6:17

Technical specifications

Plate types T2B M3/M3D TL3B/TL3P/TL3BD T5M/T5B M6, M6M, M6MD

Frame type FG FG FG FG FG FD

Height, H [mm] 380 480 790 737 920 940

Width, W [mm] 140 180 190 245 320 330

Min standard length, L [mm] 165 400 420 190 500 500

Max standard length, L [mm] 275 650 1370 365 1500 1500

Vertical port distance, VC [mm] 298 357 668 553 640 640

Horizontal port distance, HC [mm] 50 60 60 100 140 140

Max temperature [°C] 180 180 180 180 180 180

Max pressure [barg] 16 16 16 16 16 25

PV codes and directives* ALS ALS, PED, ASME ALS, PED, ASME ALS, PED, ASME ALS, PED, ASME PED, ASME

Flange size – – – – DN50/2” DN50/2”

Pipe size 3/4” 1¼” 1¼” 2” 2”

Max. flow rate [kg/s] 2 4 4 14 16

Gasketed plate heat exchanger (GPHE) data and dimensions

M3T2 T5

Gasketed plate heat exchangers range

T2 M3 TL3 T5 M6

6:21

.

T2Plate Heat Exchanger

T2B-FG

.

ApplicationsGeneral heating and cooling duties.

Standard designThe plate heat exchanger consists of a pack of corrugatedmetal plates with portholes for the passage of the two fluidsbetween which heat transfer will take place.

The plate pack is assembled between a fix frame plate and amovable pressure plate and compressed by tightening bolts.The plates are fitted with a gasket which seals the interplatechannel and directs the fluids into alternate channels. Thenumber of plates is determined by the flow rate, physicalproperties of the fluids, pressure drop and temperatureprogram. The plate corrugations promote fluid turbulence andsupport the plates against differential pressure.

The plate and the pressure plate are suspended from an uppercarrying bar and located by a lower guiding bar.

Connections are located in the frame plate or, if either or bothfluids make more than a single pass within the unit, in theframe and pressure plates.

Typical capacitiesLiquid flow rateUp to 2 kg/s (30 gpm), depending on media, permittedpressure drop and temperature program.

Plate typesT2-B

Frame typesFG

Working principleChannels are formed between the plates and the corner portsare arranged so that the two media flow through alternatechannels. The heat is transferred through the plate betweenthe channels, and complete counter-current flow is createdfor highest possible efficiency. The corrugation of the platesprovides the passage between the plates, supports eachplate against the adjacent one and enhances the turbulence,resulting in efficient heat transfer.

Flow principle of a plate heat exchanger

6:22

STANDARD MATERIALSFrame plateMild steel, Epoxy painted

NozzlesPipe: Stainless steel, Titanium

PlatesStainless steel Alloy 316, Titanium

GasketsNitrile, EPDM

TECHNICAL DATAPressure vessel code pvcALSTM

Mechanical design pressure (g) / temperatureFG 1.6 MPa / 180°C

Maximum heat transfer surface1.0 m² (10.76 sq. ft)

ConnectionsStraight pipe thread ISO-R ¾"

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

Dimensions mm (inch)

41

¾"

140 (5.5”)

27 (1.1”)

138-248 (5.4-9.8”)

50 (1.7”)

380

(15"

)

298

(11.

7")

.

6:23

.

M3Plate Heat Exchanger

M3-FG

.

ApplicationsGeneral heating and cooling duties. Heating by means ofsteam.

Standard designThe plate heat exchanger consists of a pack of corrugatedmetal plates with portholes for the passage of the two fluidsbetween which heat transfer will take place.

The plate pack is assembled between a fix frame plate and amovable pressure plate and compressed by tightening bolts.The plates are fitted with a gasket which seals the interplatechannel and directs the fluids into alternate channels. Thenumber of plates is determined by the flow rate, physicalproperties of the fluids, pressure drop and temperatureprogram. The plate corrugations promote fluid turbulence andsupport the plates against differential pressure.

The plate and the pressure plate are suspended from an uppercarrying bar and located by a lower guiding bar.

Connections are located in the frame plate or, if either or bothfluids make more than a single pass within the unit, in theframe and pressure plates.

Typical capacitiesLiquid flow rateUp to 4 kg/s (60 gpm), depending on media, permittedpressure drop and temperature program.

Plate typesM3 and M3-X, where M3 provides parallel and M3-X diagonalflow (see figures on the next page).M3D, double wall plates.

