Brazed Heat Exchanger

Overview

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Plate Arrangement
Standard plate arrangement forms two independent circuits running in alternate layers. The two fluids will flow in opposite directions (counter flow) to further enhance the exchange of heat. Special designed corrugated plates are used to increase the heat transfer coefficient and lower potential fouling.
 
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Brazed Construction
The heat exchangers are brazed in a vacuum furnace and helium pressure tested to insure leak-free performance.

 

Two Compressor Technology
With the HEO 2C Series, Two compressor design has two independent refrigerant circuits, one on the left side and one on the right front side of the unit. The fluid side connections are on the reverse side, for easier access and chiller design. The 2C series heat exchanger is based on the principal of having two refrigerants "interlaced" or alternating between the fluid circuits, thus allowing full 100% refrigerant contact with the fluid side. So, when only one compressor operates, 100% of the fluid is being chilled (evaporator mode) or heated (condenser mode)

 

 

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Advantages

High Efficiency
The embossed pattern of the heat transfer plates promotes high turbulence turbulence at low fluid velocities. The high turbulence results in very high heat transfer coefficients.
 

Compact Size
The Heat Exchanger Ontario brazed plate heat exchanger requires less floor space due to the high thermal efficiency of the stainless steel plates as compared to other types of heat exchangers. The plates are brazed together at high temperatures, allowing the heat exchanger to be compact, leak tight, and rugged. the Heat Exchanger Ontario brazed heat exchanger can be anywhere from 50% to 80% smaller than other types of heat exchangers.

 

Close Approach Temperatures
Close-approach temperatures of 1-2°F (0.5-1.0°C) are possible because of true counter flow and high heat transfer efficiency of the plates.  This is an important factor in regeneration and heat recovery processes.

 

High Temperature and Pressure Ratings

Maximum working pressures from 300 psi to 650 psi, and temperature ratings of 350°F.

 

 

 

 

 

 

Product Application

Refrigeration
     1/2 to 160 Ton Capacity

     Liquid Chillers

     Condensers / Heat Pumps

     Marine Condensers

     Sub-Coolers

     Fluid to Fluid

     Special Applications

 

Hydronics
     Radiant Floor Heat

     Domestic Water Heat

     Snow Melt Applications

     Swimming Pool / Spa Heating

     Fuel Oil Pre-heater

     Special Applications

 

Industrial
     Process Heating or Cooling

     Hydraulic Oil Coolers

     Engine Coolers

     Transmission Coolers

     Marine & Sea Water Applications

     Special Application

 

Ammonia

    DX Chillers

    Flooded Chillers

    Condensers

    Economizers / Subcoolers

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