Mercury from coal-fired utilities has been identified as one of the most hazardous air pollutants and the greatest potential public health concern. Furthermore, it has a tendency to bio-accumulate in the food chain. Mercury is present in coal in concentration well below 1 ppm; however, the large tonnages of coal consumed for electric power generation represent a significant source of mercury vapor entering the environment. There are various technologies available to control the emission of mercury from coal-fired power plants. Among them activated carbon injection into the flue gas stream has been studied for many years and is considered to be the "standard technology" at this time to control the mercury emissions from flue gas. In this research, it is proposed to develop a diverse technology beyond the "standard technology" of activated carbon injection. This technology is based on pre-combustion treatment of solid coal to remove its mercury content by a unique leaching method using SO2 and O 2. The overall objective of this study is to explore this new technology and determine its technical feasibility to be used for a commercial process. The minute amounts of mercury in Pittsburgh No.8 Coal (0.177 ppm) and Illinoi No.6 Coal (0.216 ppm) was removed by flowing a gas stream containing 10% oxygen and 1000 ppm sulfur dioxide into a coal slurry at 30 ml/s. A total of 50g of 35 x 65 mesh coal was leached every time in 500 ml solution for 3 hours. The variables were temperature (50 to 80°C), initial solution pH (1.5--5.7), Sulfur dioxide and oxygen gas concentrations. It was found that the mercury removal percentages increased with increase in temperature and decrease in pH. Removal percentages of as high as 92.09 were achieved in Pittsburgh No.8 coal where as percentage removals of about 99.98% were achieved in Illinoi No.6 Coal. The pyrite removal percentages were much lower than those of mercury. Mercury removal was high enough to consider the application of this technology to a commercial process.
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机译:燃煤电厂的汞已被确定为最危险的空气污染物之一,也是最大的潜在公共卫生问题。此外,它具有在食物链中生物积累的趋势。煤中的汞浓度远低于1 ppm;但是,用于发电的大量煤炭消耗是汞蒸气进入环境的重要来源。有多种技术可控制燃煤电厂的汞排放。其中,将活性炭注入烟道气的研究已经进行了多年研究,目前被认为是控制烟道气中汞排放的“标准技术”。在这项研究中,提议开发除活性炭注射的“标准技术”之外的多种技术。该技术基于固态煤的预燃烧处理,通过使用SO2和O 2的独特浸出方法去除汞含量。本研究的总体目标是探索该新技术并确定其技术可行性,以用于煤层气分离。商业流程。匹兹堡8号煤(0.177 ppm)和伊利诺伊6号煤(0.216 ppm)中的微量汞通过将含10%氧气和1000 ppm二氧化硫的气流以30 ml / s的速度通入煤浆中而除去。每次在500毫升溶液中浸出50克35 x 65目煤,共3个小时。变量包括温度(50至80°C),初始溶液pH(1.5--5.7),二氧化硫和氧气浓度。发现除汞百分比随温度升高和pH降低而增加。匹兹堡8号煤的去除率高达92.09,而伊利诺伊6号煤的去除率约为99.98%。黄铁矿的去除率远低于汞。汞去除率很高,足以考虑将该技术应用于商业流程。
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