Well-equipped for any challengeShell-and-tube water cooled condensers for fresh and seawater applications One range for all waters Whether it is in the search of precision fine-tuning or braving high seas, Alfa Laval’s condenser range provides optimal individual solutions for all applications where fresh or seawater is used as coolant. The option of 2. The cleaning procedures of the tubes depend on the type of copper tube used. Alfa Laval quality and reliability Each unit undergoes an individual pressure and leak test. dirty or seawater is available. Ensuring premium efficiency The special design of the Alfa Laval condensers feature finned tubes and tube geometry – ensuring a lower condensing temperature which results in high efficiency of the cooling system. 4 or even 8 passes gives flexibility for various types of water depending on fouling and velocity factors. Optimized for HFC condensation. certification and training Alfa Laval Water cooled condensers 3 . testing. Easy to install All condenser models are simple to install and can be easily opened for inspection.A strong set of benefits Alfa Laval has a long-term track record in supplying optimal heat transfer solutions to industries around the world. *International service corporation focusing on consulting. A vast number of different refrigerants can be used where fresh. A further warranty of the shell and tube condenser’s high quality level. cleaning and maintenance purposes. our unique range of shell-and-tube condensers ensures reliable performance for all waters. These tests are specified by the relevant authority and in accordance with Alfa Laval quality systems which are certified with ISO9001 from TÜV-Italia*. Flexibility of different choices The condenser serie is available ready-made but is by no means rigid – models can be customized to suit every need. Condensers for fresh water applications CDEW. river. lake or an industrial process. In accordance with all major pressure vessel codes All condensers are available in accordance with the major pressure vessel codes as CE (Europe). efficiency or the flexibility to use different types of refrigerant we have the solution. GOST (Russia). 4 Alfa Laval Water cooled condensers Condensers for seawater applications McDEW and CXPM – of shell-andtube condensers are optimized for HFC condensation in order to provide the best reliability and efficiency whenever seawater is used as the cooling medium. a well. SQL (China) and ASME (USA). Both series are dedicated to seawater and provide optimal condensation and reliable operation for on-board marine applications and for all other mainland installations where it is possible to use the sea as a natural source of cooling water. Whether your focus is on capacity. Standard models fulfill condensation capacities ranging from 15 to 1500 kW. Standard models fulfill condensation capacities ranging from 15 to 1680 kW.Five shell-and-tube condensers to match all water coolants The Alfa Laval shell-and-tube condenser family consists of five series in different configurations for various requirements. . CDEW-E and CXP series are optimized for HFC condensation to provide the best efficiency in applications when fresh water is used as cooling medium. The cooling water source can be a cooling tower. dry cooler. AISI316 stainless steel for seawater Covers: carbon steel for fresh water.Water outlet Front cover Gaskets Tube sheet Water inlet Safety valve connection