COMPANY PROFILE F ounded in 197, Kaori's goal is the pursuit of modernization of heat-treating technology. Our staff has made every effort to improve on hardware and software, research & development, and acquire the latest technology. The JIS marking and certificate from McDonnell Douglas were awarded to Kaori in 1988 and 1994, respectively, for Kaori's outstanding quality and performance. Kaori continues to grow in the areas of financial assets, labor force, and experiences in the heat treatment field. Based on our heat-treating and brazing experience, in 199, Kaori began to manufacture Sendzimir work rolls and industrial brazed plate heat exchangers. Again, Kaori was awarded the certificate of qualification for ISO91:, UL and CE, thus proving Kaori's capability in manufacturing and management. By combining the available technologies, we plan to step into the thermal management industry and clean room assembly parts. We continue to focus our business on the manufacturing of plate heat exchangers and related components. With production plants in Taiwan and China, we are well equipped to deliver outstanding products and services to meet the on-going global demand.
ISO UL CE Index COMPANY PROFILE OUR PRODUCTS-BPHE MODEL LINE-UP KAORI K5 KAORI K3 KAORI K5 KAORI K7 KAORI K95 KAORI K15 KAORI K5 KAORI K1 KAORI K15 APPLICATION HVAC COMBI BOILER OIL COOLER AIR DRYER INSTALLATION GUIDE 1~ 3~4 5~6 7 8 9 1 11 1 13 14 15 16 17 18 19
KAORI BRAZED PLATE HEAT EXCHANGER OUR PRODUCTS-BPHE Kaori's brazed type heat exchanger consists a series of thin and corrugated stainless steel plates. These plates are compressed and brazed together with copper or nickel depending on the application. This creates flowing channels between plates, with one fluid in odd number channels and the other in the even number channels, thus reaching the purpose of heat exchanging. Different from the gasket seal type, brazing type uses soldering material (copper or nickel depending on the application) to seal the exchanger. By applying high temperature in the vacuum environment at the manufacturing process, it melts down the soldering material to form the seal between each plate. 3
Cold Outlet Hot Inlet Cold Inlet Hot Outlet ADVANTAGES ON THE BRAZED PLATE HEAT EXCHANGER 1. High corrosion resistant All plates uses AISI316 material. Brazing materials are offered in copper or nickel. These materials offer high corrosion resistance against many kinds of fluids.. High pressure resistant Thanks to the brazing process, plate heat exchangersare pressure resistant up to 653psi (45bar).* 3. High thermal efficiency Carefully designed plate pattern of the corrugated plates easily achieve high thermal transfer rate in either counter flow or parallel flow arrangement. 4. High working temperature BPHE's AISI 316 material structure offers higher working temperature range up to 39 F ( C). 5. Compactness BPHE is much lighter and smaller in weight and size compare to shell tube exchangers; about 1/5 the size of the shell tube exchanger with the same capacity. This advantage makes BPHE easier to install and replace. 6. Low maintenance The corrugated plates are designed to achieve turbulence flow at low flow rate, no need for frequent maintenance. * Maximum value may vary with products. Please refer to the tables for particular type of heat exchanger. 4
