Plate Sheet for Plate Heat Exchanger/Spare Parts of Plate Heat Exchanger
Description
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.
Features :
1, high heat transfer efficiency
2 , net-shaped contacts
3, good pressure resistance
Factory Corners :
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 and dry hot |
The plate heat exchanger consists essentially of heat transfer plates, gaskets and a clamping device. Thanks to its structure and heat exchange principle, it is characterized by compact structure, small floor area, high heat transfer coefficient and operation flexibility, wide application range, small heat loss, easy installation and cleaning, etc. The two mediums have a mean temperature difference as small as 1ºC and heat recovery efficiency higher than 99 percent. Based on the same pressure loss, the plate heat exchanger has, compared with a tubular heat exchanger, a heat transfer coefficient two to four times higher, a one-third floor area and a two-thirds metal consumption.
It is therefore an efficient and energy, material and investment saving advanced heat exchanger. It is now widely used in industrial fields such as chemical industry, petrochemical, food, machinery, central heating, metallurgy, power, ships, paper-making, textile, pharmaceutical industry, nuclear industry, sea water desalination and combined heat and power generation to meet the requirements of processes such as cooling, heating, condensation, concentration, sterilization and residual heat recovery. It has become a highly competitive product in the heat exchanger field or evenly has replaced conventional tubular heat exchangers. With its development, it will be used in more and more fields.
Please provide the following working parameters, we will provide you with professional design and selection Suggestions.
Capacity (Kw/Kcal/h) |
Hot side medium |
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Cold side medium |
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Flow rate |
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Flow rate |
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Inlet temperature |
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Inlet temperature |
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outlet temperature |
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outlet temperature |
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Working pressure |
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Working pressure |
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Allowable prssure drop |
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Allowable prssure drop |
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