Maxi-Therm Since 2002, throughout North America, Maxi-Therm has been manufacturing innovative packaged solutions for informed specifiers.
Steam to liquid. Vertical flooded heat exchanger concept. // 0% flash steam // 5.4% to 20% energy savings and greenhouse gas reduction // Vertical flooded concept // No steam PRV // Transfering latent and sensible heat of steam // European method // No steam safety relief to roof // No pumping sub-station // 1000 btu/lb. of steam
Table of contents Why we are the leaders. 5 Hot water. Building heat & domestic. 7 Hot water. The ultimate package solution. 17 Steam to steam. 21 World-class laboratory and seminars. 24 United States & Canada exclusive representatives. 26
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Why we are the leaders 5 Maxi-Therm, the leaders in heat transfer technology At Maxi-Therm, we are at the forefront of innovation, developing industry-leading heat transfer technology that is more cost-effective, greener, and more energy and space efficient than conventional heat exchange systems. Our award-winning achievements Maxi-Therm s patented Vertical Flooded Heat Exchanger is industry-recognized, receiving honorable mention at the ASHRAE, AHR EXPO 2005, Orlando, Florida. Over the past 7 years, we have designed and built over 250 of our patented Vertical Flooded Heat Exchangers in hospital, institutional, pharmaceutical and also co- complexes, offering our clients an efficient, cost-effective heat transfer solution. First Prize For Product Design Technology 2002 A.Q.M.E. Canada.
6 Vertical flooded design
Hot water Steam to liquid Building heat & domestic (double wall) 7
Hot water Steam to liquid The Maxi-Therm concept We developed our patented, award-winning Vertical Flooded Heat Exchanger based on a proven system used in Europe for over 25 years but we innovated to enhance its performance. Like the European design, our Vertical Flooded Heat Exchanger features an oversized vertical shell & tube heat exchanger «A» that uses latent & sensible heat of steam to heat a liquid. Because it is oversized, the heat exchanger becomes flooded with condensate that is evacuated at a preset subcooled temperature (usually 200 F), making it possible to optimize use of the sensible heat of steam and eliminate the occurrence of flash steam. A condensate control valve «B» varies the level of condensate in the heat exchanger according to the process load «D & G» resulting in a 5.4% to 20% energy savings and reduction of greenhouse gas. 8 Maxi-Therm s patented innovations When developing our system, we identified two major issues with the European system: 1. The steam pressure must always be lower than the liquid pressure. 2. There is no guarantee of stability of the heated liquid outlet set point temperature, which results in a high level of wasted energy, thereby compromising cost-effectiveness. With Maxi-Therm s patented design, however, we resolved these issues 1. No pressure reducing station on the steam side «C» and no safety relief valve(s) to the roof are required. In fact, we recommend using high-pressure steam (even over 170 psig and we always size the heat exchanger to subcool condensate to 200 F «D». Plus, our heat exchanger uses more sensible heat, for greater performance and efficiency. Simply, our technology always uses ± 1000 btu/lb. of total heat of steam, either at 10 psig or 125 psig steam pressure. 2. We have achieved stability of heated liquid outlet set point temperature for building heat «H». In fact, we are the first to guarantee ± 2 F of set point temperature, even when variable speed drives are used on the circulating pump «G». 3. Stabilizing pump «J» pre-heats incoming liquid and creates additional turbulence in heat exchanger «A», averaging temperature towards sensor «D». Therefore the purpose of the stabilization circuit is to stabilize the fluid temperature across the heat exchanger circuit. 4. No condensate pumping substation needed to lift condensate «E». 5. Condensate Mixer «F» enables high pressure steam traps «I» to discharge directly in the flooded return line «E» without creating any water hammer. Online catalog maxi-therm.net
Hot water Steam to liquid C 175 psig (378 F), 125 psig (353 F) 60 psig (308 F) or 10 psig (240 F) STEAM INLET E I I D 0% Flash condensate return Vertical heat exchange A J ± 2 F OF SET POINT H 9 G CUSTOMER CIRCULATING PUMP (BUILDING HEAT) F CONTROL VALVE B D 200 O F condensate outlet (AT Full LOAD) 0% FLASH, 200 F CONDENSATE RETURN E CANADIAN PATENT # 2,416,353 US PATENT # 6,857,467 - B2 Honorable Mention by ASHRAE-AHR-Expo 2005 / Orlando, Florida First Prize For Product Design Technology 2002 A.Q.M.E. Canada. All major components are fabricated in the U.S.A
