Plate Heat Exchanger Stainless Steel Type Used for Pasteurization
Carbon Steel Frame Stainless Steel Plate Heat Exchanger for HVAC Main Features :
Structure of Plate Heat Exchanger Component Material Heat-exchange plate: SUS304, SUS316L, SMO254, titanium, nickel, Hastelloy alloy
Gasket seal: NBR, H-NBR, EPDM, food pad, fluorine rubber, silicon rubber
Frame: Carbon steel, stainless steel, coated stainless steel
Clamping bolt: Galvanized carbon steel, stainless steel Interface: Rubber, carbon steel...
stainless steel Guide bar: Galvanized carbon steel, stainless steel Introduction to Plate Sheet
The sheet is of unique linear and planar positioning structure, which can reduce the possibility for inter-sheet malposition;
Fillets in the sheet are of "Interlocked" structure which allows for mutual interlocking of sheets.
The herringbone corrugated sheet is featured by high heat transfer efficiency;
in addition, net-shaped contacts are formed in mutually reverse directions after the entire machine is assembled, featuring good pressure resistance.
Introduction to Sealing Gasket
Sealing gasket is inserted and fixed to the slot in heat-exchanging sheet, featuring easy insertion and replacement of sealing gasket, which can substantially reduce stoppage time.
Sealing function is separated from fixing function. Even if some "clamps" with fixing function fail, the gasket can still have sealing function in the slot.
Please provide the following working parameters, we will provide you with professional design and selection Suggestions.
Capacity (Kw/Kcal/h) |
Hot side medium |
|
Cold side medium |
|
Flow rate |
|
Flow rate |
|
Inlet temperature |
|
Inlet temperature |
|
outlet temperature |
|
outlet temperature |
|
Working pressure |
|
Working pressure |
|
Allowable prssure drop |
|
Allowable prssure drop |
|
Application :
HVAC(constant-temperature swimming pool, solar energy ,domestic water , air condition and heating ), textile printing & dyeing industry, pharmacy, food , chemical , paper making , steel and electromechanical and so on.
How does a Plate Heat Exchanger Work?
Each unit consists of a series of grooved plates that are individually gasketed and pressed tightly together by compression bolts within a frame. Fluids enter and exit the PHE through portholes in one or both ends of the frame. Within the unit, the fluid to be heated or cooled flows down one side of each plate, while the heating or cooling medium flows in the opposite direction across the other side. The huge temperature difference created by these opposite flows allows maximum heat transfer efficiency for closest possible approach temperature .
Material Description Code Applicable Temperature (degree centigrade) Anti-corrosive Performance and Applicable Occasions:
NBR N -20~110 Hot air, water, non-polar oil, mineral oil, lubricant and silicone oil, etc.
EPDM E -50~150 Vapor, polar chemical medium, alcohol, weak acid, weak alkali and oxidizing agent, etc.
CR C -40~100 Ammonia, mineral oil and lubricant, etc.
Fluorine Rubber F 0~180 Inorganic acid, alkali, mineral oil and Haloalkane, etc. Silicon Rubber Q -65~230 Resistant to cold current
About Warranty We promise 1 year guarantee, all reasonable relevant cost will be undertaken by us in the first year if our heat exchanger fail to work due to quality problem, only the free repairing operation guide is available in the rest of the years via E-mail /Fax/Phone