Service socket Lifting lug Refrigerant outlet connection Tubes Refrigerant inlet connection Shell End cover Product overview • Shell: carbon steel • • Tube sheets: carbon steel for fresh water. AISI316 stainless steel for seawater • Gaskets: thermo-polymer compound • Baffles: Teflon • Tubes: integrally finned thick copper tubing for fresh water and integrally finned copper-nickel tubing for seawater Alfa Laval Water cooled condensers 5 . Three series in a number of configurations enable a solution for every need. 6 Alfa Laval Water cooled condensers The CDEW series can be manufactured in stainless steel by request. The special gasket configuration resists high pressure and gives the best resistance to aging in the working temperature range. R134a refrigerant is getting used more frequently in cooling systems. This refrigerant is particularly affected by glide. The special design and sizing of the CDEW condenser ensures the highest performance when using R407c refrigerant. CDEW series – optimized for R407c refrigerant When high performance is a must the CDEW series is optimized for HFCR407C. the CXP series is ideal as it is specially designed to use smaller tubing for up to 150 kW. CDEW condensers are equipped with square tube sheets ensuring a simple solution for the unit positioning. the CDEW-E series contributes to energy savings and is optimized for the use of R134a refrigerant. . as it causes losses in performance if standard condensers are used which are designed to operate with azeotrop refrigerant. as it saves energy and assures important advantages in comparison with conventional systems.Condensers for fresh water applications The Alfa Laval condenser series for fresh water applications features models for various requirements and are optimized for HFC condensation to provide the best efficiency. This phenomenon can be relevant during the condensing phase. This series is suitable for (among others) R404 refrigerants. CDEW-E series – for the use of R134a refrigerant When it comes to high efficiency. CXP series – for applications using R404 refrigerants For lower capacity requirements. 6 69.4 5.2 82 90 101 112 Ti = 29.46 0.42 0.43 0.0 53.43 0.4 15.7 37.6 20.33 0.8 41.7 22.5 11.12 0.3 12.38 0.6 37.8 11 13.35 0.17 0.5 9.24 0.5 6.40 0.7 18.5 51 61. mean = 35°C Wn (m³/h) 3.2 13.5 2.1 14 16.44 0. mean = 42°C Wn (m³/h) 9.7 10.44 0.3 10.3 4.7 40 44.41 0.0 44.4 0.44 Qn Wn Nominal condensation capacity Nominal water flow rate Wm Tc Maximum water flow rate Condensing temperature Ti Ff Water inlet temperature Fouling factor * the datas are indicative.Model CXP 111-XS2P 112-XS2P 113-XS2P 142-XS2P 143-XS2P 144-XS2P 142-S2P 143-S2P 144-S2P 161-S2P 162-S2P 163-S2P 161-M1P 162-M1P 163-M1P 205 R404A refrigerant Qn (KW)* 19 25 32 42 52 60 67 75 85 105 115 125 166 185 Tc.4 35.5 17 19 21.38 0.4°C Wm(m3/h) 146 156 174 190 204 225 252 280 FF=0.9 10 11 FF=0.3 72.2 Ti = 15°C Wm (m³/h) 4.8 99.2 25.5 55.5 27 30 31.43 0.4 90.40 0.5 51 61.23 111-XS4P 112-XS4P Model CXP 113-XS4P 142-XS4P 143-XS4P 144-XS4P 142-S-2P 143-S-2P 144-S-2P 161-S-4P 162-S-4P 163-S-4P R404A refrigerant Qn (KW)* 24 35 45 55 70 80 90 100 120 130 140 Tc. mean =40°C Wn(m3/h) 3.17 0.41 0.1 41 49 54.45 0.38 0.4 68.6 32 35 Ti=30°C ΔT≈5K* Wm(m3/h) 4.33 0.7 17.38 0.000043m2KW Dpn(bar) 0.7 33.33 0.8 32.2 3.5 69 76 84.42 0.38 0.9 34.4 0.38 0.39 0.9 20.8 20 22.41 0.38 0.5 78.7 7.33 0.5 76.7 18.39 0.2 15.6 30.8 Ti = 15°C Wm (m³/h) 13.1 22.7 30.45 6.16 0.2 9.4 