Hot water Steam to liquid Conventional Control (1) (4) (3) (6) 10 (8) (4) (2) (5) (1) Less Make-up Water The boiler gets back more condensate so you use less fresh water. This also means less softening, chemical treatment, and surface blowdown. (2) Condensate Pumps Last Longer Condensate that is too hot causes pump cavitation and seal leaks. (3) No STEAM PRV STATION The Maxi-Therm can use high, medium or low pressure steam directly. (4) NO STEAM SAFETY RELIEF TO ROOF Many times the vent piping is the most expensive part of the entire system. Maxi-Therm can eliminate the need for both the pressure relief and condensate receiver vent. Online catalog maxi-therm.net
Hot water Steam to liquid Maxi-Therm Control (1) (3) (4) (6) (10) 11 (7) (5) (6) (9) (2) (5) No PUMPING SUB-STATION The conventional heater will utilize a pump to push the condensate back to a central return station. The pump will require electricity or steam power, again using more energy. This power source will need a control system and isolation. (6) Smaller Steam Inlet And condensate return lines (7) Smaller CONTROL Valve (8) Vacuum Breaker The Maxi-Therm runs at constant pressure and a vacuum breaker is not needed. Independent site testing demonstrated seven times less corrosion rate. (9) 0% FLASH 5.4% to 20% ENERGY SAVING AND GREENHOUSE GAs REDUCTION (10) STABILITY OF SET POINT TEMPERATURE 2 F All major components are fabricated in the U.S.A
Hot water Steam to liquid Sequence of operation Steam in the tubes at 100 psig STEAM 338 F STEAM 338 F 180 F 180 F TUBES 62% FLOODED TUBES 20% FLOODED 160 F 170 F CONDENSATE @ 200 F CONTROL VALVE CONDENSATE @ 185 F CONTROL VALVE 12 STEAM 338 F STEAM 338 F TUBES 92% FLOODED TUBES 100% FLOODED 180 F 180 F 178 F 180 F CONDENSATE @ 179 F CONTROL VALVE NO CONDENSATE CONTROL VALVE MC system operation example Temperature is controlled by modulating the condensate (MC) not throttling the steam. A building heat system with constant 100 psi steam at 338 F. At full load 20 F rise, water enters at 160 F and leaves at 180 F. As entering water temperature rises, the amount of surface exposed to steam is reduced. Condensate is cooled to 200 F or less by entering water, eliminating flash steam. 5.4% to 20% energy savings. No steam PRV station, no safety relief to roof, no pumping sub-station. Online catalog maxi-therm.net
Hot water Steam to liquid Manufacturing facilities and service technicians in the United States & Canada Custom fabrication per ASME Section VIII DIV #1, U-UM-R stamp. Quality control assurance program CSA B51, ANSI B 31.1, B 31.3, B 31.5. National board ISO 9001-2000. Over 250 units installed from 10 usgpm to 2750 usgpm in HOSPITALS, UNIVERSITIES and institutions. 13 All major components are fabricated in the U.S.A
Hot water Steam to liquid 14 Online catalog maxi-therm.net
Hot water Steam to liquid 15 All major components are fabricated in the U.S.A
16 Engineered Solution
Hot water The ultimate package solution 17
Hot water The ultimate package solution 18 1200 US GPM Glycol. 120 F to 185 F. Steam supply @ 175 psig. Back pressure 20 psig. Yearly energy savings 60 K. Greenhouse gas reduction 15%. Installation cost saving 80 K. Floor space 15 x 7 x 13 H. Including 2-75 HP circulating pumps. Expansion tank. Air separator. Control panel. Piping & accessories. Not required No steam PRV station / No steam safety relief to roof / No pumping sub-station. Energy savings & greenhouse gas reduction A result of using latent & sensible heat of steam, subcooling condensate to 200 F (no flash steam). Stability Stability of liquid set point temperature ± 2 F, on variable load condition. Online catalog maxi-therm.net
Hot water The ultimate package solution 15 7 STEAM STEAM CONDENSATE 19 GLYCOL CONDENSATE 13 CAD drawing prepared by Maxi-Therm 7 All major components are fabricated in the U.S.A
20 Quality steam @ 97% saturated
Steam to steam 21
Steam to steam Clean steam The Maxi-Therm CS Series makes clean steam if used with softened or demineralized water (D.I., R.O.). Using central or district steam, Maxi-Therm will make steam at pressures above 0 psig. Maxi-Therm may consume 15.4% LESS steam than generators on central plant steam. The units are pre-assembled and tested. 