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Study of Power Generation Efficiency Improvement by No Introduction of Water Close and Plume Abating System from Municipal Solid Waste Incineration

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  • URLhttps://db.koreascholar.com/Article/Detail/343131
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한국폐기물자원순환학회 (Korea Society Of Waste Management)
초록

When adopting drain close system, the temperature of emission gas at the boiler exit is set high by spraying and evaporating drained water on quencher tower. According to applying drain close system boiler and power generation efficiency were decreased. In case of the water close system is not applied to treat the wastewater from incineration facility, the economizer outlet temperature can be reduced to 190∼220℃. And this leads to the increased ability of boiler's heat recovery. However, the temperature of emission gas at economizer exit should be set at 250℃ or higher if applying drain close system (minor conditions can affect as well). Boiler efficiency and generation efficiency can be improved by comparing the temperature of emission gas at economizer exit at 190℃ without the introduction of drain close system and 250℃ with drain close system. There are three types of white plume reduction equipment: one is offline type to blow air into chimney through heat source and exchange points after heating the air by using steam from equipment like boiler; another is in-line type to blow air into chimney through heat exchanger of combustion emission gas (mainly boiler exit); and the other is to blow air into chimney through hot wind burner by using fuels including kerosene. At a facility with white plume reduction equipment equipped with 5℃ of outdoor temperature and 60% of humidity, power generation volume and generation efficiency can be improved by using leftover steam for steam turbine from suspension of using white plume reduction equipment.

저자
  • Y. S. Yoon(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)
  • S. Y. Lee(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)
  • E. H. Kwon(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)
  • S. K. Shin(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)
  • T. W. Jeon(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)
  • J. S. Bae(Waste-to-Energy Research Division, Environmental Resources Research Department, NIER)