0.38 0.44 0.39 0.1 23 19.000043 m² KW Dpn(bar) 0.38 0.3 59.5 6.5 Model CDEW 60 80 100 120 135 165 190 215 240 260 300 360 400 450 470 520 550 610 680 150 760 840 Cooling tower water (2 passes) R407C refrigerant Qn (kW) 57 75 100 118 135 165 190 215 233 260 300 360 400 450 470 520 550 610 680 760 840 Tc.4 7 9.43 0.000043 m² K/W Dpn (bar) 0.45 0.4 35.46 0.8 35.1 28.51 0.7 22.2 15.27 0.2 FF = 0.5 27 30 31.7 Ti = 29.7 4.42 0.33 0.5 87 95 102 112 126 140 FF = 0.1 13.5 28.43 0.9 9.1 7.5 26.33 0.14 0.5 7 7. please use our dedicated software.2 11.4 75.35 0.5 6 8.44 0. Alfa Laval Water cooled condensers 7 .2 90 99 111 123 FF=0.3 0.15 0.7 34. mean =42°C Wn(m3/h) 130 140 151 165 180 195 224 252 Ti=29.5 8 Ti=15°C ΔT≈15K* Wm (m3/h) 2.9 110.9 11 13.42 0.6 34.5 58 62.38 0.47 0.44 0.43 Model CDEW 900 940 1040 1100 1220 1360 1520 1680 1750 Cooling tower water (2 passes) R407C refrigerant Qn (KW)* 940 990 1070 1180 1280 1400 1560 Tc.39 0.5 27.8 33.2 15.7 15.38 0.2 62.8 42.1 41.3 7.35 0.5 12.4 15.000043 m² K/W Dpn (bar) 0.32 0.5 FF = 0.39 0.3 4.4°C Wm (m³/h) 29.000043m2KW Dpn(bar) 0.6 18.21 0.2 7.7 17.5 21.33 0.33 0.1 14. mean =35°C Wn (m3/h) 1.2 13.8 37.41 0.40 0.5 33.5 20.13 0.8 12.6 28 31.38 0.7 10.40 0.2 10.8 32.42 0.8 25.2 61.4 0.8 83.42 0.5 55.000043 m² K/W Dpn (bar) 0.9 5.4 35.4 68 72.40 0.8 FF=0.000043 m² K/W Dpn (bar) 0.55 0.38 0.45 0.38 0.5 Model CDEW-E 155 170 185 215 260 315 350 370 395 440 480 520 570 640 705 Cooling tower water (2 passes) R134a refrigerant Qn (kW) 155 168 183 216 260 313 348 368 394 438 479 520 570 638 705 Tc = 37.7 22.7 8.6 6.1 14.4 0.36 0.9 68.5 12 14.39 0.5 38 42 45 49.5 38 42 45 49.1 23.32 0.5°C Wn (m³/h) 24 26 28.3 18.4 0.4 0.15 2.000043 m² KW Dpn (bar) 0.35 0.22 0.42 0.7 3.7 8.35 0.44 0.42 0.45 0.44 0.8 23.42 0.5 10.45 1680 Cooling city water (4 passes) R407C refrigerant Qn (KW)* 900 945 1040 1100 1220 1360 1520 Tc.4 20.5 61.4°C Wm (m³/h) 10.43 0.35 0.39 0.38 0.39 0.42 0.4 78 87 95 102 112 126 140 FF = 0.4 0. To select precise datas.11 0.33 0.4 5.8 42.38 0.6 46.5 121.4 4.40 City tower water (4 passes) R134a refrigerant Qn (kW) 175 190 210 250 300 360 400 428 460 512 560 600 660 740 825 Tc = 35°C Wn (m³/h) 8.3 4.5 0.38 0.38 City water (4 passes) R407C refrigerant Qn (kW) 55 74 99 118 133 165 185 205 230 255 300 365 415 445 467 520 581 613 680 755 850 Tc.45 0. mean =42°C Wn(m3/h) 49 51 56 60 66 74 85 91 Ti=15°C Wm(m3/h) 64.8 15. The carbon steel components are sandblasted to 8 Alfa Laval Water cooled condensers protect against rusting.Condensers for seawater applications Two series of shell-and-tube condensers have been optimized for HFC condensation in order to provide the best reliability and efficiency when seawater is used as the cooling medium. but . however they offer flexibility in use of other refrigerants as well. both series are made of high-resistance materials. galvanic corrosion and erosion. internally finned Cu/Ni 90/10 tubes. including the internal wall of the shell. The two series are optimized especially for R407 and R404 refrigerant. As the use of seawater can cause chemical corrosion. alternative versions with Cu/Ni 70/30 tubes are also available on request. The design ensures easy inspection and cleaning of the condensers and assures that the water velocity is kept within the safety limits. All units are provided with interchangeable anodes made of soft iron. McDEW series – optimized for R407c refrigerant McDEW models have enhanced. internally finned Cu/Ni 90/10 tubes. CXPM series – optimized for R404 refrigerants CXPM models have enhanced. 