acquisition, plotting and storage. Doses, integrated, incremental and average shall be shown in displays and graphs. Calibration, and interlocks configuration shall also be possible. It shall be compatible with Suse Linux 10.2 or Windows XP. b. The successful bidder shall install the software application in the PC Central Control unit and demonstrate its full functionality with the complete fixed and movable radiation station network. Additionally, it shall be possible to use the software application for the individual control of a device (for example, installed on a laptop), in order to access devices where the ALBA network is not easily available. c. The analysis programme shall have the following characteristics: i. Channel configuration documentation. ii. Point information label (minimum 20 characters) for the local measurement sites, set up of units, calibration factor and measurement times. iii. Latest measured values shown in bar diagrams, plot in % of the limit value iv. Long term average values shown in bar diagrams v. Incremental values shown in bar diagrams vi. vii. Predefined integrated values shown in bar diagrams, plot in % of the limit value. The time evolution of the radiation dose and integrated dose for a given time range to get the historical trend. 3.6 Calibration source package (LOT#1) a. The scope of lot#1 includes a neutron and gamma ray package for standard calibration. b. This package shall be suitable for checking regularly the monitors and also for extending the calibration period. c. Any holder necessary to perform the operations indicated shall also be included. 3.7 Technical specifications for gamma-ray spectrometer (LOT#4) a. Portable b. Energy range: 25 kev 3 MeV c. It shall be able to identify isotopes from a library d. Display the ambient equivalent dose rate in depth (H*10) e. Search for sources mode option f. Display the spectrum on the screen g. PC connection 3.8 Spare parts a. The bidders of each lot shall send a proposal of spare parts to be supplied together with the instruments. In any case, the list of spare parts shall contain a complete set for the electronic boards. b. The price of the spare parts contained in the proposal shall be quoted separately in the offer. c. The supplier(s) company shall guarantee that the spare parts fulfil the same requirements as the parts already installed in the facility, and they can be exchanged with one another without affecting the performance of the system. 3.9 Batch policy for deliveries a. The items included in the scope of the present specification shall be delivered in TWO batches, as detailed in the following table:

12 ALBA Project Document No: Page: 12 of 21 Item 1st batch quantity 2nd batch quantity Total Quantity Area Detector - Lot#1 1 Fixed Gamma detector Fixed Combined gamma & neutron detectors Trolley Gamma detector Trolley Neutron detector Trolley Combined gamma & neutron detectors Local Control & display unit Supports for fixed detectors Trolley with the cable & connections required Central Control Unit (PC) Software application Cabling and installation Training Calibration Sources Pack (gamma & neutron) Portable Detector 14 Portable gamma detector - Lot# Portable neutron detector - Lot# Gamma spectometer - Lot# Spare parts 17 For fixed detector - Lot# For portable gamma detector - Lot# For portable neutron detector - Lot# For gamma spectometer - Lot# Table 2. Relation for the items quantities according to the lots components and batches deliveries. b. The final quantities to be included on each batch could change slightly from the ones given, depending on the Supplier offer and CELLS s needs. c. Important remark: all the values and the ranges given in this section are the minimum technical requirements that the successful offer shall follow, any other better specifications are welcome, always in agreement with the call for tender budget (see reference [7]). 4. Installation and start-up 4.1. General information a. The contractor of lot#1 shall install the radiation monitor network (fixed and movable) and bring it into full operation. b. The contractor will do the installation of the system under CELLS supervision. c. The contractor will specify the cables for the connections of the different control system components at an early stage of the contract execution. d. For the setup, the manufacturer shall write an installation manual that will be delivered to CELLS at least 6 weeks before the system delivery. This manual shall contain all the important information for the setup procedure.

13 ALBA Project Document No: Page: 13 of 21 In addition, the contractor shall supply all the special material required for the setup. The position for the local measurement systems is specified in Annex II. e. The PC Central Control will be located at the Control Room Responsibilities of the supplier of LOT#1: installation and electrical supply a. Wall or floor support for all the fixed detectors. b. Wall or floor support for the local electronic measurement system. c. Mechanical installation of the sensors and the electronic local measurement system in each place (concrete walls, hutch walls or floor). d. Connection cables and connectors, installation and connection from the stations to the local plugs for data transmission and electrical power installed by CELLS. The data transmission plugs are SUB-D, 9 poles and female type. The low voltage fluctuations at ALBA are ± 1% of the nominal voltage. CELLS will have available points for power and network connection nearby each of the fixed stations. e. Connection of interlock cables to the radiation monitors. The cables will be provided and installed by CELLS. f. Setup and start-up test (functioning and verification) will be done in situ, the PC Central Control unit configuration included. g. The offer presented will be used as an essential input in order to prepare the operation authorization request for the external local authority. Therefore the bidders shall provide a detailed description of the measurement method, data storage and software. h. The bidders shall offer a start-up session for CELLS technical staff, explaining the maintenance procedures with proper instrumentation and/or a maintenance contract with spare parts guarantee (this is applied for each batch). i. The contractor shall submit to CELLS for approval the solution for the integration of radiation monitors on trolleys and for the support structure onto the wall/floor prior to manufacturing Noise level a. The different radiation monitors are located in a place where the noise and electromagnetic emissions shall be put under control. b. During the production of these devices, the supplier should proof that these requirements have been followed. The proof shall be attached with the delivery documentation. c. In particular, ALBA uses a remote control for the Experimental Hall crane with a frequency range of MHz with an amplitude with an effective value of 0.5 % of the voltage value. This radio station should not have any influence on the measurement devices Earth connections A connection for plugging to earth shall be provided and labelled (see Annex V for labelling examples). The supplier shall do the earth connection from the station to the connection point provided nearby by CELLS Installation work Health & Safety requirements on site The contractor of lot#1, which includes installation work at the ALBA site, shall comply with the Health & Safety regulations as specified in the Administrative Clauses. 5. Commissioning, technical acceptance and final acceptance a. The radiation monitors (for γ rays and neutrons) commissioning will be done under the manufacturer supervision at CELLS site. After the delivery at CELLS, the equipment will be switched on with the presence of the CELLS representatives. At this point all the verification items specified in this document will be done. b. The technical acceptance of the supply for all the lots will be done as follows (for each delivery batch):