WHAT BPHE DO WE OFFER K5 K3 K5 K7 Cu Brazing Ni Brazing Heat Transfer Area / Plate Plate Material.1m.117m.55m.3m AISI316 AISI316 AISI316 AISI316 Kaori Performance Range Diagram Capacity (KW) Flow Rate (LPM) K3 K5/K7 K95/K15 K5 K15 Min. Max. Min. Max. Min. Max. Min. Max. Min. Max..7 5.7 1.76 17.58 1.55 43.95 35.16 15.49 35.16 14.65 16 5 5 3 15 1 3 1 4 Code K * - Kaori Type Number of Plates Connection Type "N"=Ni Brazed Special Notation Blank=Cu Brazed Ex: K95*3B-TMK1 Connection Type Notation: B or C W M F X Kaori standard refrigeration type connection. Kaori standard four soldering type connection. Kaori standard four PT male threaded connection type. Kaori standard four PT female threaded connection type. Kaori standard opposite-side connection model. 5
K95 K15 K5 K1 K15 NA NA.475m.533m.199m.136m.113m AISI316 AISI316 AISI316 AISI316 AISI316 Kaori Performance Range Diagram Flow Rate(LPM) 4 4 38 3 34 K15 3 3 8 4 18 K5 1 14 1 1 K95/15 8 4 K5/7 K3 15 3 45 75 9 15 1 135 15 Capacity (KW) 6
5 K5FA K5FB 17 6 6 17 6 6 4 4 74 74 Unit(mm) Kaori K5 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K5*1.96m 9mm.65kg.16L K5*1.1m 34mm.74kg.64L K5*14.144m 38mm.8kg.31L K5*16.168m 43mm.91kg.3L Copper / Nickel Brazing K5*18 K5* K5* K5*4 K5*6 K5*8 K5*3 1 bar / 1 bar -1 ~.19m.16m.4m.64m.88m.31m.336m 47mm 5mm 56mm 61mm 65mm 7mm 74mm 1.kg 1.9kg 1.18kg 1.6kg 1.35kg 1.44kg 1.53kg.48L.456L.54L.55L.L.648L.696L K5*3.3m 79mm 1.6kg.744L K5*34.384m 83mm 1.7kg.79L K5*36.48m 88mm 1.79kg.84L K5*38.43m 9mm 1.88kg.888L 7
15 3 154 194 194 4 8 Unit(mm) Kaori K3 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K3*1.94m 33mm 1.3kg.1L K3*1.117m 37mm 1.4kg.7L K3*14.14m 4mm 1.5kg.319L K3*16.164m 46mm 1.6kg.368L Copper / Nickel Brazing K3*18 K3* K3* K3*4 K3*6 K3*8 K3*3 Cu Brazing - 3 b ar / 43 b ar Ni Brazing - 1 ba r / 15 ba r -1 ~.187m.11m.34m.57m.81m.34m.38m 51mm 55mm mm 64mm 69mm 73mm 78mm 1.7kg 1.8kg 1.9kg.kg.1kg.kg.3kg.417L.466L.515L.564L.613L.66L.711L K3*3.351m 8mm.4kg.7L K3*34.374m 87mm.5kg.89L K3*36.398m 91mm.6kg.858L K3*38.41m 96mm.7kg.97L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 1.9 FEATURE H Please Refer to the Legends in the Folded Panel on Page 7.(All pages) 8
LEGENDS V Distributor Kaori "V" type BPHE implements an unique distributor design which ensures even allocation of refrigerant within flow channels. H Hydraulic Kaori "H" type BPHE is designed to withstand repetative high stress when working in hydraulic related enviroment. Its muscular body structure shows off its strength. AD Air Dyer A compact solution for air dryer application - Kaori offers air dryer unit in the form of BPHE; the easiest way to miniaturize your air dryer package. T Temperature Monitoring Kaori "T" type BPHE is designed with two temperature sensor ports. These ports enable easy installation of temperature sensor and acheive accurate system control. S Extra Strength When high working pressure is required (ex: R41 refrigreation system), Kaori offers "S" type BPHE. Kaori "S" type BPHE is designed to withstand up to 653 psi (45bar) of working pressure and is tested with 943 psi (65bar) of pressure. Ni+ Super Nickel Kaori offers "Ni+" type BPHE for extreme Nickel BPHE applications. "Ni+" BPHE finds itself working comfortably at maximum 435psi (3bar) pressure and is tested with 64psi (43bar) pressure. D Dual Circuit Kaori "D" type BPHE is designed to handle two compressors at the same time. This model further simplifies your already delicate design.
