Tipo Heat Exchangers Manufacturers, Cooling Towers Manufacturers, and Industrial Chillers Manufacturers

Recuperative Heat Exchangers

 

Recuperative Heat Exchangers

 

         A regenerative heat exchanger, or more commonly a regenerator, is a type of heat exchanger where heat from the hot fluid is intermittently stored in a thermal storage medium before it is transferred to the cold fluid.

 

 

Abstract

 

        A recuperative heat exchanger having a heat exchanger core composed of a plurality of spaced apart plate members is disclosed. The core is disposed for receiving high temperature exhaust gases. A case member is positioned around the heat exchanger core. The case member has an exhaust gas inlet opening and an exhaust gas discharge opening. The plates of the core are secured to the case member at the exhaust gas inlet opening. A jacket is positioned in a spaced apart relationship around the case member.

 

The jacket has an intake opening and an exhaust opening. The intake opening of the jacket is in alignment with the exhaust gas inlet opening of the case member and the exhaust opening in the jacket is in alignment with exhaust gas discharge opening in the case member. The case member is secured to the jacket at the exhaust gas discharge. The core and case member of the heat exchanger are capable of expansion and contraction in the jacket during the operation of the heat exchanger. Expansion joints are also provided in the case member to facilitate expansion of the heat exchanger core and case member during operation of the heat exchanger.

 

          A heat exchanger for high velocity fluids comprises a first conduit through which a first fluid flows at a high velocity, a second conduit in heat exchange relationship with the first conduit for conducting a second fluid at a high velocity to be heated by the first fluid in the first conduit, the first and second conduits having a common thermally conductive wall, the common thermally conductive wall having a shape to impose a centrifugal force on the first and the second fluids flowing through the respective conduits.