排序方式: 共有13条查询结果,搜索用时 42 毫秒
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分析了ABS树脂生产装置丁二烯缓冲罐中丁二烯自聚物的生成原因,提出了预防措施,避免丁二烯自聚物的生成,保证装置的安全平稳运行。 相似文献
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赵士华 《安全.健康和环境》2012,12(3):16-19
针对丁二烯自聚物闪燃爆炸和后处理胶粒塑化着火的形成机理、形成条件、影响因素进行了分析,并提出了防范措施和应急处理办法。 相似文献
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张铁 《中国安全生产科学技术》2015,11(2):83-87
根据丁二烯装置中高级炔烃的特点和危险性,通过爆炸极限测定仪和爆轰管研究并确定了温度对乙烯基乙炔爆炸极限的影响,确定了不同温度下乙烯基乙炔的安全分压,确定了氮气稀释对乙烯基乙炔安全分压的影响,掌握了乙烯基乙炔的燃爆特性和分解特性。研究表明:乙烯基乙炔易发生分解失控或气相燃爆,且发生分解失控时后果严重。为了确保丁二烯装置中乙烯基乙炔的安全使用,建议在低温和低分压下使用乙烯基乙炔。 相似文献
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Optimization of the recovery of plastics for recycling by density media separation cyclones 总被引:1,自引:0,他引:1
Gent Malcolm Richard Menendez MarioToraño Javier Torno Susana 《Resources, Conservation and Recycling》2011,55(4):472-482
Material recovery processes are presented as the optimum option for recycling plastic wastes as a means of recovering hydrocarbon resources. There exist a large variety of automated material recovery processes for recycling of such wastes but each with significant limitations. Of these, the separation based on differences in densities is advocated as the optimum process either for producing recycled products or preparing wastes for subsequent recovery processing.Density separation processes based on cyclone type density media separation (DMS) is presented as an important, potential method for increasing plastics recycling process capacities. It is demonstrated to have the capacity to separate a significantly larger range of particle sizes than those presently processed industrially. The mathematical relationship for the prediction of quality of typical LARCODEMS type density media separations by particle size and density as expressed by the Ecart Probable is presented.A proposed device configuration is presented for density media separation to optimize the recovery and purity of both density fractions produced. It is also suggested that to be economically viable, a large scale of operation is required for industrial plastics recycling operations recovering and producing a number of different plastics with a purity to be used as a substitute for virgin material. 相似文献
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混凝—催化氧化法处理丁苯橡胶生产废水 总被引:3,自引:0,他引:3
以聚合氯化铝(PAC)、阴离子聚丙烯酰胺(PAM)为混凝剂,以H2O2-O3为氧化剂,采用混凝-催化氧化法处理对丁苯橡胶生产废水。考察了混凝剂种类及其加入量、废水pH对混凝处理效果的影响,氧化剂及其加入量、反应时间和废水pH对COD去除率的影响。实验得出的最佳工艺条件:混凝实验,废水pH为7、PAC和PAM加入量为400mg/L和4mg/L;催化氧化实验,废水pH为7~8、H2O2加入量为200mg/L、H2O2与O3的质量比为0.5。处理后,废水COD从860mg/L降至145mg/L,COD去除率达83.1%,出水水质达到国家二级排放标准。 相似文献
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张铁 《安全.健康和环境》2014,14(11):13-15
根据丁二烯聚合物形成的机理,通过自行搭建的实验装置,研究并确定了丁二烯过氧化物生成的影响因素。通过研究确定了温度对丁二烯过氧化物生成的影响,确定了氧含量和铁锈对丁二烯过氧化物生成的影响。根据不同因素对丁二烯过氧化物的影响,确定了球罐内丁二烯储存的临界温度和储存时间。丁二烯聚合的特点表明球罐内丁二烯二聚体含量偏高时,球罐发生爆聚的风险增加。为确保丁二烯球罐安全,必须严格控制球罐内二聚体含量、温度、铁锈含量和氧含量,紧急情况下须采取有效措施抑制丁二烯聚合。 相似文献