36 5 18 5 36 5 7 16 Unit(mm) Kaori K5 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K5*1 C/B.4m 34mm.8kg.486L Copper Brazing K5*14 C/B K5* C/B K5*4 C/B K5*34 C/B K5*5 C/B 3 bar / 43 bar -1 ~.36m.459m.561m.816m 1.4m 44mm 58mm 68mm 9mm 13mm 3.3kg 4.kg 4.7kg 6.kg 8.kg.7L 1.6L 1.4L 1.78L.646L K5*7 C/B 1.734m 178mm 1.9kg 3.76L K5*1.4m 34mm.8kg.486L Nickel Brazing K5* K5*3 K5*4 K5*5 K5* 1 bar / 15 bar 3 bar / 43 bar -1 ~.459m.714m.969m 1.4m 1.479m 58mm 8mm 16mm 13mm 154mm 4.kg 5.5kg 6.9kg 8.kg 9.6kg 1.6L 1.566L.16L.646L 3.186L K5*7 1.734m 178mm 1.9kg 3.76L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 8.8 7 7 FEATURE S Ni+ T 9 Please Refer to the Legends in the Folded Panel on Page 7.(All pages)
18 34 7 34 5 7 7 14 Unit(mm) Kaori K7 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K7*1 C/B.4m 34mm 3.1kg.576L Copper Brazing K7*14 C/B K7* C/B K7*4 C/B K7*34 C/B K7*5 C/B 3 bar / 43 bar -1 ~.3m.54m.6m.9m 1.44m 44mm 58mm 68mm 9mm 13mm 3.7kg 4.6kg 5.kg 6.7kg 9.1kg.83L 1.16L 1.47L.11L 3.136L K7*7 C/B.4m 178mm 1.1kg 4.416L K7*1.4m 34mm 3.1kg.576L Nickel Brazing K7* K7*3 K7*4 K7*5 K7* 1 bar / 15 bar -1 ~.54m.84m 1.14m 1.44m 1.74m 58mm 8mm 16mm 13mm 154mm 4.6kg 6.1kg 7.6kg 9.1kg 1.6kg 1.16L 1.856L.496L 3.136L 3.776L K7*7.4m 178mm 1.1kg 4.416L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector Connector Drawing 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" O 8.8 7 7 FEATURE H AD T D Please Refer to the Legends in the Folded Panel on Page 7.(All pages) 1
466 5 7 5 95 5 7 16 Unit(mm) Kaori K95 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K95*18 B/BV.7m 53mm 7.kg 1.496L K95*6 B/BV 1.14m 7mm 8.8kg.L Copper Brazing K95*3 B/BV K95*34 B/BV K95*4 B/BV K95*48 B/BV K95* B/BV 3 bar / 43 bar -1 ~ 1.331m 1.5m 1.85m.185m.755m 8mm 9mm 16mm 15mm 154mm 9.7kg 1.5kg 11.9kg 13.6kg 16.3kg.55L.94L 3.43L 4.136L 5.19L K95*8 B/BV 3.75m mm.7kg 6.95L K95*18.7m 53mm 7.kg 1.496L K95*6 1.14m 7mm 8.8kg.L Nickel Brazing K95*3 K95*34 K95*4 K95*48 1 bar / 15 bar -1 ~ 1.331m 1.5m 1.85m.185m 8mm 9mm 16mm 15mm 9.7kg 1.5kg 11.9kg 13.6kg.55L.94L 3.43L 4.136L K95*.755m 154mm 16.3kg 5.19L K95*8 3.75m mm.7kg 6.95L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 8.8 18 7 FEATURE T S V D 11 Please Refer to the Legends in the Folded Panel on Page 7.(All pages)
