Waste Water Treatment Plants Use Plate and Frame Heat Exchanger

Model NO.: DG
Gasket Material: Nitrile, EPDM,NBR, Viton etc
Gasket Type: Clip on, Glued, Button Lock, Sonder Lock
Nozzles: Metal Lined/Rubber Lined
Nozzles Material: Stainless Steel/Titanium/NBR/EPDM
General Standard: ASME, Ce etc
Structure Material: Metal Material
Recuperative Heat Exchanger Type: Plate Heat Exchanger
Heat Transfer Surface: Corrugated Metal Plates
Trademark: Diguang
Transport Package: Wooden Box
Specification: ISO, SGS, ASME etc
Origin: Shanghai
Model NO.: DG
Gasket Material: Nitrile, EPDM,NBR, Viton etc
Gasket Type: Clip on, Glued, Button Lock, Sonder Lock
Nozzles: Metal Lined/Rubber Lined
Nozzles Material: Stainless Steel/Titanium/NBR/EPDM
General Standard: ASME, Ce etc
Structure Material: Metal Material
Recuperative Heat Exchanger Type: Plate Heat Exchanger
Heat Transfer Surface: Corrugated Metal Plates
Trademark: Diguang
Transport Package: Wooden Box
Specification: ISO, SGS, ASME etc
Origin: Shanghai


Construction

Waste Water Treatment Plants Use Plate and Frame Heat ExchangerWaste Water Treatment Plants Use Plate and Frame Heat ExchangerWaste Water Treatment Plants Use Plate and Frame Heat Exchanger


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 interpolate 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 frame 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, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates.
 
Efficient heat transfer
Gasketed plate-and-frame heat exchangers (GPHEs) provide efficient heat transfer in compact equipment with a small footprint - much smaller and more efficient than shell-and-tube heat exchangers.
Plate heat exchangers are designed to optimize heat transfer, because the corrugated plates provide by far the greatest surface area through which the heat can be drawn from one gas or liquid to the Other.The units also have a flexible design and are easy to service and maintain.
 
Benefits
Precision heat transfer - closer approach temperature, true counter current flow, 80-90% less hold-up volume.
Low overall cost - low capital investment, reduced installation costs, limited maintenance and operating costs.
Maximum reliability - less fouling, stress, wear and corrosion.
Environmentally responsible - minimum energy consumption for maximum process effect, reduced cleaning.
Easy to expand capacity - simply add or remove plates on the existing frame.
 
Types of gasketed plate heat exchangers   
Industrial -extremely versatile range of heat exchangers for use in all types of industries.
Industrial semi-welded -used in refrigeration when gaskets are not suitable for one of the media and when higher design pressures are needed.
WideGap -used for applications involving fibrous liquids, highly viscous fluids, and fluids containing coarse particles.
Evaporators-tailor-made, rising film plate surface evaporator.
Condensers -a compact, plate surface vacuum condenser.
 
Technical Parameter for PHE offer
Working condition
Duty
Flow rate
Medium
Working pressure
Working temperature
Pressure drop
Thermodynamics properties
ASME Code Requirements
Plate Heat Exchanger Specifications
Model Frame Type Dimensions(mm) Connections
(mm)
Max Flow
(M3/H)
1.0Mpa    1.6MPa 2.5MPa Height Width Length
TF3SM LF10 LF16 - 320 160 140-440 20-30 20
TF3 LF10 LF16 - 480 180 250-400 20-30 20
  MF10 MF16 - 480 180 250-500 20-30 20
TF6B LF10 LF16 LF25 920 320 500-700 50-60 40
  MF10 MF16 MF25 920 320 500-1400 50-60 40
TF6M LF10 LF16 LF25 920 320 500-700 50-60 40
  MF10 MF16 MF25 920 320 500-1400 50-60 40
TF10B MF10 MF16 MF25 1100 470 700-2300 100 190
TF10M MF10 MF16 MF25 1100 470 700-2300 100 190
TF15B HF10 HF16 HF25 1885 650 1100-3700 150 400
TF15M HF10 HF16 HF25 1885 650 1100-3700 150 400
TF20M HF10 HF16 HF25 2140 780 900-4100 200 600
TF25B HF10 HF16 HF25 2590 920 1600-3500 250 1100
TF30 HF10 HF16 HF25 2880 1170 1600-4800 300 1300
TF10FF MF10 - - 1650 520 900-3500 100 190
TF20FF HF10 - - 2100 750 3600-4100 200 600

Applications for PHE
Refinery, Petrochemical, Fine and Specialty Chemical, Pharmaceutical, Industrial Gas, Fertilizers, Food & Beverage, Edible Oil & Biodiesel, Pulp & Paper, Mining, Minerals and Metal Industry, Chemical process, Refrigeration industry, Marine industry, Power station, Energy, Chemical Process
 
Service
Design/Calculate/Data/Drawings
12 months free warranty and life-long maintenance
Training and Operation Manuel
Top quality, Competitive price, Fast feedback  
Package details: standard export plywood case & carton & customizing according to your requirements.
Waste Water Treatment Plants Use Plate and Frame Heat Exchanger
One Customer ordered 14 sets Plate Frame Heat Exchangers will be delivered.

