D302 EMISSIONS OF MERCURY AND OTHER TRACE ELEMENTS FROM A COAL-FIRED POWER PLANT(Environment Protection-4)
スポンサーリンク
概要
- 論文の詳細を見る
This paper provides details concerning emissions of mercury and other trace elements conducted at a coal-fired power plant with SCR and wet FGD. Mercury emission concentration and its speciation were measured with Ontario Hydro Method (OHM) and Semi-continuous emission monitor (SCEM). The emission of trace elements was determined by EPA method 29. Mercury mass balance and partitioning of trace elements were analyzed based on the analyses of solid samples (such as: coal, bottom ash, fly ash, and flue gas desulphurization (FGD) slurry) and concentration of trace elements in the flue gas. The results indicated that total mercury (Hg^T, sum of Hg^0, Hg^<2+>, and Hg^P) remained relatively constant along the flue gas path before passing through FGD. The ratio of Hg^<2+> to Hg^<VT> increased from 45.7% to 83.3% after flue gas passed through SCR. Hg monitoring methods of OHM and SCEM agreed that over 95% of Hg in flue gas was in oxidized form before FGD. The mercury removal efficiency of FGD was more than 96%. A better ratio of Hg output to Hg input (within the range of 0.8 to 1.2) was obtained while Hg content in ashes reached a dateable level. The emission concentration of each element was very low, and the change of the gaseous phase compositions of the selected trace elements was found insignificantly throughout the flue gas path. Mercury and Selenium are almost fully released in the gaseous phase. The main proportion of other trace elements is bound with the fly ash and collected in the electrostatic precipitator (ESP).
- 2009-11-16
著者
-
Wu Jiang
School of Energy and Environment Engineering, Shanghai University of Electric Power
-
Lu Ping
School Of Power Engineering Nanjing Normal University
-
LI Chuantong
School of Power Engineering, Nanjing Normal University
-
PAN Wei-Ping
Institute for Combustion Science and Environmental Technology, Western Kentucky University
-
Pan Wei-ping
Institute For Combustion Science And Environmental Technology Western Kentucky University
-
Wu Jiang
School Of Energy & Environmental Engineering Shanghai University Of Electric Power
-
Li Chuantong
School Of Power Engineering Nanjing Normal University
関連論文
- D302 EMISSIONS OF MERCURY AND OTHER TRACE ELEMENTS FROM A COAL-FIRED POWER PLANT(Environment Protection-4)
- D211 POTENTIAL USE OF AQUEOUS AMMONIA ABSORPTION IN CO_2 CAPTURE FROM COAL FIRED POWER PLANTS(Environmental Protection-2)
- D210 RESEARCH PROGRESS OF CO_2 REMOVAL FROM FLUE GAS OF COAL FIRED UTILITY BOILERS(Environmental Protection-1)
- D303 STUDY ON EFFECT OF FLOW CHARACTERISTICS AND SORBENT INJECTION MODES ON MERCURY REMOVAL EFFICIENCY IN FLUE GAS(Environment Protection-4)
- F203 STUDY ON THE THERMAL PARAMETERS' DETERMINATION METHOD OF ULTRA SUPERCRITICAL THERMAL POWER GENERATING UNITS(Steam Turbine-1)
- C104 PERFORMANCE ANALYSIS OF A HYBRID PHOTOVOLTAIC-THERMAL WATER COLLECTOR(Solar, Wind and Wave Energy-1)