22 Maxi-Therm CS units can be used for Humidification Sterilization - 97% saturated Direct steam cleaning Principle of operation High pressure steam flows through a CONTROL VALVE, and is throttled to maintain the CLEAN STEAM OUT pressure. Clean steam is generated by the HEAT EXCHANGER vessel. The vertical design uses a second RESERVE vessel, for separation, plus level and pressure stabilization. Incoming water flows through two PRE-HEATER units. One removes heat from the blowdown water, the other cools hot condensate draining from the HEAT EXCHANGER coil. If sudden pressure fluctuations are expected, typical of autoclave applications, an optional BACK PRESSURE VALVE can be furnished. This keeps the outlet steam dry. The AUTOMATIC FEED WATER VALVE and BLOW DOWN VALVE are controlled together. This enables the heating of the feed water. Sterilization Maxi-Therm can supply quality steam to 97% saturated and greater (less than 3% of the mixture mass is liquid). As recommended by sterilizer manufacturers and also clearly indicated in the manual Sterilization technology for the healthcare facility, second edition, MariMargaret Reichert and Jack H. Young. Online catalog maxi-therm.net
Steam to steam 23 US PATENT #7093566 Honorable Mention by ASHRAE-AHR-Expo 2005 CANADIAN PATENT PENDING All major components are fabricated in the U.S.A
24 World class laboratory and seminars Online catalog maxi-therm.net
2 25 1 1- Controlling quality steam @ 97% saturated for sterilization 2- Controlling quality steam @ 97% saturated for humidification 3- Vertical flooded design updates 3 Our world-class facility Headquartered in Montreal, Canada, Maxi-Therm boasts a leading-edge R&D laboratory that is unique in the world. Equipped with 1,000,000 BTU capacity and steam at 100 psig, this is where we test and demonstrate the performance and stability of set point temperature and invite our customers to a full 2-day technical seminar with regards to our innovating products such as vertical flooded concept, clean steam generators for humidification and sterilization. All major components are fabricated in the U.S.A
26 United States & Canada Exclusive representatives
CANADA Montreal/Quebec HEADQUARTERS Laboratory / Seminar room Maxi-Therm Inc. Raymond Lach [President - Founder] Gabriel Cossette Eng. [Director of engineering] T 514-351-1001 Info@Maxi-therm.net Maritimes Aquavap Indotec Agencies Gerry Waselynchuk T 506-857-8788 sales@aquavap.com Ontario Klimar Agency Inc. Erik Walesiak T 613-822-4110 info@klimar.com Alberta & Vancouver Summit Valve & Controls Inc Sean Albers T 780-468-6900 info@summitvalve.com UNITED STATES Regional sales manager Robert Knox T 720-320-9428 s.a.m.llc@q.com Arizona S.A.M. LLC Robert Knox T 720-320-9428 s.a.m.llc@q.com Arkansas Eggelhof Harry B. Stephens T 318-222-9251 shreveport@eggelhof.com Colorado Eggelhof Kerry Johnson T 303-288-0227 denver@eggelhof.com Connecticut Little Inc. Walt Kuzia T 203-375-6651 wkuzia@littlect.com Delaware Energy Products Co Jeff Bailey T 610-544-3400 jbailey@energy-products.com Idaho Eggelhof Kerry Johnson T 801-265-9400 saltlakecity@eggelhof.com Illinois Meilner Mech Sales Inc. Tony Ranallo T 847-253-1040 aranallo@boilersource.com Indiana Meilner Mech Sales Inc. Tony Ranallo T 847-253-1040 aranallo@boilersource.com Iowa Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Kansas Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Kentucky Whitfill - Mc Carthy LLC Bill Mc Carthy T 513-841-2006 bmccarthy7@yahoo.com Louisiana Eggelhof Barry Gautreau T 225-647-5551 gonzales@eggelhof.com Massachusetts Little Inc. Walt Kuzia T 203-375-6651 wkuzia@littlect.com Minnesota Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Mississippi Eggelhof Barry Gautreau T 225-647-5551 gonzales@eggelhof.com Missouri Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Montana S.A.M. LLC Robert Knox T 720-320-9428 s.a.m.llc@q.com Nebraska Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Nevada Eggelhof Kerry Johnson T 801-265-9400 saltlakecity@eggelhof.com New Jersey Energy Products Co Jeff Bailey T 610-544-3400 jbailey@energy-products.com New York MPN Boilers Will Hayes T 914-332-0088 whayes@mpnboilers.com New-Mexico Eggelhof Shawn Stewart T 505-344-4424 albuquerque@eggelhof.com North Dakota S.A.M. LLC Robert Knox T 720-320-9428 s.a.m.llc@q.com Ohio Whitfill - Mc Carthy LLC Bill Mc Carthy T 513-841-2006 bmccarthy7@yahoo.com Oklahoma Eggelhof Mike Martin T 918-664-0400 tulsa@eggelhof.com Pennsylvania (Pittsburgh) Cannon Boiler Works Chris Giron T 724-335-8541 sales@cannonboilerworks.com Pennsylvania (Philadelphia) Energy Products Co Jeff Bailey T 610-544-3400 jbailey@energy-products.com Rhode Island Little Inc. Walt Kuzia T 203-375-6651 wkuzia@littlect.com South Dakota Specialized Products Inc Jeremy Eickhoff T 402-391-7550 jeickhoff@spihvac.com Texas Eggelhof Jerry Gay T 713-923-9461 houston@eggelhof.com Utah Eggelhof Kerry Johnson T 801-265-9400 saltlakecity@eggelhof.com Wisconsin KEI Steam Solutions Kevin Rasmussen T 920-465-4130 Kevin.rasmussen@kequip.com Wyoming Eggelhof Kerry Johnson T 303-288-0227 denver@eggelhof.com 27
Montreal T 514.351.1001 F 514.351.1515 info@maxi-therm.net SW-COC-1160 50% 01/2010