Material available for 0.5
mm &0.6mm &0.8mm &1.0mm, 304SS, 316SS, Titanium, ASMO254, Hastelloy C-276, Nickel Ni201, 904L.
 
More details please contact us directly.

Construction

Waste Water Treatment Plants Use Plate and Frame Heat ExchangerWaste Water Treatment Plants Use Plate and Frame Heat ExchangerWaste Water Treatment Plants Use Plate and Frame Heat Exchanger


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 interpolate 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 frame 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, if either or both fluids make more than a single pass within the unit, in the frame and pressure plates.
 
Efficient heat transfer
Gasketed plate-and-frame heat exchangers (GPHEs) provide efficient heat transfer in compact equipment with a small footprint - much smaller and more efficient than shell-and-tube heat exchangers.
Plate heat exchangers are designed to optimize heat transfer, because the corrugated plates provide by far the greatest surface area through which the heat can be drawn from one gas or liquid to the other.The units also have a flexible design and are easy to service and maintain.
 
Benefits
Precision heat transfer - closer approach temperature, true counter current flow, 80-90% less hold-up volume.
Low overall cost - low capital investment, reduced installation costs, limited maintenance and operating costs.
Maximum reliability - less fouling, stress, wear and corrosion.
Environmentally responsible - minimum energy consumption for maximum process effect, reduced cleaning.
Easy to expand capacity - simply add or remove plates on the existing frame.
 
Types of gasketed plate heat exchangers   
Industrial -extremely versatile range of heat exchangers for use in all types of industries.
Industrial semi-welded -used in refrigeration when gaskets are not suitable for one of the media and when higher design pressures are needed.
WideGap -used for applications involving fibrous liquids, highly viscous fluids, and fluids containing coarse particles.
Evaporators-tailor-made, rising film plate surface evaporator.
Condensers -a compact, plate surface vacuum condenser.
 
Technical Parameter for PHE offer
Working condition
Duty
Flow rate
Medium
Working pressure
Working temperature
Pressure drop
Thermodynamics properties
ASME Code Requirements
Plate Heat Exchanger Specifications
Model Frame Type Dimensions(mm) Connections
(mm)
Max Flow
(M3/H)
1.0Mpa    1.6MPa 2.5MPa Height Width Length
TF3SM LF10 LF16 - 320 160 140-440 20-30 20
TF3 LF10 LF16 - 480 180 250-400 20-30 20
  MF10 MF16 - 480 180 250-500 20-30 20
TF6B LF10 LF16 LF25 920 320 500-700 50-60 40
  MF10 MF16 MF25 920 320 500-1400 50-60 40
TF6M LF10 LF16 LF25 920 320 500-700 50-60 40
  MF10 MF16 MF25 920 320 500-1400 50-60 40
TF10B MF10 MF16 MF25 1100 470 700-2300 100 190
TF10M MF10 MF16 MF25 1100 470 700-2300 100 190
TF15B HF10 HF16 HF25 1885 650 1100-3700 150 400
TF15M HF10 HF16 HF25 1885 650 1100-3700 150 400
TF20M HF10 HF16 HF25 2140 780 900-4100 200 600
TF25B HF10 HF16 HF25 2590 920 1600-3500 250 1100
TF30 HF10 HF16 HF25 2880 1170 1600-4800 300 1300
TF10FF MF10 - - 1650 520 900-3500 100 190
TF20FF HF10 - - 2100 750 3600-4100 200 600

Applications for PHE
Refinery, Petrochemical, Fine and Specialty Chemical, Pharmaceutical, Industrial Gas, Fertilizers, Food & Beverage, Edible Oil & Biodiesel, Pulp & Paper, Mining, Minerals and Metal Industry, Chemical process, Refrigeration industry, Marine industry, Power station, Energy, Chemical Process
 
Service
Design/Calculate/Data/Drawings
12 months free warranty and life-long maintenance
Training and Operation Manuel
Top quality, Competitive price, Fast feedback  
Package details: standard export plywood case & carton & customizing according to your requirements.
Waste Water Treatment Plants Use Plate and Frame Heat Exchanger
One Customer ordered 14 sets Plate Frame Heat Exchangers will be delivered.

Material available for 0.5
mm &0.6mm &0.8mm &1.0mm, 304SS, 316SS, Titanium, ASMO254, Hastelloy C-276, Nickel Ni201, 904L.
 
More details please contact us directly.

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