Frame typesFG

Water heating by steam50 to 250 kw

6:24

Working principleChannels are formed between the plates and the corner portsare arranged so that the two media flow through alternatechannels. The heat is transferred through the plate betweenthe channels, and complete counter-current flow is createdfor highest possible efficiency. The corrugation of the platesprovides the passage between the plates, supports eachplate against the adjacent one and enhances the turbulence,resulting in efficient heat transfer.

STANDARD MATERIALSFrame plateMild steel, Epoxy painted

NozzlesCarbon steelPipe: Stainless steel, Titanium

PlatesStainless steel Alloy 316, Titanium

Gaskets (Clip-on)Nitrile, EPDM, Viton®Other grades and material available on request.

TECHNICAL DATA

Pressure vessel codes PED, ASME, pvcALS™Mechanical design pressure (g) / temperatureFG PED, pvcALS™ 1.6 MPa / 180ºCFG ASME 150 psig / 350ºF

Maximum heat transfer surface3.9 m2 (40 sq. ft)

Connections

FG PED Size 1¼” Pipe, thread ISO-R 1¼”FG pvcALS™ Size 1¼” Pipe, thread ISO-R 1¼”FG pvcALS™ Size 1¼” Internal thread ISO-G 1¼”, carbon steelFG ASME Size 1¼” Pipe, thread NPT 1¼”

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

Flow principle of an M3 plate heat exchanger

Flow principle of an M3X plate heat exchanger

.Dimensions

180 (7.09")

420-620 (16.5"-24.4") 40 (1.6")

173 (6.8")

480

(18.

9")

357

(14.

1")

62 (2

.4")

60 (2.4")

S1S4

S2S3

Measurements mm (inch)The number of bolts may vary depending on pressure rating.

.

6:27

.

T5Plate Heat Exchanger

T5-FG

.

ApplicationsGeneral heating and cooling duties.

Standard designThe plate heat exchanger consists of a pack of corrugatedmetal plates with portholes for the passage of the two fluidsbetween which heat transfer will take place.

The plate pack is assembled between a fix frame plate and amovable pressure plate and compressed by tightening bolts.The plates are fitted with a gasket which seals the interplatechannel and directs the fluids into alternate channels. Thenumber of plates is determined by the flow rate, physicalproperties of the fluids, pressure drop and temperatureprogram. The plate corrugations promote fluid turbulence andsupport the plates against differential pressure.

The plate and the pressure plate are suspended from an uppercarrying bar and located by a lower guiding bar.

Connections are located in the frame plate or, if either or bothfluids make more than a single pass within the unit, in theframe and pressure plates.

Typical capacitiesLiquid flow rateUp to 14 kg/s (222 gpm), depending on media, permittedpressure drop and temperature program.

Plate typesT5-B, T5-M

Frame typesFG

Working principleChannels are formed between the plates and the corner portsare arranged so that the two media flow through alternatechannels. The heat is transferred through the plate betweenthe channels, and complete counter-current flow is createdfor highest possible efficiency. The corrugation of the platesprovides the passage between the plates, supports eachplate against the adjacent one and enhances the turbulence,resulting in efficient heat transfer.

Flow principle of a plate heat exchanger

6:28

STANDARD MATERIALSFrame plateMild steel, Epoxy painted

NozzlesCarbon steelPipe: Stainless steel, titanium

PlatesStainless steel Alloy 316 / Alloy 304Titanium

GasketsNitrile, EPDM

TECHNICAL DATAPressure vessel codes PED, ASME, pvcALS™Mechanical design pressure (g) / temperature

FG pvcALS™ 1.6 MPa / 180ºCFG PED 1.6 MPa / 160ºCFG ASME 150 psig / 356ºF

Maximum heat transfer surface

T5-B 7.1 m² (76.4 sq.ft)T5-M 4.4 m² (47.4 sq.ft)

ConnectionsStraight threaded Size 50 mm ISO G2”Tapered threaded Size 50 mm ISO R2”, NPT2”Threaded inlet port Size 50 mm ISO-G2”

Dimensions

55 (2.2") (ISO-G2") 115 (4.5")(ISO-R2")

150-350 (5.9-13.8")

245 (9.7")

742

(29.

2")

553

(21.

8")

115.

5 (4

.5")

100 (3.9")

2"

Measurements mm (inch)

Type H W h

T5-FG 737 (29.0") 245 (9.6") 115.5 (4.5")

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

.

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