GOJE SJ500 Rising Falling Film Plate Evaporator High Transfer
Effiency For Factory
The evaporation device is mainly used for the evaporation and
elimination of water in diluted materials to receive highly
The core equipment of plate type evaporation device is the plate
type evaporator. It works as follows: diluted material flows out of
the passage among the plates and evaporates after being heated by
the steam coming from both sides of the steam passages. After
evaporation, the material becomes of gas-liquid mix and is
discharged from the outlet before it enters the gas-liquid
separator; it again is separated into secondary steam and
concentrated material. Heat up the steam, which becomes condensate
after releasing heat of evaporation and is discharged from the
condensation water port.
Plate type evaporator is featured by high efficiency, compact
structure, and easy installation and disassembly. More importantly,
it holds little liquid for a very short period and is therefore
very suitable for the concentration of heat sensitive materials
|Total heat transfer coefficient (w/mk)||2000〜4500|
|Maximal heat exchanger area of a single unit ㈣||80||150||280||650|
|Maximal cvaporalion capacity (t/h)||10||18||25||45|
|External Dimension (mm)||C||12n+500||12n+550||12n+560||12n+830|
Ethanol and Corn Processing
Another major area where plate and frame heat exchangers operate is
the ethanol and corn processing industry.
Industrial Energy and Power Plants
Within power plants, proper safety relies on the cooling of oils,
bearings, and rotor blades of diesel or gas motors; these same
parts in steam or gas turbines need to be cooled, as well.
Plate and frame heat exchangers also play a major role in
The marine industry relies heavily on plate and frame heat
exchangers, as PHEs help maintain the primary engine oil cooler and
the freshwater cooler.
Unique Design of The Plate
Using fine grid numerical simulation technology combined with
sophisticated experimental measurement methods, the design of the
flow and heat transfer performance superior heat exchanger plate.
Plate uniquedesign of the plate pattern can make the fluid
turbulence at lower flow rates, greatly improving the heat transfer
coefficient. Plate mold design more reasonable, formed in the plate
up to thousands of contacts, pressure evenly,can withstand high
pressure to 25KG.
Advanced Diverting Area
The diversion zone of the slab is designed with a flow guide groove
to balance the difference of flow resistance caused by the uneven
distribution of fluid in different flow paths and prevent the
decrease of heat exchange efficiency caused by uneven flow
distribution and dead angle of flow. And dead ends scaling and
Gasket and Seal Groove
Using non-stick snap-type gasket, and the plate bite firmly Solid,
to avoid pressure misplaced. Two seals are placed between the hot
and the cold fluid, with a leak zone in the middle that will not
bleed the two fluids even if a seal is damaged and will flow to the
outside through the leak.
1. We are professional manufacturer regarding to designing and
2. High quality &Competitive Price
3. Plate for replacement of Alfa Laval/GEA/APV etc.
4. Before dispatch all plates are checked in cracks, defects or
deformations. 1. Low investment, operation and maintenance costs.
5. Highly efficient heat transfer(K- values on average 3-5 times
higher than in case of bare-tube heat exchangers).
6. Asymmetrical flow gap available for the most cost effective
7. Use of smallest temperature difference ≤1°.
8. Up to 75% less space required.
9. Self-cleaning effect due to highly turbulent flow behavior.
10. Future additional capacity is possible by fitting extra heat
11. Double gasket with leak groove gives safety with regards to
12. Easy to open/clean.
13. Low operating weight/low liquid content.