14 ALBA Project Document No: Page: 14 of 21 i. The measurements and checks required will be done at the supplier company or at the subcontracted company under the supervision of a responsible person from the supplier company, in such a way that all the technical specifications are fulfilled. The supplier company shall write and present documentation about all the measurements and checks performed. ii. The final acceptance will take place at the ALBA site. Once all the previous requirements have been fulfilled according to the technical specifications, the final acceptance tests will be done in 2 steps: 1. A 2-week test carried out at the ALBA site using the calibration samples included in the scope of lot#1, showing that all the measurement system specifications are fulfilled. 2. A radiation pulse test with the following characteristics (neutron particle): 100 ns wide pulse, 1 Hz repetition rate, Cf spectrum and γ < 10 psv/h. In the case that on the delivery date (that it will appear in the contract) CELLS is not able to produce any pulsed radiation, a different testing scheme will be proposed, in such a way that acceptance takes place no later than 10 months after delivery. If after this period the test can not be performed the supply will be automatically accepted as long as it has passed the test defined in step ii.1. c. The final acceptance will take place when all the technical specification requirements are fulfilled, and CELLS has not detected any other defect or, in such a case, all the detected errors have been solved. An acceptance act will be issued by CELLS and signed by both parties. d. All the material costs coming from the technical acceptance, carried out at any site, will be paid by the supplier. The personnel expenses coming from the technical acceptance will be paid by each party respectively. e. Rights reserved: CELLS has the reserved right to the fabrication and delivery option for extra local measurement sites of neutron and γ that follow the specification and are compatible with the connections and software with the quantities already delivered. CELLS has the right of doing that in a 5 years period after the contract signature. f. The supplier(s) shall guarantee all the equipment against failure due to either faulty design, components failure, faulty manufacture or installation as follows: a period of 18 months after the delivery of the equipment and/or 12 months after the equipment is installed and accepted around the ALBA accelerator. g. This applies to each individual equipment lot and to the 2 batches delivery separately: LINAC and/or Booster & Storage Ring. h. CELLS encourages the bidders to offer a longer period of guarantee. 6. Health and safety aspects for the equipment a. All the supplied components shall follow the Spanish and CE regulations regarding all the radiation safety issues and other safety regulations, although they are not explicitly written in the present document. b. The contractor(s) of all lots shall comply with the applicable Spanish Health & Safety regulations, as specified in the Administrative Clauses. 7. Packing and transport a. All the equipment object of the present document shall be safely packed and transported at the expense of the contractor. b. In the case of the fixed and movables stations of lot#1 and the PC Central Control unit the contractor shall keep the responsibility over the equipment until its installation and commissioning are completed. c. For the rest of the equipment, the transfer of risks to CELLS will take place when the equipment is safely laid down on the floor (at ALBA site). d. One month before of the equipment delivery, the contractor(s) shall send a parcel list showing the content and weight of each parcel. e. All the packing and transport expenses will be included in the economical offer. f. CELLS will provide local handling tools for downloading.

