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Title: Gas fired superheaters in a resource recovery installation

Conference · · Proceedings of the American Power Conference; (USA)
OSTI ID:6722712
;  [1]; ;  [2]
  1. Brooklyn Union Gas Co., NY (USA)
  2. Stone and Webster Engineering Corp., New York, NY (USA)
+ Show Author Affiliations

Modern resource recovery facilities which generate electric power operate on a Rankine thermodynamic cycle. Waste is incinerated on a moving grate in a waterwall lined furnace. The liberated heat is absorbed in the waterwalls, and in several zones of the steam generator, including superheater, boiler, and economizer. The steam which is produced is expanded in a steam turbine generator, and electric power is generated as a result. This paper demonstrates that adding a gas fired superheater and additional generating capacity to a resource recovery unit can be accomplished in a technically and economically viable manner, and can complement the plant design options currently under consideration by utilities and private developers. In regions of the country facing a garbage disposal crisis as well as load growth projections that will necessitate capacity additions in the 1990s, addition of gas fired superheaters to conventionally designed resource recovery installations makes practical technical as well as economic sense.

OSTI ID:
6722712
Report Number(s):
CONF-890425-; CODEN: PAPWA
Journal Information:
Proceedings of the American Power Conference; (USA), Vol. 51; Conference: American power conference, Chicago, IL (USA), 24-26 Apr 1989; ISSN 0097-2126
Country of Publication:
United States
Language:
English

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Related Subjects

20 FOSSIL-FUELED POWER PLANTS
32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION
MUNICIPAL WASTES
ENERGY CONVERSION
RANKINE CYCLE POWER SYSTEMS
RESOURCE RECOVERY FACILITIES
COMBUSTION PRODUCTS
COCOMBUSTION
COMBINED CYCLES
DESIGN
ECONOMICS
GAS TURBINE POWER PLANTS
SUPERHEATERS
TOTAL ENERGY SYSTEMS
CHEMICAL REACTIONS
COMBUSTION
CONVERSION
ENERGY FACILITIES
ENERGY SYSTEMS
INDUSTRIAL PLANTS
OXIDATION
POWER PLANTS
POWER SYSTEMS
THERMOCHEMICAL PROCESSES
THERMODYNAMIC CYCLES
WASTE PROCESSING PLANTS
WASTES
200102* - Fossil-Fueled Power Plants- Power Cycles
200103 - Fossil-Fueled Power Plants- Waste-Fueled Systems
200600 - Fossil-Fueled Power Plants- Economic
Industrial
& Business Aspects- (1990-)
320604 - Energy Conservation
Consumption
& Utilization- Municipalities & Community Systems- Municipal Waste Management- (1980-)