Air Cross or Cross Flow Brazed PHE
Brazed PHE Condenser
Brazed PHE Oil Cooler
Brazed PHE Air Dryer
Brazed PHE Evaporator
Liquid to Liquid Brazed PHE
Nickel Brazed PHE
Brazed PHE Evaporator
Stainless Steel AISI 316 Brazed Plate Heat Exchanger Condenser for Industry
High Heat Transfer Efficiency Brazed Plate Heat Exchanger with Stainless Steel AISI 316
Stainless Steel AISI 316 Cover Plates Copper Brazed Plate Heat Exchanger
High Transfer Efficiency Brazed Plate Heat Exchanger Stainless Steel AISI 316 Connections
AISI Stainless Steel Cover Plates Brazed Plate Heat Exchanger Copper Welding Material
Copper Welding Industrial Brazed Plate Heat Exchanger AISI 316 Stainless Steel Plates
AISI 316 SS Copper Brazed Plate Heat Exchanger High Heat Transfer Efficiency
High Heat Transfer Efficiency Brazed Plate Heat Exchangers AISI 316 SS Connections
Copper Welding AISI 316 SS Brazed Plate Heat Exchangers for Industry Heating
AISI 316 SS Cover Plates Evaporator Brazed Plate Heat Exchangers for Industry
High Efficiency Brazed Plate Heat Exchangers Stainless Steel AISI 316 Plates
Copper Brazed Plate Heat Exchanger AISI 316 Stainless Steel Cover Plates
BL100 Brazed Plate Heat Exchanger Evaporator
 

AISI 316 SS Cover Plates Evaporator Brazed Plate Heat Exchangers for Industry


Detailed Product Description:

AISI 316 SS Cover Plates Evaporator Brazed Plate Heat Exchangers for Industry
Brazed plate condensers – flow principle
The main components are the same as for the evaporator.

The refrigerant enters at top left of the exchanger as hot gas and starts to condense on the surface of the channels until fully condensed, and is then slightly subcooled.

The process is called "free condensation". In the enclosed condenser picture the light and dark blue arrows show the location of the brine connections.

The refrigerant flows counter current in the opposite channel and is cooled.
The light and dark red arrows indicate the locations of the refrigerant connections.

Standard design
The plate pack is covered by cover plates. Connections are located in the front or rear cover plate. The channel plates
are corrugated to improve heat transfer efficiency and to make them rigid.

Standard materials
Cover plates: Stainless steel AISI 316
Connections: Stainless steel AISI 316
Plates: Stainless steel AISI 316
Brazing material: Copper

Particulars required for quotation
To enable Baode's representative to make a specific quotation, enquiries should be accompanied by the following
particulars:

  • flow rates or heat load required
  • temperature program
  • physical properties of liquids in question
  • desired working pressure
  • maximum permitted pressure drop

    Advantages of brazed plate heat exchangers in Industry and HVAC&R
  • The Baode Brazed plate heat exchangers (BHE) have several advantages over traditional heat exchangers in Industrial
    and HVAC&R applications.
  • The high heat transfer efficiency of the BHE makes it extremely compact and also easy to install in places were
    space is limited.
  • The unit has no gaskets and is therefore suitable in applications were temperature and/or pressure is high e.g. in
    district heating.
  • The Baode supply system reassures that, no matter were you are on the globe, the BHE units are available with a
    very short delivery time.
     
    Short delivery time.
    High quality
    Reasonable price
    Customer made
    Know-how design and customer support

Width

Height

Horizontal 
port 
distance

Vertical 
port 
distance

Thickness

Max Plates

Max flowrate 
(M3/h)

Weight  (kg)

Heat exchange 
area (m2)

Volume L

111

525

50

466

13+2.35N

100

12.7

2.6+0.19N

0.050 (N-2)

0.047 (N-2)



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PHE Installation
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