M3 Plate heat exchanger Applications General heating and cooling duties. Heating by means of steam. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 60 GPM, depending on media, permitted pressure drop and temperature program. Water heating by steam 50 to 250 kw, 14 tons to 90 tons M3-VG Plate types M3 and M3-X, where M3 provides parallel and M3-X diagonal flow (see figures on the next page). M3D, double wall plates. Frame types VG VGL (non-asme)
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Flow principle of an M3 plate heat exchanger Standard materials Frame plate Mild steel, painted Nozzles Stainless steel AISI 316 or Titanium Plates Stainless steel AISI 316 or Titanium Flow principle of an M3-X plate heat exchanger Gaskets M3 Nitrile, EPDM M3X Nitrile, EPDM, Viton M3D Nitrile, EPDM Dimensions 7" 2-3 8" Connections 1-1 4" NPT Technical data Mechanical design pressure (g)/temperature VG 230 Psig/320ºF FGL 230 Psig/320 F (non-asme) 19" 14" Maximum heat transfer surface 40 sq. ft 2-1 2" 7-1 2" 19-1 2" 1-1 4" Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question (if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure Measurements (mm) The number of bolts may vary depending on pressure rating. ENSR00001USEN 0206 All rights reserved for changes in specifications THERMAL How to contact TRANSFER Alfa Laval SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM Contact details for all countries PH: are 800-527-0131 continually updated FAX: on 972-242-7568 our website. Please visit www.alfalaval.com to access the information directly.
M6 Plate heat exchanger Applications General heating and cooling duties. Heating by means of steam. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 250 gpm, depending on media, permitted pressure drop and temperature program. M6-FG Water heating by steam 80 tons to 225 tons Plate types M6 and M6M Frame types FG, FD (ASME design) FGL (non-asme)
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Standard materials Frame plate Mild steel, painted Nozzles Flange: Stainless steel, Titanium Lined: Stainless steel, Titanium Pipe: Stainless steel Plates Stainless steel AISI 316 Titanium (M6M only) Gaskets M6 Nitrile, EPDM, HeatSeal F M6M Nitrile, EPDM, HeatSeal F, Viton G Connections Pipe connections: 2" NPT With flanges: FG 2" SOLJ ANSI 150 FD 2" SOLJ ANSI 150/ANSI 300 Dimensions 25.2" 5.51" Flow principle of a plate heat exchanger 20" 55" Technical data Mechanical design pressure (g)/temperature FGL 150 psig/320ºf (non-asme) FG 150 psig/356ºf FD 360 psig/356ºf Maximum heat transfer surface 410 sq. ft. Measurements (mm) Type H W h M6-FGL 36.22" 12.60" 5.51" M6-FG 36.22" 12.60" 5.51" M6-FD 37" 13" 5.91" The number of tightening bolts may vary depending on pressure rating. Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question (if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure ENSR00002USEN 0206 All rights reserved for changes in specifications THERMAL TRANSFER SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM How to contact Alfa Laval PH: Contact 800-527-0131 details for all FAX: countries 972-242-7568 are continually updated on our website. Please visit www.alfalaval.com to access the information directly.
TS6 Plate Heat Exchanger Applications General heating and cooling duties. Heating by means of steam. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 20 kg/s (158,400 lb/hr), depending on media, permitted pressure drop and temperature program. Water heating by steam 200 1,800 kw (682,400 6,141,600 BTU/hr) Plate types TS6M Frame types FG and FD TS6-MFG
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Standard Materials Frame plate Mild steel, Epoxy painted Nozzles Carbon steel Lined: Stainless steel, Titanium Flow principle of a plate heat exchanger Plates Stainless steel AISI 316 or Titanium Dimensions Gaskets Nitrile, EPDM or HeatSeal F Connections FG ASME Size 3" ANSI 150 FD ASME Size 2 1/2" ANSI 300 Technical data Mechanical design pressure (g)/temperature FG ASME 150 psig /350 F FD ASME 300 psig /350 F Maximum heat transfer surface 13 m 2 (140 sq. ft.) Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question (if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure Measurements (in/mm) Type H W h TS6-FG 27.72/704 15.75/400 7.40/188 TS6-FD 27.72/704 16.14/410 7.40/188 The number of tightening bolts may vary depending on pressure rating. PD 68192 E1 0504 All rights reserved for changes in specifications THERMAL TRANSFER SYSTEMS, INC. How to contact Alfa Laval SALES@THERMALTRANSFERSYSTEMS.COM Contact details for all countries PH: 800-527-0131 FAX: 972-242-7568 are continually updated on our website. Please visit www.alfalaval.com to access the information directly.
