Claims
- 1. A system to supply high temperature blast air, said system including the combination of:
- at least one recuperator for heating a cold air blast with heat from a separate countercurrent flow of waste products of combustion,
- means to deliver a cold air blast to said recuperator for providing a substantially continuous preheated air blast,
- a plurality of horizontal regenerators each having heat storage refractories forming horizontal passageways between opposite end portions for heat exchange with media while flowing in either of opposite directions at different times along the refractories,
- burner means to feed combustion media into a first end portion of each of said horizontal regenerators for generating hot products of combustion to heat the refractory therein,
- first conduit means including a header and flow controllers for providing a substantially continuous supply of hot waste products of combustion to said recuperator from second end portions of alternatively preselected ones of said horizontal regenerators,
- second conduit means including a heater and flow controllers for delivering the preheated air blast from said recuperators to the second end portion of a preselected one of said horizontal regenerators, and
- third conduit means including a hot blast main coupled for delivering a hot air blast from the first end portion of each of said horizontal regenerators.
- 2. The blast furnace stove system according to claim 1 further including means to deliver a flow of air for tempering the hot air blast conducted by said third conduit means.
- 3. The blast furnace stove system according to claim 1 wherein the heat storage refractories in said plurality of regenerators include checkerbrick defining longitudinal and lateral flow spaces between opposite end portions of each regenerator.
- 4. The blast furnace stove according to claim 1 wherein said recuperator includes a vessel and a multiplicity of tubes in said vessel for gas-to-air heat exchange.
- 5. The blast furnace stove according to claim 1 wherein said at least one recuperator includes spaced-apart tube plates, a multiplicity of heat exchange tubes supported by said tube plates to conduct products of combustion between opposite ends of the recuperator, and baffle plates to deflect blast air to be heated about the outer surfaces of said heat exchange tubes.
- 6. A method of generating a hot air blast including the steps of:
- feeding media for combustion into one end of a first of a plurality of horizontal regenerators to generate hot products of combustion,
- passing said hot products of combustion along horizontal surfaces of regenerative heat storage refractory within the first horizontal regenerator to heat the refractory to a desired temperature,
- discharging waste products of combustion into a recuperator from the opposite and second end of the first horizontal regenerator,
- using said recuperator to preheat an air blast,
- passing the preheated air blast along highly heated horizontal surfaces of regenerative heat storage refractory within a second horizontal regenerator to further heat the air blast to a temperature above a minimum desired temperature.
- terminating the flow of the preheated air blast to the second horizontal regenerator when the minimum desired air blast temperature is no longer attainable,
- terminating the supply of combustion media to said first horizontal regenerator when the heat storage refractory therein is highly heated,
- passing the preheated air blast along the highly heated horizontal surfaces of regenerative heat storage refractory with said first horizontal regenerator for further heating to a temperature above a minimum desired temperature, and
- conducting the blasts of hot air from each of the plurality of regenerators in a hot blast main.
- 7. The method according to claim 6 including the further step of tempering the blasts of hot air from each of the regenerators with a cold air supply.
- 8. The method according to claim 7 wherein said step of tempering includes admixing a controlled supply of cold air with a blast of air after heating in a horizontal regenerator.
- 9. The method according to claim 6 wherein said step of discharging waste products of combustion includes directing such waste products into the recuperators.
- 10. The method according to claim 9 wherein said step of using said recuperator includes passing waste products of combustion countercurrent to a cold air supply for gas-to-air heat exchange.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part of application Ser. No. 191,141, filed Sept. 26, 1980, now abandoned.
US Referenced Citations (7)
Continuation in Parts (1)
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Number |
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Country |
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191141 |
Sep 1980 |
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