18 54 7 7 15 444 54 64 14 7 Unit(mm) Kaori K15 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K15*18 C/B/BV/CV.853m 53mm 7.8kg 1.94L K15*6 C/B/BV/CV 1.79m 7mm 9.7kg.8L Copper Brazing K15*3 C/B/BV/CV K15*34 C/B/BV/CV K15*4 C/B/BV/CV K15*48 C/B/BV/CV K15* C/B/BV/CV 3 bar / 43 bar -1 ~ 1.49m 1.76m.5m.45m 3.91m 8mm 9mm 16mm 15mm 154mm 1.7kg 11.6kg 13.1kg 15.kg 17.9kg 3.48L 3.696L 4.368L 5.64L 6.8L K15*8 C/B/BV/CV 4.157m mm.7kg 8.848L K15*18.853m 53mm 7.8kg 1.94L K15*6 1.79m 7mm 9.7kg.8L Nickel Brazing K15*3 K15*34 K15*4 K15*48 1 bar / 15 bar -1 ~ 1.49m 1.76m.5m.45m 8mm 9mm 16mm 15mm 1.7kg 11.6kg 13.1kg 15.kg 3.48L 3.696L 4.368L 5.64L K15* 3.91m 154mm 17.9kg 6.8L K15*8 4.157m mm.7kg 8.848L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 8.8 FEATURE H V T S D Please Refer to the Legends in the Folded Panel on Page 7.(All pages) 1
449 59 59 4 7.5 15 83.5 4 47 Unit(mm) Kaori K15 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K15*18 D/DV 1.765m 56mm 16.5kg 3.74L Copper Brazing K15*3 D/DV K15*38 D/DV K15*58 D/DV K15*66 D/DV K15*78 D/DV 3 bar / 43 bar -1 ~ 3.88m 3.971m 6.177m 7.59m 8.383m 84mm 13mm 15mm 169mm 197mm.8kg 6.9kg 37.3kg 41.5kg 47.7kg 6.38L 8.14L 1.54L 14.3L 16.94L K15*118 D/DV 1.795m 91mm 68.5kg 5.74L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 35.5 O 16.15 18 7 7 FEATURE V T D PT", L=3 Please Refer to the Legends in the Folded Panel on Page 7.(All pages) 3 4 15
HVAC HVAC (Evaporators/Condensers) RT Kcal/hr KW BTU/H K5/7 K95/15 Eva.Only K5 Eva.Only.5 1 1.5 1,51 3,4 4,536 6,48 1.76 3.5 5.7 7.3 6, 1, 18, 4, K5/7*1C K5/7*14C K5/7*C K5/7*4C 3 4 5 6 7.5 8 9,7 1,96 15,1 18,144,68 4,19 1.55 14.7 17.58 1.1 6.37 8.13 36, 48,, 7, 9, 96, K5/7*34C K5/7*5C K5/7*7C K95/15*18B K95/15*6B K95/15*3B K95/15*34B K95/15*4B K95/15*48B 1 1.5 15 5 3 3,4 37,8 45,3,48 75, 9,7 35.16 43.95 5.74 7.33 87.91 15.49 1, 15, 18, 4, 3, 3, K95/15*B K95/15*8C *BV *8CV K5*3C K5*34C K5*4C K5*C K5*8C K5*1C *3V *34V *4V *V *8V *1V Dual Circuit RT Kcal/hr kw BTU/H K15 3+3 5+5 7.5+7.5 1+1 1.5+1.5 15+15 + 18,144 3,4 45,3,48 75, 9,7 1,9 1.1 35.16 5.74 7.33 87.91 15.49 14.65 7, 1, 18, 4, 3, 3, 48, K15*18D K15*3D K15*38D K15*58D K15*66D(V) K15*78D(V) K15*118D(V) * "V" type comes with built-in refrigerant distributor Test Condition: Water vs. R Condenser Test : ARI Standard-45 No4 The Inlet Saturated Temperature of Refrigerant Vapor : 1 (37.8 ) The Inlet Temperature of Refrigerant Vapor: (93.3 ) The Inlet Temperature of Cooling Water: 84.9 (9.4 ) The Outlet Temperature of Cooling Water: 9.8 (33.8 ) Evaporator Test : ARI Standard-48 No1 The Inlet Temperature of Chiller Water: 53.9 (1. ) The Outlet Temperature of The Outlet Saturated Chiller Water: 44 (6.7 ) Temperature of Refrigerant : 35 (1.7 ) The Temperature of Refrigerant Before Expansion Valve :1 (37.7 ) * The above model selection is based on the above test conditions. 16
