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| Development and industrial test of new environmental protection coal antifreeze |
| Wang Yuchao1,2,3, Hang Zhijun1,2,3, Ye Lei1,2,3 |
| 1. Mineral Oil Products Division, Coal Science and Technology Research Institute Corporation Ltd., Beijing 100013, China; 2. State key laboratory for Efficient Exploitation and Clean Utilization of Coal Resources, Beijing 100013, China; 3. State Key Laboratory of Energy and Coal Efficient Utilization, Energy Saving and Emission Reduction Technology and Equipment, Beijing 100013, China |
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Abstract Chlorine is one of the common harmful elements in coal. Traditional chlorine salt type coal antifreeze due to its high chlorine content, may make the chlorine content in coal to multiple even dozens of times, beyond the export restrictions on chlorine content in coal, at the same time, the introduction of a large number of chlorine, making the corrosion of the metal, producing acid gases of hydrogen chloride in great quantities in environmental pollution. To avoid these situations, the research developed a kind of antifreeze superior performance, high stability, a new type of environmental protection of coal antifreeze, through a large number of experiments, and the rust corrosion resistant performance and the comprehensive performance of the in-depth research, respectively in coal preparation plant of Yujialiang Mine and Hlagou Mine for the industrial test. The results showed that the performance of the antifreeze met the requirements of "technical conditions of antifreeze for bulk granular cargo transportation", and the chlorine content of the antifreeze was extremely low.
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| [ 1 ] 王春华,曲 辉,许瀚文,等. 含水率对煤冻黏强度的影响[ J ]. 煤炭学报,2015( 9 ):2 213 - 2 217.
[ 2 ] 李明辉,刘文欣. 论神华煤降低水分的必要性和有效途径[ J ]. 煤炭加工与综合利用,1999( S1 ):50 - 52.
[ 3 ] 胡艳霞,赵立仁,魏晓东. 高效防冻液的应用研究[ J ]. 中国铁路,2006( 10 ):68 - 69.
[ 4 ] 胡海军,王兴涌. 铁路煤炭运输用防冻剂的探究[ J ]. 化工中间体,2012( 1 ):39 - 43.
[ 5 ] 杨海山,林传荣. 黑龙江省火力发电厂冬季运煤结冻的情况调查及分析[ J ]. 黑龙江电力,2000( 5 ):38 - 40.
[ 6 ] 阎建峰. 大秦线冬季煤炭运输冻车原因分析及对策[ J ]. 铁道货运,2017( 3 ):55 - 58.
7 ] 王树轩,李 宁,李 波. 氯盐型融雪剂碳钢腐蚀性的测定新方法[ J ]. 盐科学与化工,2012,41( 1 ):19 - 23.
[ 8 ] 黄秋伟,简 璐,李国亮,等. 油套管钢在氯化钙溶液中腐蚀及缓蚀性能研究[ J ]. 西南石油大学学报( 自然科学版 ),2016,38( 6 ):158 - 163.
[ 9 ] 刘 波,魏小兰,王维龙,等. In625合金和316L不锈钢在NaCl - CaCl2 - MgCl2熔盐中的腐蚀机理[ J ]. 化工学报,2017,68( 8 ):3 202 - 3 210.
[ 10 ] Cox J A. Chemical, Extraction - Based, and Ion Chromatographic Methods for the determination of chlorine in coal[ M ]. In: Stringer J,Banerjee D D, eds. Coal Science an d Technology New York: EIservier, 1991. 31 - 38.
[ 11 ] 王向荣. 煤中氯的赋存形态及控制方法[ J ]. 科技情报开发与
经济,2007( 4 ):165 - 166.
[ 12 ] 郭华楼,胡宾生,贵永亮. 煤粉中的氯在高炉冶炼过程中的行为[ J ]. 中国冶金,2010,20( 11 ):12 - 15.
[ 13 ] Swaine. Trace Elements in Coal. Sydney: Butterworths, 1990.99 - 100
[ 14 ] 李 琦. 燃煤过程中氯化氢控制机理研究[ D ]. 浙江大学,2003.
[ 15 ] 姜 英. 我国煤中氯的分布及其分级标准[ J ]. 煤质技术,1998( 5 ):6 - 9.
[ 16 ] 程 高. 火车车皮装煤防冻液自动喷洒控制系统设计[ J ]. 洁净煤技术,2012,18( 1 ):113 - 115.
[ 17 ] 孙丁丁,尚仕波. 煤炭装车喷洒一体化的双喷洒系统设计[ J ]. 煤炭工程,2017,49( 8 ):59 - 62. |
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