15 ALBA Project Document No: Page: 15 of Tendering documentation 8.1 CELLS contact person a. CELLS needs to be assured that suppliers understand the requirements and implications of these specifications. If suppliers have any doubts as to their interpretation, they are encouraged to contact CELLS and discuss details of the specification before making an offer. All enquires of a technical nature should be directed to: Xavier Queralt Safety Officer CELLS-ALBA Edifici Ciències Nord. Mòdul C-3 central. Campus Universitari de Bellaterra. Universitat Autònoma de Barcelona Bellaterra, Barcelona Spain Fax: Tel: xqueralt@cells.es 8.2 Awarding of bid CELLS shall award bids according to the Administrative Clauses [7]. 8.3 Information required to the tender application a. The bidders must supply with the tender documents sufficient technical information to allow for an informed choice of supplier, including at least the following: i. Delivery term compromise, according to the schedule proposed in this document. The bidders shall also include a proposed operational procedure and schedule for the design, manufacturing, testing, calibration, delivery, installation and set-up for the different pieces of equipment. ii. A confirmation of acceptance of the technical specifications given in this document, along with a technical list for each equipment showing that it complies with them (see section 3). The bidders shall also add a list of the manufacturers (name and address) of the major components of the detectors and monitors, as well as a detailed description of the measurement method, data storage and software. iii. A proposal of improvements from the given specifications. iv. The quality assurance policy for the operational procedure. v. A list of previous or similar projects in size and scope to enable CELLS to evaluate the technical value of the supplier, together with a written explanation about how the supplier will transfer the knowledge from the projects previously executed. vi. The bidders may add any other documentation that they consider important to evaluate their offers. CELLS encourages the bidders to follow the index given in this section (and section 3) for their technical offer. b. CELLS will evaluate the bids taking into consideration: - The cost - The delivery time - The technical aspects - Improvement proposals - The quality assurance procedure - The technical value on radiation metrology

16 ALBA Project Document No: Page: 16 of Price breakdown a. The bidders shall submit upon tendering a detailed price breakdown of the supply, following the table below: 1st batch 2nd batch TOTAL Item Quantity Price (VAT inc.) Quantity Price (VAT inc.) Quantity Area Detector - Lot#1 1 Fixed Gamma detector Fixed Combined gamma & neutron detectors Trolley Gamma detector Trolley Neutron detector Trolley Combined gamma & neutron detectors Local Control & display unit Supports for the fixed detectors Trolley with the cable & connections required Central Control Unit (PC) Software application Cabling and installation Training Calibration Sources Pack (gamma & neutron) Portable Detector 14 Portable gamma detector - Lot# Portable neutron detector - Lot# Gamma spectometer - Lot# Spare parts 17 For fixed detector - Lot# For portable gamma detector - Lot# For portable neutron detector - Lot# For gamma spectometer - Lot# TOTAL 0 0 Table 3. Price breakdown for the items quantities according to the lots components and batches deliveries that covers the scope of this document. b. The unit prices quoted in the table shall include installation/commissioning. As well as any ancillary components not listed on the table (such as cabling, supports, fixation, etc, wherever applicable) and the packing and transport for all the equipment and components.

17 ALBA Project Document No: Page: 17 of 21 Annex I General schedule a. Contract signature: second half of September 2007 b. Proposed design: first half of October 2007 c. 1 st Batch - acceptance test at Supplier site: second half of October 2007 d. 1 st Batch - equipment delivery, installation and set up: first half of November 2007 e. Training at ALBA: second half of January 2008 f. 1 st Batch - acceptance test at ALBA: first half of February 2008 g. 2 nd Batch - acceptance test at Supplier site: second half of March 2008 h. 2 nd Batch - equipment installation and set up: first half of June 2008 i. 2 nd Batch - final acceptance test at ALBA: first half of February 2009 j. The bidders shall take up the compromise of being ready to fulfil the milestones indicated in the list above. The detailed dates for deliveries will be confirmed by CELLS in due time.

18 ALBA Project Document No: Page: 18 of 21 Annex II Fixed detector position: General ALBA layout Approximate position of the fixed radiation monitors across the ALBA facility: Service Area and Experimental Hall. In addition, the 7 beamlines (BL) stations are indicated. The Control Room, not shown in the drawing, is located by the external perimeter of the Experimental Area. BL29 - XMCD BL24 - CIRCE BL04-PD BL22-XAS BL09 - Microscopy γ detector γ and neutron detector Control Room BL13 - XALOC BL11 - NCD

19 1 1 ALBA Project Document No: Page: 19 of 21 Annex III Radiation monitor connections Schematic description for the radiation monitor signal outputs and power supply connections. PSS Control Cabinet-PLC based Combined radiation monitor OPEN Interlocked Restricted BEAM ON Light panels Detector chambers Emergency stop PC Central Control Unit Personal keys Start search Finish search interphone Key Holder ID Card reader Call control room 24 V PLC to PC (measured data) to PLC I/O card (interlock signal) Local control & display unit ~ to 220 V Power Supply

20 1 1 ALBA Project Document No: Page: 20 of 21 Annex IV Radiation monitor network connections Schematic description for the radiation monitor network connections to the Central Control Unit (PC), the PSS system (PLC based) and the Tango control system (used for ALBA). The PSS and TANGO are out of the scope of this technical specifications. PSS Control Cabinet-PLC based OPEN Interlocked Restricted BEAM ON Light panels PC Central Control Unit ~ Personal keys Emergency stop Key Holder Start search Finish search interphone PC I/O card / RS232 or Ethernet (measured data) ID Card reader PLC I/O card (interlock signal) Call control room PLC TANGO device server + Graphical User Interface ~ ~

21 ALBA Project Document No: Page: 21 of 21 Annex V Earth connection labelling Two examples of earth connection labelling is proposed in the given pictures:

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