M10 Plate heat exchanger Applications General heating and cooling duties. Heating by means of steam. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 980 gpm, depending on media, permitted pressure drop and temperature program. M10-BFG Water heating by steam 0.7 to 3.0 MW 200 tons 850 tons Plate types M10B, M10M and M10BD Frame types FM, FG and FD (ASME design) FML (non-asme)
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Standard materials Frame plate Mild steel, painted Flow principle of a plate heat exchanger Nozzles Carbon steel Lined: Stainless steel, Titanium Dimensions Plates Stainless steel AISI 304, AISI 316 Titanium, Alloy 20/18/6 8.86" or 9.125" Gaskets M10B Nitrile, EPDM, Viton G M10M Nitrile, EPDM, HeatSeal F EPDMF-FDA, Viton G 26.3" Connections FML Size 4" ANSI 150 FM Size 4" ANSI 150 FG Size 4" ANSI 150 FD Size 4" ANSI 150 FD Size 4" ANSI 300 Measurements (mm) 34" 92" Technical data Mechanical design pressure (g)/temperature FML 150 psig/320 F (non-asme) FM 100 psig/320 F FG 150 psig/356 F FD 360 psig/356 F Maximum heat transfer surface M10B 1126 sq. ft. M10M 660 sq. ft. Type H W h M10-FML 38.62" 18.11" 5.1875" M10-FM 38.62" 18.11" 5.1875" M10-FG 38.62" 18.5" 5.1875" M10-FD 42.70" 18.5" 8.4375" The number of tightening bolts may vary depending on pressure rating. Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question ((if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure ENSR00003USEN 0206 All rights reserved for changes in specifications THERMAL How to contact TRANSFER Alfa Laval SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM Contact details for all countries PH: 800-527-0131 FAX: 972-242-7568 are continually updated on our website. Please visit www.alfalaval.com to access the information directly.
M15 Plate heat exchanger Applications General heating and cooling duties. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 1,850 gpm, depending on media, permitted pressure drop and temperature program. Plate types M15B, M15E and M15M M15-FG Frame types FG, FD and FS (ASME design) FML (Non-ASME design)
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Standard materials Frame plate Mild steel, Epoxy painted Nozzles Carbon steel Lined: Stainless steel, Titanium Flow principle of a plate heat exchanger Plates Stainless steel: AISI 304, AISI 316 Titanium Alloy C-276 Alloy 254 SMO Gaskets (Clip-on/Tape-on,Glued) Nitrile Nitrile hydrogenated EPDM Viton G AL-EPDM Connections FML Size 6" ANSI 150 FG Size 6" ANSI 150 FD Size 6" ANSI 300 FS Size 6" ANSI 300 Dimensions 2.2" 50.9" 11.7" Measurements (mm) 44" 128" Technical data Max.working pressure FML 150 psig/320 o F (Non-ASME) FG 150 psig/320 o F FD 300 psig/320 o F FS 460 psig/320 o F Maximum heat transfer surface 4,200 sq.ft Type H W h M15-FML 71.5" 24" 10.83" M15-FG 76.4" 25.6" 10.83" M15-FD 80.1" 25.6" 14.57" M15-FS 80.1" 25.6" 14.57" The number of tightening bolts may vary depending on pressure rating. Particulars required for quotation Flow rates or heat load Temperature program Desired working pressure Maximum permitted pressure drop Available steam pressure ENSR00004USEN 0206 All rights reserved for changes in specifications THERMAL TRANSFER SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM How to contact Alfa Laval PH: Contact 800-527-0131 details for FAX: all countries 972-242-7568 are continually updated on our website. Please visit www.alfalaval.com to access the information directly.
TS20M Plate heat exchanger Applications General heating and cooling duties. Heating by means of steam. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fixed frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate Up to 190 kg/s, depending on media, permitted pressure drop and temperature program. Water heating by steam 2.5 15 MW at a steam condensation temperature of 150 C 2.5 9 MW at a steam condensation temperature of 120 C Plate types TS20M plates Frame types FG and FS
Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer. Standard materials Frame plate Mild steel, epoxy painted Nozzles Carbon steel Metal lined: Stainless steel, Titanium Flow principle of a plate heat exchanger Plates Stainless steel AISI 316 or Titanium Gaskets Nitrile, EPDM or HeatSeal F Dimensions W 363 Connections FG ASME Size 8" ANSI 150 FS ASME Size 8" ANSI 150/ANSI 300 Technical data Mechanical design pressure (g)/temperature FG ASME 150 psig /350 F FS ASME 400 psig /320 F *Frame FG also approved for 1.2 MPa /200 C to allow use in steam systems without safety valves. H 698 880-2715 Maximum heat transfer surface 85 m 2 (910 sq. ft) Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question (if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure Measurements (mm) Type H W H TS20-MFG 1405 800 360 TS20-MFS 1435 800 390 PD 68200E1/0110 All rights reserved for changes in specifications THERMAL TRANSFER SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM How to contact Alfa Laval PH: Contact 800-527-0131 details for all FAX: countries 972-242-7568 are continually updated on our website. Please visit www.alfalaval.com to access the information directly.