6 4.4 0.4 0.4 0.19 15.1 41.24 0.4 0.5 28.5 80 88 98.98 43.3 8 10. mean =35°C Wn(m3/h) 1.5 6 7 6.000043 m² K/W Dpn (bar) 0.112-XS2P 2P 113XS-2P 142-XS2P 143-XS2P 144-XS2P 142-S2P 143-S2P 144-S2P 161-S2P 162-S2P 163-S2P 161-M1P 162-M1P 163-M1P R404A refrigerant Qn (KW)* 14 24 34 40 45 55 58 65 75 90 100 110 135 150 175 Tc.1 23.7 20 24 26.4°C Wm (m³/h) 23.24 0.19 0.4 3.24 0.2 111-XS4P Model McDEW 112-XS4P 113-XS4P 142-XS4P 143-XS4P 28 37 49 60 1.19 0.33 2.4 16.96 Ti = 29.16 67.41 0.1 7.2 16 17.2 10.34 0.5 6.14 0.4 0.11 0.2 33.64 9 FF = 0.4 4.21 0.2 46. mean = 38°C Wn (m³/h) 9.1 0.4 14.19 Tc. please use our dedicated software.4°C Wm (m³/h) 61.6 46.25 0.27 0.15 88.5 8.65 4 5.25 0.24 0.22 0.4°C Wm (m³/h) 2.8 10 11.24 0.5 5.3 25.6 4.5 8.000043 m² K/W Dpn (bar) 0.7 FF = 0.6 14 16.55 0.41 Qn Wn Nominal condensation capacity Nominal water flow rate Wm Tc Maximum water flow rate Condensing temperature Ti FF 770 Water inlet temperature Fouling factor * the datas are indicative.34 410 Model McDEW 153 175 200 205 238 275 330 370 Seawater Passes 2 2 2 2 2 2 2 2 2 R407C refrigerant Qn (kW) 153 175 198 206 238 276 331 367 413 Tc.24 0.2 9.6 17.28 0.5 7.000043m2KW Dpn(bar) 0.5 34 48 51 67 90 106 123 16.5 4.4 7.25 0.24 Seawater Passes 4 4 4 4 4 4 4 R407C refrigerant Qn (kW) 510 566 635 670 740 828 924 Tc.21 0.97 50.4 7.9 28.34 0.4 0.15 0.3 10.27 0.41 0.21 0.3 9 10.2 8 9 0.4 0. mean = 38°C Wn (m³/h) 1.7 33.8 6 7.98 35.41 0.55 15 25 34 48 50 67 90 105 Seawater Passes 4 4 4 4 2 2 2 2 123 2 R407C refrigerant Qn (kW) 15 24.22 0.59 13.8 12.1 Ti=15°C ΔT≈15K* Wm(m3/h) 1.7 FF = 0.2 11.16 0.16 61.19 0.74 98.5 109 FF = 0.14 0. mean = 43°C Wn (m³/h) 55.99 22.5 5.24 0.3 28 28 33.4 0. Alfa Laval Water cooled condensers 9 .4 3 3.95 79.7 2. mean =40°C Wn(m3/h) 2.21 0.34 0.6 14 14 16.3 Ti=30°C ΔT≈5K* Wm(m3/h) 3.18 29.6 6.8 12.2 9 10.33 Ti = 29.2 7.4 0.000043 m² K/W Dpn (bar) 0.24 0.7 3.24 0.1 0.22 0.3 12.25 0. mean = 43°C Wn (m³/h) 20.9 7.12 0.3 7.6 14.32 8.5 Ti = 15°C Wm (m³/h) 1.2 1.22 0.41 0.25 0.000043 m² K/W Dpn (bar) 0.4 0.3 68 74.9 37.55 0.41 0.4 56.15 71.5 32 36 FF=0.8 2.8 Ti = 15°C Wm (m³/h) 11.7 2. mean = 38°C Wn (m³/h) 25.6 28 31.24 Seawater Passes 4 4 4 4 4 4 4 4 4 R407C refrigerant Qn (kW) 182 203 225 250 280 330 396 452 487 Tc.24 0.8 7 7.29 144-XS4P 142-S-2P 143-S-2P 144-S-2P 161-S-4P 162-S-4P 163-S-4P 72 85 93 110 122 135 150 4.Model CXPM 111-XS.4 0.4 54.5 9 10.78 25.4 0. To select precise datas.18 Model CXPM R404A refrigerant Qn (KW)* 18 Tc.3 18 FF = 0.4 26 30.1 57.4 40 44 49.17 0.34 0.5 33.000043 m² K/W Dpn (bar) 0.22 0.5 14 15.5 FF = 0.7 8.5 60 81 109 130 146 Tc.19 0.21 0.34 0.7 12.4 5.18 25.000043m2KW Dpn(bar) 0.3 40 48 53.34 0.17 47.6 12.21 Seawater Passes 8 8 8 8 4 4 4 4 4 R407C refrigerant Qn (kW) 22.2 2.8 FF=0.000043 m² K/W Dpn (bar) 0.22 0.5 23. mean = 43°C Wn (m³/h) 2.2 3 3.2 Ti = 15°C Wm (m³/h) 30.8 37.19 0.8 20 22.65 4 5.59 Ti = 29.66 3.4 Model McDEW 430 480 505 555 620 700 Seawater Passes 2 2 2 2 2 2 2 R407C refrigerant Qn (kW) 431 477 505 555 619 696 772 Tc. 4 8.3 8.1 0.7 21.8 129.2 10.0 8.0 44.1 840 50.6 66.2 33.5 86.7 27.4 17.9 6.8 VH2O dm5 4.8 3.1 2.9 35.7 31.8 3.7 71.0 53.4 57.8 14.7 P Kg 58 61 65 68 85 105 121 195 222 227 441 452 467 482 108 111 203 215 5.9 70.8 5.1 81.4 3.2 293 5.1 57.8 3.8 19.9 23.1 146.8 14.2 304 313 D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight Attention: tolerance has to be considered on the dimensional data.1 120 24.4 4.1 24.9 7.6 90. 