Description
Plate
Heat Exchanger is a kind of heat transfer equipment with high
efficiency and compact structure, being most suitable for heating,
cooling, heat recovery and quick sterilizing.
A. Futures:
1) Unique
rigid structure is designed in corrugated plate, resulting in
withstanding pressure as high as 2.5MPa.
2) Network
configuration of corrugated plate works as flow guiding structure.
This enhances heat transfer in flow guiding zone and prevents from
foul, blocking & corrosion.
3) Free
adhesive gaskets are used saving time for maintenance
4) “Heat
Combination Technique” of hard plate combined with soft plate is
adopted in design, making heat transfer optimizing.
5) *-corner
positioning method is adopted, ensuring seal center is kept in same
position. This helps it in safety, reliability and long service
life.
6) Different
“heat length” is utilized in same type of equipment, making
equipment to match heat transfer process in optimum.
B. Material
of Plates:
1)Stainless Steel
series:**4,**4L,**0,**6,**6L,**7,**7L,**1,**4L,**4SMO(or
AL*6XN) ,**4SMO,LDX***1,AL***3,SAF***4,***5.
2) Titanium & Alloy: Ti, ASTM B**5,Gr.1;
Ti-Pd, ASTM B**5, Gr.*1.
3) Nickel & Nickel-base Alloy:
Nickel **0/**1, Hastelloy C***6, Hastelloy B2, Monel **0, Inconel
**5, Alloy C****0 ,Alloy *9.
4) Copper Alloy: H*8, H***1; B*0, B*0; QSn, HAl,
HNi.
C. Material
of Gaskets and Applicable Temperature:
NBR
**0℃~***0℃; EPDM(
food grade) **5~ ***0℃; EPDM
**0℃~ ***0℃; Viton
0℃~***0℃; Silicon
Rubber **5℃~***0℃; Neoprene **0℃~***0℃
D. Parameter
Range:
Heating Area ******0m2 , Capacity ******0m3/h,
Nozzle Diameter DN**-DN**0
Design Pressure 1.0/1.6/2.0 MPa, Design
Temperature **0~***0℃
Plate
Heat Exchanger is a kind of heat transfer equipment with high
efficiency and compact structure, being most suitable for heating,
cooling, heat recovery and quick sterilizing.
A. Futures:
1) Unique
rigid structure is designed in corrugated plate, resulting in
withstanding pressure as high as 2.5MPa.
2) Network
configuration of corrugated plate works as flow guiding structure.
This enhances heat transfer in flow guiding zone and prevents from
foul, blocking & corrosion.
3) Free
adhesive gaskets are used saving time for maintenance
4) “Heat
Combination Technique” of hard plate combined with soft plate is
adopted in design, making heat transfer optimizing.
5) *-corner
positioning method is adopted, ensuring seal center is kept in same
position. This helps it in safety, reliability and long service
life.
6) Different
“heat length” is utilized in same type of equipment, making
equipment to match heat transfer process in optimum.
B. Material
of Plates:
1)Stainless Steel
series:**4,**4L,**0,**6,**6L,**7,**7L,**1,**4L,**4SMO(or
AL*6XN) ,**4SMO,LDX***1,AL***3,SAF***4,***5.
2) Titanium & Alloy: Ti, ASTM B**5,Gr.1;
Ti-Pd, ASTM B**5, Gr.*1.
3) Nickel & Nickel-base Alloy:
Nickel **0/**1, Hastelloy C***6, Hastelloy B2, Monel **0, Inconel
**5, Alloy C****0 ,Alloy *9.
4) Copper Alloy: H*8, H***1; B*0, B*0; QSn, HAl,
HNi.
C. Material
of Gaskets and Applicable Temperature:
NBR
**0℃~***0℃; EPDM(
food grade) **5~ ***0℃; EPDM
**0℃~ ***0℃; Viton
0℃~***0℃; Silicon
Rubber **5℃~***0℃; Neoprene **0℃~***0℃
D. Parameter
Range:
Heating Area ******0m2 , Capacity ******0m3/h,
Nozzle Diameter DN**-DN**0
Design Pressure 1.0/1.6/2.0 MPa, Design
Temperature **0~***0℃
