用标准化学火用值计算Elbistan褐煤浸出法脱硫(H2O2/H2SO4)的经济影响,用生命周期评价法计算环境影响

Hüseyin Karaca , Cemil Koyunoğlu , Kevser Yeşilyurt , Mihriban Çelik , Özlem Yeşilyurt
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引用次数: 0

摘要

在此背景下,本研究旨在减少煤炭燃烧的有害影响,并调查有效利用高含硫量土耳其褐煤的可能性。在本研究中,过氧化浸出过程中,约占土耳其褐煤储量的35%,从褐煤中除去了总硫含量的服装。为此,研究了H2O2分别在5%、10%、20%和30%溶液中以及H2SO4在0.05 N、0.1 N、0.15 N和0.2 N溶液中分别和共同作用对脱硫效果的影响。结果表明,当H2O2浓度由5%提高到30%时,煤样中总硫含量降低了约75%。当0.1 N H2SO4和H2O2同时使用时,硫的去除率约为93%。本研究的创新之处在于,12种情况中的情景8既为用于经济分析的高标准化学火用值,又为用于环境影响评价的低CO2排放值,采用生命周期评价法确定,采用现值估算法计算20年运行成本。最低值表明,20%的H2SO4适合建立脱硫装置,每小时200 kg煤产率为63.2%。在第8个方案中,最高的火用效率值计算为8,01782e -06。因此,建立e.l脱硫装置应采用第八种方案。因此,本研究是一种经济的脱硫方法。H2O2中加入H2SO4对脱硫有协同作用。本研究在确定经济性时,在传统方法的基础上,采用了火用计算和生命周期方法,开辟了一个新的视角。
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Calculating economical impact by standard chemical exergy value and environmental impact by life cycle assessment method for desulfurization from Elbistan Lignite with leaching process (H2O2/H2SO4)

In this context, this study aims to reduce the harmful effects of coal combustion and to investigate the possibility of efficient use of Turkish lignite with high sulfur content. In this study, peroxide leaching process and accounts for approximately 35% of lignite reserves in Turkey total sulfur content of the garment was removed from lignite. For this purpose, the effect of H2O2 on 5%, 10%, 20%, and 30% solutions and H2SO4 on the sulfur removal using 0.05 N, 0.1 N, 0.15 N, and 0.2 N solutions separately and together were investigated. According to the results, increasing the H2O2 concentration from 5% to 30%, the total sulfur content of the coal sample was removed by approximately 75%. When 0.1 N H2SO4 and H2O2 were used together, about 93% of sulfur removal was realized. The originality of the study is that scenario 8 of 12 situations is both high standard chemical exergy value used for economic analysis, low CO2 emission value determined according to the life cycle assessment method used for environmental impact assessment, and 20-year operating cost calculated by current value estimation method. The lowest value indicates that 20% of H2SO4 is suitable for the establishment of the desulphurization plant with a yield of 63.2% from 200 kg of coal per hour. The highest exergy efficiency value was calculated as 8,01782E-06 for the 8th scenario. So the 8th scenario should be applied for the establishment of a desulfurization plant for E.L. Due to the results, this study is an economical method of sulfur removal. The addition of H2SO4 to H2O2 has a synergistic effect on sulfur removal. In this study, a new perspective has been developed by using exergy calculation and life cycle methods apart from conventional methods while determining the economy.

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