10 Alfa Laval Water cooled condensers .0 137.1 10.2 15.0 10.7 24.1 47.9 7.6 Lres dm4 3.3 14.4 18.1 13.7 14.3 20.7 41.7 64.8 14.7 152.CDEW 4 PASSES 2 PASSES Model CDEW 60 80 100 120 135 165 190 215 240 260 300 360 400 450 470 520 550 610 680 760 A mm 1500 1600 1740 1940 1970 1980 1980 1400 1700 1600 1800 B mm 1800 1800 1800 C mm 168 194 273 324 406 D mm 215 245 325 380 480 E 2 passes mm 30 35 55 65 0 E 4 passes mm 22 25 45 55 70 F mm 43 55 75 90 70 G 2 passes mm 30 35 55 65 105 G 4 passes mm 43 55 75 90 80 H mm 22 25 45 55 80 260 M mm 170 200 225 250 M1 mm 180 210 235 260 270 D1 mm RC35 WA42 WA54 WA67 WA80 D1A mm 60 50 50 50 50 D2 mm RCL28 RCL35 WA42 WA54 WA54 D2A mm 65 65 50 50 50 D3 in-G T2 T21 T3 T4 T5 D4 in-G T11 T11 T2 T3 T4 D5 in-NPT 1/2 3/4 1 1 1 D5A in-NPT no no no 1 1 D5B in-NPT no no no no 1 D6 in-NPT 1/4 1/4 1/4 1/4 1/4 148 195 N2 mm 70 Vr dm3 22.4 3.1 85 20.5 52. 0 160.CDEW 2 PASSES Model CDEW A 900 mm 940 1040 1100 1220 2075 2105 1360 4 PASSES 1520 1680 2115 B mm 1800 1800 1800 C mm 457.0 P Kg 597 608 627 736 750 773 913 943 227.0 116.0 21.0 15.0 129. Alfa Laval Water cooled condensers 11 .0 163.0 17.0 15.2 508 558.0 212.0 204.0 500 192.0 450 170.0 D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight Attention: tolerance has to be considered on the dimensional data.0 121.0 21.0 559 Lres dm4 17.0 VH2O dm5 88.8 D mm 540 590 640 F mm 80 90 100 G mm 120 150 140 H mm 95 100 110 M mm 173 178 183 M1 mm 173 178 183 WA100 D1 mm WA80 WA89 D1A mm 50 50 50 D2 mm WA54 WA80 WA89 D2A mm 50 50 50 D3 in-G J6 J6 D4 in-G J8 J5 D5 in-NPT 1 1 1 D5A in-NPT 1 1 1 D5B in-NPT 1 1 1 D6 in-NPT 1/4 1/4 1/4 N2 mm Vr dm3 176.0 92.0 152.0 99.0 243.0 21.0 17. 12 Alfa Laval Water cooled condensers .9 87.8 70.7 63.9 36.5 108.7 19.7 76.2 69.3 120.7 202.7 19.2 4.2 11.7 10.2 195 183.5 58.3 194.6 67.7 VH2O dm5 20.1 95.5 54.7 19.6 33.5 41.0 21.5 32.4 35.CDEW-E 4 PASSES 2 PASSES Model CDEW-E 155 170 185 215 260 315 350 370 395 440 480 520 570 640 A mm 2540 2570 2570 2580 2580 B mm 2400 2400 2400 2400 2400 C mm 194 273 273 324 406 D mm 245 325 325 380 480 E 2 passes mm 35 55 55 65 0 E 4 passes mm 25 45 45 55 70 F mm 55 75 75 90 80 G 2 passes mm 35 55 55 65 105 G 4 passes mm 55 75 75 90 80 H mm 25 45 45 55 70 M mm 200 225 225 250 260 M1 mm 210 235 235 260 270 D1 mm WA42 WA54 WA67 WA67 WA80 D1A mm 50 50 50 50 50 D2 mm RCL35 WA42 WA54 WA54 WA54 D2A mm 65 50 50 50 50 D3 in-G T21 T3 T3 T4 T5 D4 in-G T11 T2 T2 T3 T4 D5 inNPT 3/4 1 1 1 1 D5A inNPT no no no 1 1 D5B inNPT no no no no 1 D6 inNPT 1/4 1/4 1/4 1/4 1/4 85 120 120 148 705 N2 mm Vr dm3 37.9 6.4 Lres dm4 10.3 13.4 P Kg 147 151 157 253 264 279 289 295 381 395 407 573 588 607 627 D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight Attention: tolerance has to be considered on the dimensional data.7 86.0 172.1 93.1 13.1 4.9 75.3 11.5 6.3 19.5 47.3 20.9 41.4 114.9 6. 41 22.31 3.02 31.68 10.5 70 70 70 Vr dm3 7.32 8.CXP 1 PASSES Model CXP 111-XS 112-XS 113-XS 142-XS 143-XS 144-XS 2/4 PASSES 142-S 143-S 144-S 161-S 162-S 163-S A mm 973 973 973 981 981 981 1381 1381 1381 1396 1396 1396 161-M-1P* 162-M-1P* 163-M-1P* 1906 1906 1906 B mm 900 900 900 900 900 900 1300 1300 1300 1300 1300 1300 1800 1800 1800 C mm 114 114 114 141 141 141 141 141 141 168 168 168 168 168 168 D mm 130 130 130 158 158 158 158 158 158 185 185 185 185 185 185 E mm 25 25 25 25 25 25 25 25 25 35 35 35 0 0 0 F mm 25 25 25 25 25 25 25 25 25 35 35 35 35 35 35 