Abstract: These and other objects of the present invention are achieved in a heat recovery system to recover the heat potential and including a plurality of heat exchanger assemblies from exhaust or waste gas at a temperature of from 500 to 2500.degree. F. wherein the heat exchanger assemblies include induced draft fans for controlling the flow of exhaust or waste gas therethrough as a heating medium for diverse fluids passing in indirect heat transfer relationship at descending temperature levels.

Abstract: A heat recovery system includes a storage tank for an intermediate heat transfer fluid and a heat exchanger for receiving an intermittent flow of heated stack gas from a reheat furnace, whereby heating values from the stack gas are transferred to the heat transfer fluid. The system includes a steam generator and the heating values acquired by the heat transfer fluid are used to generate and to superheat the steam. The heat transfer medium is controlled so that the flow of superheated steam produced is substantially steady. The heated stack gas may be used to preheat boiler feed water used for steam generation. The processes used are also described.

Abstract: There is disclosed an apparatus for burning a waste gaseous stream having a residual heating value represented by a heat of combustion of from 50 to 900 BTU/SCF. to heat an intermediate heat transfer fluid, and to use the thus heated heat transfer fluid to heat diverse fluids in a plurality of serially arrayed heat exchangers at descending temperature levels.

Abstract: There is disclosed a process and apparatus for the cyclic heating and cooling of processing equipment with a pressurized heat transfer fluid i.e., water, utilizing heat exchangers for the separate heating and cooling of the heat transfer fluid and including at least two heat recovery vessels wherein heat transfer fluid is stored in such vessels during initial phases of a subsequent cycle whereby heat transfer fluid at an intermediate temperature level in one vessel is passed through such processing equipment prior to the passage of heated or cooled heat transfer fluid from one of such heat exchangers through such processing equipment.

Abstract: There is disclosed a process and apparatus for the cyclic heating and cooling of processing equipment with a pressurized heat transfer fluid, i.e., water, utilizing heat exchangers for the separate heating and cooling of the heat transfer fluid and including a heat recovery vessel having at least two heat transfer zones wherein heat transfer fluid is stored in such vessels during initial phases of one cycle for use in a subsequent cycle whereby heat transfer fluid at an intermediate temperature level in one zone is passed through such processing equipment prior to the passage of heated or cooled heat transfer fluid through such processing equipment from one of such heat exchangers.

Abstract: There is disclosed a process and apparatus for the cyclic heating and cooling of processing equipment with a pressurized heat transfer fluid i.e., water, utilizing heat exchangers for the separate heating and cooling of the heat transfer fluid and including at least two heat recovery vessels wherein heat transfer fluid is stored in such vessels during initial phases of a subsequent cycle whereby heat transfer fluid at an intermediate temperature level in one vessel is passed through such processing equipment prior to the passage of heated or cooled heat transfer fluid from one of such heat exchangers through such processing equipment.