COMPARISON OF THE ENVIRONMENTAL IMPACT OF CONVENTIONAL AND FLUID BED BOILERS IN ADVANCED STEAM POWER PLANTS.

被引:0
|
作者
Jahnig, C.E.
Shaw, H.
机构
来源
Proceedings of the Intersociety Energy Conversion Engineering Conference | 1977年
关键词
AIR POLLUTION - Control - Boilers - Environmental impact;
D O I
暂无
中图分类号
学科分类号
摘要
The environmental aspects of conceptual 800 MW base-load steam power plants using pressurized and atmospheric fluid bed combustion (PFB and AFB) are compared with those of a power plant using a conventional coal-fired furnace (CF). Estimated station efficiencies are 40% for PFB versus 37% for AFB or CF, with a corresponding 8% reduction in coal consumption in the PFB case. Emissions of SO//x, NO//x, CO, particulates and trace metals, etc. , as well as solid wastes and water consumption are estimated and compared for the three types of power plants. It is found that the PFB plant requires 27% less water, and emits 8% less SO//x and 72% less NO//x than the corresponding CF or AFB plants.
引用
收藏
页码:670 / 674
相关论文
共 50 条
  • [31] Performance enhancement in coal fired thermal power plants. Part I: Boilers
    Bhatt, MS
    Basu, SJ
    INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 1999, 23 (06) : 465 - 487
  • [32] Typical Mechanical Failures on Large Steam Turbines in Power Plants.
    Boucheras, R.
    1600,
  • [33] EVALUATION OF AGED STEAM PIPING MAKES FOR SAFER POWER PLANTS.
    Wray, Ron
    Balaschak, James J.
    Power Engineering (Barrington, Illinois), 1987, 91 (08): : 26 - 30
  • [34] Models for Analyzing and Forecasting Economic Characteristics of Steam Power Plants.
    Arzamastsev, D.A.
    Marder, L.I.
    Myzin, A.L.
    Izvestiya AN SSSR: Energetika i Transport, 1975, (03): : 94 - 101
  • [35] Possibilities of Raising Steam Superheating Temperatures at Thermal Power Plants.
    Antikain, P.A.
    Teploenergetika, 1980, (09): : 55 - 56
  • [36] Autotuning pid controller for superheated steam temperature in power plants.
    MadrigalEspinosa, G
    delaGarzaBarrientos, JA
    CONTROL OF POWER PLANTS AND POWER SYSTEMS (SIPOWER'95), 1996, : 7 - 12
  • [37] Modern Steam Generator Concepts for Industrial and Utility Power Plants.
    Schumacher, A.
    VGB-Kraftwerkstechnik, 1987, 67 (11): : 1047 - 1056
  • [38] Experience of Operation of Saturated Steam Turbines of Nuclear Power Plants.
    Troyanovskii, B.M.
    Kosayk, Yu.F.
    Pankov, I.I.
    Sukharev, F.M.
    Kelin, G.E.
    Teploenergetika, 1977, (02): : 14 - 22
  • [39] BIOMASS NON-REHEAT STEAM CYCLE POWER PLANTS. PART 2: INFLUENCE OF WATER AND STEAM PARAMETERS ON THE EFFICIENCY OF FLUIDIZED BED STEAM GENERATORS
    Cenusa, Victor-Eduard
    Alexe, Florin-Niculae
    Tutica, Diana
    Norisor, Mihaela
    Darie, George
    ENERGY AND CLEAN TECHNOLOGIES CONFERENCE PROCEEDINGS, SGEM 2016, VOL I, 2016, : 163 - 170
  • [40] Designing Electric Power Supply System for Auxiliary Services of Steam Power Plants.
    Battistelli, L.
    Carpinelli, G.
    Mangoni, V.
    Testa, A.
    Energia Elettrica, 1984, 61 (02): : 77 - 84
12345