G mm 25 25 25 30 30 30 30 30 30 35 35 35 35 35 35 H mm 25 25 25 30 30 30 30 30 30 35 35 35 35 35 35 I mm 20 20 20 35 35 35 35 35 35 40 40 40 40 40 40 M mm 111 111 111 114 114 114 138 138 138 143 143 143 153 153 153 M1 mm 115 115 115 120 120 120 143 143 143 153 153 153 153 153 153 D1 mm RA16 RA16 RA16 RB22 RB22 RB22 RC28 RC28 RC28 RC35 RC35 RC35 RC35 RC35 RC35 D1A mm 57 57 57 57 57 57 54 54 54 54 54 54 54 54 54 D2 mm RA16 RA16 RA16 RB22 RB22 RB22 RC28 RC28 RC28 RC28 RC28 RC28 RC28 RC28 RC28 D2A mm 57 57 57 57 57 57 54 54 54 54 54 54 54 54 54 D3 in-G 1/2 1/2 1/2 T1 T1 T1 T1 T1 T1 T11 T11 T11 T11 T11 T11 D4 in-G T1 T1 T1 T11 T11 T11 T11 T11 T11 T2 T2 T2 no no no N1 mm 15 15 15 10 10 10 10 10 10 0 0 0 12 12 12 N2 mm 42 42 42 55 55 55 55 55 55 71.6 38.4 85.7 67.3 24.4 82.75 3.42 32.02 10.67 22.33 VH2O dm5 0.97 4.67 31.3 49.0 69.29 2.29 5.61 7.5 71.92 1.91 15.15 P Kg 21. water connections have to be connected as scheme A: In case of 4 passes configuration.2 39.37 1. water connections have to be connected as scheme B: Scheme A: Scheme B: In case of single pass configuration.63 5.5 71.85 10.8 47.24 9.6 51.19 7.51 15.9 36.7 23.95 6.92 22.8 *1P: one pass version D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight 2 passes or 4 passes have the same design.36 7.83 2.20 3. In case of 2 passes configuration.6 88. water connections have to be connected as scheme C: Scheme C: Front head IN OUT Back head IN OUT IN OUT TO OUT IN TO PLUG PLUG IN Alfa Laval Water cooled condensers 13 .66 15.9 64. 7 71.9 3.7 21.2 293 5.4 2.1 24.8 3.7 108 111 203 8.7 22.6 90.2 15. 14 Alfa Laval Water cooled condensers .1 13.9 1.9 70.4 222 3.1 0.4 57.2 304 313 D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight Attention: tolerance has to be considered on the dimensional data.7 152.1 81.4 215 8.0 44.4 17.5 52.3 8.9 7.1 57.1 20.1 146.8 14.6 Lres dm4 1.3 14.8 19.9 35.9 7.7 14.4 227 5.0 4.1 24.3 20.0 137.9 1.7 64.8 5.7 31.7 11.0 10.7 P Kg 41 43 45 61 65 68 85 105 121 195 441 452 467 482 47 58 85 770 6.7 41.0 53.8 129.9 23.1 50.7 27.9 1.8 14.8 3.2 10.8 3.McDEW 4 PASSES 2 PASSES Model McDEW A 15 mm 25 34 48 50 67 90 105 8 PASSES 123 153 175 200 205 800 1500 1600 1740 1940 238 275 330 370 410 430 480 505 1970 1980 555 620 1980 700 1400 1700 1600 1800 1800 B mm 700 1800 1800 C mm 168 168 194 273 324 406 D mm 215 215 245 325 380 480 E 2 passes mm no 30 35 55 65 0 E 4 passes mm 22 22 25 45 55 70 E 8 passes mm 0 no no no no no F 4 passes mm 43 43 55 75 90 70 F 8 passes mm 45 no no no no no G 2 passes mm no 30 35 55 65 105 G 4 passes mm 43 43 55 75 90 80 G 8 passes mm 55 no no no no no H 4 passes mm 22 22 25 45 55 80 H 8 passes mm 32 no no no no no M mm 160 170 200 225 250 260 M1 mm 170 180 210 235 260 270 D1 mm RC28 RC35 WA42 WA54 WA67 WA80 D1A mm 60 60 50 50 50 50 D2 mm RBL22 RCL28 RCL35 WA42 WA54 WA54 D2A mm 65 65 65 50 50 50 D3 in-G - T2 T21 T3 T4 T5 D4 4 passes in-G T11 T11 T11 T2 T3 T4 T1 - - - - - D4 8 passes D5 inNPT 3/8 1/2 3/4 1 1 1 D5A inNPT no no no no 1 1 D5B inNPT no no no no no 1 D6 inNPT 1/4 1/4 1/4 1/4 1/4 1/4 70 70 120 148 195 N2 mm Vr dm3 11.4 3.8 14.4 18.9 2.1 47.6 66.2 33.1 10.7 4.1 2.9 3.0 10.9 24.3 8.8 VH2O dm5 1.5 86. McDEW 2 PASSES Model McDEW A 900 mm 940 1040 1100 1220 2075 2105 1360 4 PASSES 1520 1680 2115 B mm 1800 1800 1800 C mm 457.0 15.0 559 Lres dm4 17.0 163.0 17.8 D mm 540 590 640 F mm 80 90 100 G mm 120 150 140 H mm 95 100 110 M mm 173 178 183 M1 mm 173 178 183 D1 mm WA80 WA89 WA100 D1A mm 50 50 50 D2 mm WA54 WA80 WA89 D2A mm 50 50 50 D3 in-G J6 J6 J8 D4 in-G J4 J4 J5 D5 in-NPT 1 1 1 D5A in-NPT 1 1 1 D5B in-NPT 1 1 1 D6 in-NPT 1/4 1/4 1/4 N2 mm Vr dm3 176.0 92.0 212.0 D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight Attention: tolerance has to be considered on the dimensional data.0 116.2 508 558.0 170.0 21.0 15.0 21.0 204.0 P Kg 597 608 627 736 750 773 913 943 227. Alfa Laval Water cooled condensers 15 .0 VH2O dm5 88.0 500 192.0 99.0 17.0 121.0 129.0 152.0 243.0 21.0 450 160. 