Journal
APPLIED THERMAL ENGINEERING
Volume 65, Issue 1-2, Pages 487-494Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.applthermaleng.2014.01.032
Keywords
MgO; Byproducts; SO2; Flue gas desulfurization; Economy
Funding
- Sunic Energy & Environment Technologies (Chongqing) Co., Ltd.
- Innovation Fund for Technology Based Firms
- Ministry of Science and Technology of China [11c26215115764]
- Technology Planning Project of Jiangxi Province, China [20122BBG70087]
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To recycle sulfur from byproducts of magnesia wet flue gas desulfurization, the authors conducted an experimental study and computational analysis on the factors influencing the SO2 mole fraction in the calciner gas by an industrial demonstration unit. With a sulfur content of 1.65% in coal and a generating capacity of 300 MW of power plant, the economics of the renewable magnesium oxide desulfurization technology was compared to that of limestone gypsum desulfurization technology. The results show that the decomposition reaction of byproducts mainly occurred in the lower zone of the furnace. When the excess air coefficient was 1.05 and the magnesium sulfite content in the byproducts was 60%, the SO2 mole fraction in the calciner gas was 10.5%. Decreasing the excess air coefficient can improve the SO2 mole fraction in the calciner gas. When the moisture content in the byproducts was 15%, the SO2 mole fraction reached 9.2%. The calciner exit gas temperature should be controlled at 1253.5 K or below. Adopting oxygen-enriched combustion, the oxygen content in air should be controlled to 31%. The magnesium oxide desulfurization renewable technology was found to be more economic. (C) 2014 Elsevier Ltd. All rights reserved.
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