MX25 Plate heat exchanger Applications Plate heat exchanger for general heating and cooling duties. Standard design The plate heat exchanger consists of a pack of corrugated metal plates with portholes for the passage of the two fluids between which heat transfer will take place. The plate pack is assembled between a fix frame plate and a movable pressure plate and compressed by tightening bolts. The plates are fitted with a gasket, which seals the interplate channel and directs the fluids into alternate channels. The number of plates is determined by the flow rate, physical properties of the fluids, pressure drop and temperature program. The plate corrugations promote fluid turbulence and support the plates against differential pressure. The plate and the pressure plate are suspended from an upper carrying bar and located by a lower guiding bar, both of which are fixed to a support column. Connections are located in the frame plate or, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates. Typical capacities Liquid flow rate. Up to 350 kg/s (5600 gpm), depending on media, permitted pressure drop and temperature program. Plate types MX25B and MX25M plates Frame types FMS, FGS, FG, FD and FS MX25-BFG Working principle Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer.
Standard materials Frame plate Mild steel, Epoxy painted Nozzles Carbon steel Metal lined: Stainless steel, Titanium Rubber lined: Nitrile, EPDM Plates Stainless steel Alloy 316, Alloy C276, Alloy 254 SMO or Titanium Gaskets Nitrile or EPDM Flow principle of a plate heat exchanger Technical data Pressure vessel codes PED, ASME, pvcals Mechanical design pressure (g) / temperature FMS PED, pvcals 1.0 MPa / 180 C FGS PED, pvcals 1.6 MPa / 180 C FGS ASME 150 psig / 350 F FG PED, pvcals 1.6 MPa / 180 C FG ASME 150 psig / 350 F FD PED, pvcals 2.5 MPa / 180 C FD ASME 300 psig / 350 F FS ASME 400 psig / 350 F Connections FMS PED Size 200/250 mm DIN 2501 PN10, ASME Cl. 150 FMS pvcals Size 200/250 mm DIN 2501 PN10, ASME Cl. 150, JIS 10K FGS PED Size 200 mm DIN 2501 PN16, ASME Cl. 150 FGS pvcals Size 200/250 mm DIN 2501 PN16, ASME Cl. 150, JIS 16K FGS ASME Size 8 ASME Cl. 150 FG PED Size 200/250 mm DIN 2501 PN16, ASME CI. 150 FG pvcals Size 200/250 mm DIN 2501 PN16, ASME Cl. 150, JIS 16 K FG ASME Size 8 /10 ASME Cl.150 FD PED Size 200/250 mm DIN 2501 PN25, ASME Cl. 300 FD ASME Size 8 /10 ASME Cl. 300 FS ASME Size 8 /10 ASME Cl. 400 Maximum heat transfer surface 940 m 2 (10.000 sq. ft) Dimensions H h 1939 (76.3 ) W 439 (17.3 ) Measurements mm (inch) 1585-5185 (62-204 ) Type H W h MX25-FMS 2595 (102 ) 920 (36.2 ) 325 (12.8 ) MX25-FGS 2595 (102 ) 920 (36.2 ) 325 (12.8 ) MX25-FG max 3100 (122 ) 920 (36.2 ) 435 (17.1 ) MX25-FD max 3100 (122 ) 940 (37 ) 435 (17.1 ) MX25-FS max 3100 (122 ) 940 (37 ) 435 (17.1 ) The number of tightening bolts may vary depending on the pressure rating Particulars required for quotation Flow rates or heat load Temperature program Physical properties of liquids in question (if not water) Desired working pressure Maximum permitted pressure drop Available steam pressure PCT00038EN 0904 Alfa Laval reserves the right to change specifications without prior notification. THERMAL TRANSFER SYSTEMS, INC. SALES@THERMALTRANSFERSYSTEMS.COM PH: 800-527-0131 FAX: 972-242-7568 How to contact Alfa Laval Contact details for all countries are continually updated on our website. Please visit www.alfalaval.com to access the information direct.