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1. Gasketed Plate Heat Exchanger
2. Semi Welded Plate Heat Exchanger
3. Fully Welded Plate Heat Exchanger
1. GASKETED PLATE HEAT EXCHANGER (PHE)
The PHE in Brief
Heat Exchangers Plates are clamped in a Frame. Interlocking corrugations
form channels through which liquids flow turbulently, resulting in high heat
recovery and less pressure loss. The PHE offers excellent opportunities to
ease many production processes.
The Flexibility of the PHE
a. Capacity can be varied by addition and subtraction of plates.
b. Flow Rate and Number of passes are also variable.
FIELD OF APPLICATION
a. DAIRY INDUSTRY
b. JUICE INDUSTRY
c. BEVERAGE INDUSTRY
d. FOOD & DELICATESSEN INDUSTRY
e. POWER AND STEEL INDUSTRY
f. BREWING INDUSTRY
2. SEMIWELDED PHE
Semi welded Plate Heat Exchangers works on principles of separate flow path for two different mediums. The critical medium passes through welded flow path, and Heat transfers take place to the other medium where plates are gasketed.
ADVANTAGE OF SEMI WELDED PHE
a. Smaller Size
b. Strong Performance
c. Efficiency is very high
d. Easy Installation
e. Easy excess for cleaning
FIELD OF APPLICATION
Dairy & Food Industry, Sugar, Chemical, Pulp/ paper, Textile, Pharmaceutical, power
3. FULLY WELDED PHE
Fully Welded Plate Heat Exchangers are compact an on and average occupies 50% of the space required for a Shell & Tube Heat Exchanger . Single and multiple pass designs to fit
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Plate Type Heat Exchangers |
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most of the options requirements.
ADVANTAGE OF FULLY WELDED PHE
a. Compact as compare to Shell & Tube Heat Exchanger
b. Material options to suit application
c. Flexibility installation
FIELD OF APPLICATION
Heat Recovery, Steam, Refrigerant, Industrial, Hydraulic |
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