24 9.32 8. water connections have to be connected as scheme A: In case of 4 passes configuration.92 1.91 15.67 22.42 32.31 3. In case of 2 passes configuration.0 69.92 22.02 31.15 P Kg 21.02 10.95 6.83 2.8 *1P: one pass version D1 Refrigerant inlet D3-D4 Water connections D5-D5A-D5B Safety valve connection VH2O Water volume D2 Refrigerant outlet N1-N2 For air vent/for drain of water Vr Refrigerant volume P net Weight 2 passes or 4 passes have the same design.CXPM 1 PASSES Model CXPM 111-XS 112-XS 113-XS 142-XS 143-XS 144-XS 2/4 PASSES 142-S 143-S 144-S 161-S 162-S 163-S A mm 973 973 973 981 981 981 1381 1381 1381 1396 1396 1396 161-M-1P* 162-M-1P* 163-M-1P* 1906 1906 1906 B mm 900 900 900 900 900 900 1300 1300 1300 1300 1300 1300 1800 1800 1800 C mm 114 114 114 141 141 141 141 141 141 168 168 168 168 168 168 D mm 130 130 130 158 158 158 158 158 158 185 185 185 185 185 185 E mm 25 25 25 25 25 25 25 25 25 35 35 35 0 0 0 F mm 25 25 25 25 25 25 25 25 25 35 35 35 35 35 35 G mm 25 25 25 30 30 30 30 30 30 35 35 35 35 35 35 H mm 25 25 25 30 30 30 30 30 30 35 35 35 35 35 35 I mm 20 20 20 35 35 35 35 35 35 40 40 40 40 40 40 M mm 111 111 111 114 114 114 138 138 138 143 143 143 153 153 153 M1 mm 115 115 115 120 120 120 143 143 143 153 153 153 153 153 153 D1 mm RA16 RA16 RA16 RB22 RB22 RB22 RC28 RC28 RC28 RC35 RC35 RC35 RC35 RC35 RC35 D1A mm 57 57 57 57 57 57 54 54 54 54 54 54 54 54 54 D2 mm RA16 RA16 RA16 RB22 RB22 RB22 RC28 RC28 RC28 RC28 RC28 RC28 RC28 RC28 RC28 D2A mm 57 57 57 57 57 57 54 54 54 54 54 54 54 54 54 D3 in-G 1/2 1/2 1/2 T1 T1 T1 T1 T1 T1 T11 T11 T11 T11 T11 T11 D4 in-G T1 T1 T1 T11 T11 T11 T11 T11 T11 T2 T2 T2 no no no N1 mm 15 15 15 10 10 10 10 10 10 0 0 0 12 12 12 N2 mm 42 42 42 55 55 55 55 55 55 71.19 7.6 38.66 15.75 3.33 VH2O dm5 0.37 1. water connections have to be connected as scheme C: Scheme C: Front head IN OUT Back head IN OUT IN OUT TO OUT IN 16 Alfa Laval Water cooled condensers TO PLUG PLUG IN .36 7.2 39.85 10.8 47.68 10.6 88.61 7.5 70 70 70 Vr dm3 7.9 64.7 67.6 51.4 85.9 36.67 31.29 2.7 23.51 15.20 3.3 24.29 5.3 49.97 4.5 71.5 71.4 82.63 5. water connections have to be connected as scheme B: Scheme A: Scheme B: In case of single pass configuration.41 22. J21 T3 .1x5 88.J4 KIT T5 .J4 T5-14 .J5 A mm 170 120 170 170 Connection pipe B C mm mm 100 30 50 35 100 40 100 45 T in-G 2-1/2 3 4 5 Water outlet Type T21 .J4 T5 .Water connections CDEW.J3 KIT T4 .3x3.J21 T3-14 .J3 T4-14 .7x4 Kit Components Type KIT T21 .9x5.49 114. Different adaptor kits can be supplied. McDEW Water inlet and outlet connections on the condenser are ISO 228/1-G female threaded connections.J3 T4 .J5 A mm 100 100 100 100 Connection pipe B C T mm mm in-G 50 30 2-1/2 50 35 3 50 40 4 50 45 5 J in 2-1/2 3 4 5 DN x sp mm 76. joint C) Count. Water inlet with temperature socket Type T21-14 .J21 KIT T3 . pipe D) Nbr Nbr Nbr Nbr 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 Alfa Laval Water cooled condensers 17 . CDEW-E.2 139.J5 