449 59 59 4 7.5 15 83.5 4 47 Unit(mm) Kaori K15 BPHE Design / Test Pressure Working Temp. Total Heat Transfer Area L Weight Total Volume K15*18 D/DV 1.765m 56mm 16.5kg 3.74L Copper Brazing K15*3 D/DV K15*38 D/DV K15*58 D/DV K15*66 D/DV K15*78 D/DV 3 bar / 43 bar -1 ~ 3.88m 3.971m 6.177m 7.59m 8.383m 84mm 13mm 15mm 169mm 197mm.8kg 6.9kg 37.3kg 41.5kg 47.7kg 6.38L 8.14L 1.54L 14.3L 16.94L K15*118 D/DV 1.795m 91mm 68.5kg 5.74L Threaded Connector PT/NPT/GB Male PT/NPT/GB Female 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" 3" 1/" 3/4" 1" 1-1/4" 1-1/" " -1/" Solder Connector 1.9mm 16.15mm 19.5mm.36mm 8.8mm 35.5mm 41.5mm 1/" 5/8" 6/8" 7/8" 1-1/8" 1-3/8" 1-5/8" Connector Drawing O 35.5 O 16.15 18 7 7 FEATURE V T D PT", L=3 Please Refer to the Legends in the Folded Panel on Page 7.(All pages) 3 4 15
HVAC HVAC (Evaporators/Condensers) RT Kcal/hr KW BTU/H K5/7 K95/15 Eva.Only K5 Eva.Only.5 1 1.5 1,51 3,4 4,536 6,48 1.76 3.5 5.7 7.3 6, 1, 18, 4, K5/7*1C K5/7*14C K5/7*C K5/7*4C 3 4 5 6 7.5 8 9,7 1,96 15,1 18,144,68 4,19 1.55 14.7 17.58 1.1 6.37 8.13 36, 48,, 7, 9, 96, K5/7*34C K5/7*5C K5/7*7C K95/15*18B K95/15*6B K95/15*3B K95/15*34B K95/15*4B K95/15*48B 1 1.5 15 5 3 3,4 37,8 45,3,48 75, 9,7 35.16 43.95 5.74 7.33 87.91 15.49 1, 15, 18, 4, 3, 3, K95/15*B K95/15*8C *BV *8CV K5*3C K5*34C K5*4C K5*C K5*8C K5*1C *3V *34V *4V *V *8V *1V Dual Circuit RT Kcal/hr kw BTU/H K15 3+3 5+5 7.5+7.5 1+1 1.5+1.5 15+15 + 18,144 3,4 45,3,48 75, 9,7 1,9 1.1 35.16 5.74 7.33 87.91 15.49 14.65 7, 1, 18, 4, 3, 3, 48, K15*18D K15*3D K15*38D K15*58D K15*66D(V) K15*78D(V) K15*118D(V) * "V" type comes with built-in refrigerant distributor Test Condition: Water vs. R Condenser Test : ARI Standard-45 No4 The Inlet Saturated Temperature of Refrigerant Vapor : 1 (37.8 ) The Inlet Temperature of Refrigerant Vapor: (93.3 ) The Inlet Temperature of Cooling Water: 84.9 (9.4 ) The Outlet Temperature of Cooling Water: 9.8 (33.8 ) Evaporator Test : ARI Standard-48 No1 The Inlet Temperature of Chiller Water: 53.9 (1. ) The Outlet Temperature of The Outlet Saturated Chiller Water: 44 (6.7 ) Temperature of Refrigerant : 35 (1.7 ) The Temperature of Refrigerant Before Expansion Valve :1 (37.7 ) * The above model selection is based on the above test conditions. 16
COMBI BOILER Capacity (kw) Water Flow Rate (lpm) Primary Side Water Inlet Temp Water Outlet Temp Water Flow Rate (lpm) Secondary Side Water Inlet Temp Water Outlet Temp K3E/5F*1 18 6. 1 C C 59 C K3E/5F*1 4 7.1 1 C C 56 C K3E/5F*14 5 7. 1 C C 56 C K3E/5F*16 7 7.7 1 C C 54 C K3E/5F*18 9 8. 1 C C 53 C K3E/5F* 3 8.6 1 C C 5 C K3E/5F* 3 9. 1 C C 51 C K3E/5F*4 K3E/5F*6 K3E/5F*8 K3E/5F*3 K3E/5F*3 K3E/5F*34 K3E/5F*36 K3E/5F*38 33 35 36 37 38 39 4 41 9.6 1. 1.3 1.7 11. 11.4 11.6 11.9 1 C 1 C 1 C 1 C 1 C 1 C 1 C 1 C C C C C C C C C 49 C 48 C 48 C 47 C 46 C 45 C 44 C 44 C 17
