TitleProduct

Removable Plate Heat Exchanger

  • Price:

    Negotiable

  • minimum:

  • Total supply:

  • Delivery term:

    The date of payment from buyers deliver within days

  • seat:

    Guangdong

  • Validity to:

    Long-term effective

  • Last update:

    2020-02-06 12:55

  • Browse the number:

    229

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Company Profile

Tranp(Guangzhou) Energy Equipment Co.,Ltd

By certification [File Integrity]

Contact:tranp3507(Mr.)  

Email:

Telephone:

Phone:

Area:Guangdong

Address:Guangdong

Website:http://www.tranpenergy.com/ http://tranp3507.yihe-led.com/

PRODUCT DETAILS

Structural Chart


Rear Support

Idler Wheel

Active Plate

Gasket seal

Heat Exchange Sheet

Guide Bar

Bolt

Entry of Hot Energy

Export of Cold Energy

Mounting Plate

Lower Guide Bar

Nut

Clamping Bolt

Export of Hot Energy

Entry of Cold Energy

Tail Edge


Component Materials

Heat-exchange sheet: 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


Main Features:

Great logarithmic average temperature difference:

Plate heat exchanger can realize full countercurrent form; the temperature correction coefficient is 1.

High heat transfer coefficient:

The corrugation of the sheet in plate heat exchange can make fluid generate turbulent flow with minor Reynolds number; its heat transfer coefficient is 3-5 times as large as that of shell-and-tube heat exchanger, reaching 7,000W/m2K at the most.

Small floor area:

Plate heat exchanger features compact structure. The heat-exchanging area per unit volume is 2-5 times as large as that of shell-and-tube heat exchanger; the floor area occupied by plate heat exchanger is approximately one fifth to one tenth of the area occupied by shell-and-tube heat exchanger, given that the same heat exchange task is fulfilled by them.

Light weight and low price:

The sheet in plate heat exchanger is only 0.5-0.8mm in thickness. The heat-exchanging area needed by it is smaller than that needed by shell-and-tube heat exchanger, given that the same heat-exchange task is fulfilled by them. The weight of plate heat exchanger is only around one fifth of the weight of shell-and-tube heat exchanger.

Small temperature difference at the end:

As for water-water heat exchange, the lowest temperature difference at the end can be lower than 1℃, which is extremely beneficial to the recovery of low-temperature heat energy.

Low dirt coefficient:

The dirt coefficient of plate heat exchange is small for the following reasons: Violent turbulent flow of fluid causes low-possibility deposition of impurities; the dead zone of inter-sheet channel is small; the heat-exchanging surface made of stainless steel is smooth, which results in less corrosive attaching.

Heat exchange with multiple media:

Plate heat exchange allows for heat exchange with three or more media via the middle clapboard, which is extensively applied in milk product processing techniques.

Convenient cleaning:

To clean the sheet mechanically, unscrew the clamping bolt in plate heat exchanger to loosen the binding of plate and then unload the sheet, featuring extremely convenient maintenance.


Introduction to Sheet

The unique-structure shunting area can balance fluid distribution; 

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.

Design of large-angle ripples can raise heat transfer coefficient with fairly great reduction of resistance;

Design of small-angle ripples allows for reduction of degradation resistance and is featured by fairly low heat transfer coefficient;

Appropriate sheet type should be reasonably selected according to the parameters of working conditions at the time of design selection so as to achieve the best application effect.

Upper guide bar is designed with double slopes, which can improve stability of the sheets;

The inside part of clamping board is of bushing ring structure, which can improve matching accuracy;

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.



Material Description

Code

Applicable Temperature (℃)

Anti-corrosive Performance and Applicable Occasions

NBR

N

-20~110

Hot air, water, non-polar oil, mineral oil, lubricant and silicone oil, etc.

EPT

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



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