Adapter in A) Adapter out B) Flex. Threaded connections (T) d d Model McDEW 15-48 CDEW 60-135/McDEW 50-123 CDEW 165-240/CDEW-E 155-185/McDEW 153-205 CDEW-E 260-450/CDEW-E 215-370/McDEW 238-410 CDEW 470-550/CDEW-E 395-480/McDEW 430-505 CDEW 610-840/CDEW-E 520-705/McDEW 555-770 Tower Name d (In) T11 11/2 T2 2 T21 21/2 T3 3 T4 4 T5 5 City Name T1 T11 T11 T2 T3 T4 d (In) 1 11/2 11/2 2 3 4 J in 2-1/2 3 4 5 d1 in-G 1/4 1/4 1/4 1/4 It is possible to convert the standard female threaded connections to a flexible joint solution with or without temperature sockets. 1 88.3 76.9 .9 Special flange connections CDEW /CDEW-E / McDEW) Type A Type B Type C Flange type Name FA 35 FA 42 FB 54 FC 67 FC 80 A mm 45 45 45 B mm 32 38 51 63 76 C mm 20 20 25 di mm 39 51 75 H mm 119 128 152 172 191 ODS mm 35 42 54 67 80 OD mm 42.1 Type D WA 80 25 50 80 88.4 48.3 76.3 60.CDEW / CDEW-E / McDEW refrigerant connections D ODS Rotalock type H C B di Rotalock CDEW /CDEW-E / McDEW) Type B Type C Name RB 22 RB 28 RB35 13/4 A UNF 11/4 B mm 28 27 27 C mm 29 38 D mm 44 47 52 di mm 19 31 H mm 71 83 ODS mm 22 28 35 A Welding type ODS A B 50 ODS C B H A di 18 Alfa Laval Water cooled condensers Welding connections CDEW /CDEW-E / McDEW) Type A Type B Type C Name WA 42 WA 54 WA 67 A mm 20 20 25 B mm 50 50 50 ODS mm 42 54 67 OD mm 48.3 60. CXPM) A D d (mm) H (mm) B 1/4” 20 22 3/8” 24 22 1/2” 30 25 1” 40 25 Flange connection (F) Flange (CDEW / CDEW-E / McDEW) OD ID D Type A C B d A B C A B C D [mm] [mm] [mm] [mm] d 20 20 20 20 20 20 20 110 110 110 130 130 130 130 55 55 55 70 70 90 90 75 75 75 90 90 110 110 M10 M10 M10 M10 M10 M12 M12 Name FA35 FA42 FA54 FB54 FB67 FC67 FC80 ODS ID OD [mm] [mm] [mm] 35 42 54 54 67 67 80 35.9 NPT (CDEW.12UNF 1¾ .12UNF 1¾ .5 28. CDEW-E.12UNF 13/4 .6 OD [mm] 48. Seawater series have two refrigerant outlet connections.4 54.3 60.3 Rotalock (CXP/CXPM) B [mm] 63 63 63 63 A C B C [mm] 30 36 50 50 RT Name 1 .4 80.6 76 76 88. All data concerning the different connections available are indicated in the following table.3 42.3 88.4 54.14UFS 11/4 . McDEW.12UNF RB22 RC28 RC35 ODS [mm] 22 28 35 ID [mm] 22. welding (OD) or flanged (F) connections.9 Alfa Laval Water cooled condensers 19 .4 54.12UNF 13/4 .12UNF RA16 RB22 RC28 RC35 ODS [mm] 16 22 28 35 Welding connection (W) Welding (CDEW / CDEW-E / McDEW) A [mm] 20 20 20 A OD ODS Type B [mm] 70 70 70 Name ODS [mm] 42 54 80 WA42 WA54 WA80 ID [mm] 42. Rotalock connection (R) R ODS Rotalock (CDEW / CDEW-E / McDEW) Type B C A [mm] 20 20 20 B [mm] 80 80 80 C [mm] 36 50 50 RT Name 1¼ .4 67.Refrigerant connections Refrigerant inlet and outlet can be equipped with Rotalock brazing (ODS).4 67. CXP.4 80.2 35. foodstuffs. Our worldwide organization works closely with customers in almost 100 countries to help them stay ahead. chemicals. starch and pharmaceuticals.alfalaval. systems and services are dedicated to helping customers to optimize the performance of their processes. We help our customers to heat.com Alfa Laval reserves the right to change specifications without prior notification.Alfa Laval in brief Alfa Laval is a leading global provider of specialized products and engineered solutions. water. separate and transport products such as oil. cool. ERC00436EN 1205 . beverages. Our equipment. Time and time again. How to contact Alfa Laval Up-to-date Alfa Laval contact details for all countries are always available on our website at www.
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