OIL COOLER Cold Oil Tank Hot Pump Oil Cooler, for ISO VG68 Capacity (kw) Oil Flow Rate (LPM) Water Flow Rate (LPM) Oil Inlet Temperature (C) Water Inlet Temperature (C) Oil Pressure Drop (kpa) Water Pressure Drop (kpa) K3*1MH 3 1 6 < 5 < 1 K3*MH 6 4 1 < 5 < 1 K3*3MH 1 48 4 < 5 < 1 K3*4MH 13 55 7 < 5 < 1 K3*5MH 15 61 3 < 5 < 1 K7*3MH 14 4 < 5 < 1 K7*33MH 18 5 5 < 5 < 1 K7*43MH 4 68 34 < 5 < 1 K7*53MH 8 8 4 < 5 < 1 K7*63MH 35 1 5 < 5 < 1 K7*73MH 45 13 65 < 5 < 1 K65*3MH 9 45 < 5 < 1 K65*33MH 9 15 6 < 5 < 1 K65*43MH 35 145 7 < 5 < 1 K65*53MH 43 175 87 < 5 < 1 K65*63MH 5 1 < 5 < 1 K65*73MH 6 5 15 < 5 < 1 K15*3MH 14 3 15 < 5 < 1 K15*33MH 19 4 < 5 < 1 K15*43MH 3 48 4 < 5 < 1 K15*53MH 8 56 8 < 5 < 1 K15*63MH 34 66 33 < 5 < 1 K15*73MH 41 8 4 < 5 < 1 K5*3MH 7 3 < 5 < 1 K5*33MH 44 9 45 < 5 < 1 K5*43MH 56 1 5 < 5 < 1 K5*53MH 6 11 55 < 5 < 1 K5*63MH 78 14 7 < 5 < 1 K5*73MH 9 17 85 < 5 < 1 K5*83MH 13 5 15 < 5 < 1 18
AIR DRYER Seperator Water Freon outlet A1 Freon inlet A B Freon-Air heat transfer C1 C Air Outlet 95 R.H. -4% D Air Inlet 113 R.H. 7-8% Air-Air heat transfer BPHE for Refrigerated Air Dryer Max. Air Flow Rate 3 Nm /hr scfm Connections Soldered Freon Inlet Freon Outlet Air Inlet / Outlet Female K3*1*6DC-K1 17 1 1/" 1/" PT 1/" K3*1*8DC-K1 34 1/" 1/" PT 1/" K3*16*1DC-K1 35 1/" 1/" PT 1/" K3**16DC-K1 71 4 1/" 1/" PT 1/" K7*16*1DC-K4 1 7 1/" 5/8" PT 1" K7**16DC-K4 144 85 1/" 5/8" PT 1" K7*4*DC-K4 17 1 1/" 5/8" PT 1" K7*3*8DC-K4 4 14 1/" 5/8" PT 1" K7*34*3DC-K4 55 15 1/" 5/8" PT 1" K7*38*34DC-K4 9 17 1/" 5/8" PT 1" K7*44*4DC-K4 34 1/" 5/8" PT 1" K1*16*1DC-K1 45 5 1/" 1-3/8" PT " K1*18*14DC-K1 51 3 1/" 1-3/8" PT " K1**18DC-K1 61 3 1/" 1-3/8" PT " K1*6*DC-K 68 4 1/" 1-3/8" PT -1/" K1*8*4DC-K 85 5 1/" 1-3/8" PT -1/" K1*38*34DC-K 1, 1/" 1-3/8" PT -1/" K1*44*4DC-K 1,75 75 1/" 1-3/8" PT -1/" K1*54*5DC-K 1,4 8 1/" 1-3/8" PT -1/" 19
BPHE INSTALLATION GUIDE (1) Bottom support () Sheet metal bracket Mounting suggestions: Four different ways to mount the BPHE (3) Crossbar & bolts Install the BPHE in counter flow direction: To keep lower water volume below the connector. (4) Stud bolts Install the BPHE in counter flow direction: To achieve high thermal efficiency and high heat transfer rate. BPHE INSTALLATION GUIDE Cleaning: The solution used should be weak acid with concentration less than 5%, for example citric acid. If the acid concentration is too high, the copper and stainless steel inside might be etched or corroded. Flush the BPHE with large amounts of fresh water to purge any remaining acid solution before restarting the system.