1) spent alkali lye of ethylene cracking
乙烯裂解废碱液
1.
Homogeneous catalytic oxidization technology is used for removing sulfide from spent alkali lye of ethylene cracking, and the various factors of influencing removal efficiency are investigated.
采用均相化学催化氧化技术对乙烯裂解废碱液进行了处理 ,考察了影响处理效果的各种因素 。
2) spent caustic of ethylene cracking
乙烯废碱液
1.
Research advances in treatment of spent caustic of ethylene cracking;
乙烯废碱液处理技术研究进展
3) Regeneration of Spent Caustic from Ethylene Plants
乙烯废碱液的再生
4) The pyrolysis products of waste polystyrene
废旧聚苯乙烯裂解产物
5) Ethylene cracking
乙烯裂解
1.
Severity control system of ethylene cracking and its automatic examination software for work shift;
乙烯裂解深度控制和工艺横班自动考核
2.
Chemical precipitation-advanced oxidation process was used to remove sulfide and organics from waste alkali in ethylene cracking.
采用化学沉淀与高级氧化 (UV/H2 O2 )法去除乙烯裂解废碱液中的硫化物及有机物。
3.
This paper presents effective route on optimization of the feedstock applied for ethylene cracking plant and reforming plant by adopting naphtha absorption separation technology, and analyzes contradiction and complementarily existed between feedstock for ethylene plant and reformer plant.
阐述了采用石脑油吸附分离技术是优化乙烯裂解装置原料和重整装置原料的有效途径,并对乙烯装置和重整装置在原料上存在的矛盾性和互补性进行了分析,提出了有利于优化资源配置、提高产能和增加效益的建设性意见。
6) ethylene cracking furnace
乙烯裂解炉
1.
Failure Analysis of the Tubes of Ethylene Cracking Furnaces;
乙烯裂解炉炉管失效分析
2.
Application of GK6 technology to modification of ethylene cracking furnace in China(Ⅱ);
GK6技术在国内乙烯裂解炉改造中的应用(下)
3.
Failure Cause Analysis of the Finned Tubes for Preheating Materials at the Convection Section of an Ethylene Cracking Furnace;
乙烯裂解炉对流段原料预热翅片管开裂原因分析及对策
补充资料:聚氯乙烯/乙烯-醋酸乙烯共聚物共混物
分子式:
CAS号:
性质:系聚氯乙烯与乙烯-醋酸乙烯共聚物或氯乙烯接枝乙烯-醋酸乙烯共聚物组成的共混物。醋酸乙烯含量30%~45%左右的EVA共聚物可作为聚氯乙烯的冲击改性剂,加入5~8份可使简支梁缺口冲击强度达20kJ/m2以上,且耐候性好。用于门窗型材等户外使用的塑料建材方面,高醋酸乙烯含量的共聚物可作为增塑聚氯乙烯的永久型增塑剂,用于软制品方面。
CAS号:
性质:系聚氯乙烯与乙烯-醋酸乙烯共聚物或氯乙烯接枝乙烯-醋酸乙烯共聚物组成的共混物。醋酸乙烯含量30%~45%左右的EVA共聚物可作为聚氯乙烯的冲击改性剂,加入5~8份可使简支梁缺口冲击强度达20kJ/m2以上,且耐候性好。用于门窗型材等户外使用的塑料建材方面,高醋酸乙烯含量的共聚物可作为增塑聚氯乙烯的永久型增塑剂,用于软制品方面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条