1) refining sewage
炼化污水
1.
This article introduce several method and techniques of reuse and advanced treatment of the oil refining sewage.
本文介绍了多种炼化污水回用的深度处理技术 ,并结合国内外的实际情况展开讨论 ,可以作为相关污水回用处理方法选择的参
3) refinery wastewater
炼油污水
1.
Application of automatic control system to BAF process for treating refinery wastewater;
控制系统在炼油污水BAF处理工艺中的应用
2.
The Noted Problems in Refinery Wastewater Treatment of Oxidation Ditch;
氧化沟在炼油污水处理中应注意的几个问题
3.
BAF & coagulation and sedimentation & activated carbon absorption applied on refinery wastewater treatment;
BAF+絮凝沉淀+过滤法处理炼油污水
4) refinery waste water
炼油污水
1.
Treatment of refinery waste water by biological aerating filtration- multiple agent filtration-electric adsorption processs;
曝气生物过滤-多介质过滤-电吸附工艺处理炼油污水
2.
A new technique for measuring COD of refinery waste water with microwave sealed digestion apparatus was developed using copper sulfate as catalyst.
建立了以CuSO4-MgSO4为催化剂、800W微波功率进行一定时间的微波消解测定炼油污水的化学需氧量的新方法。
3.
The extraction of organic constituents in four kinds of refinery waste water with CH2Cl2 was conducted in alkalic and acidic conditions, respectively.
对四种炼油污水分别在碱性和酸性条件下用二氯甲烷萃取;采用色谱质谱联机全面分析了萃取物中有机物组
5) oil refining wastewater
炼油污水
1.
In order to investigate the feasibility of biofiltration elimination of malodor from oil refining wastewater treatment plant,two biofilters in series packed with a mixture of compost,bark and lava,which each consisted of three segments were used in this study.
为了考察生物过滤法处理炼油污水厂恶臭气体的可行性,本试验采用两个串联的填充堆肥、树皮和火山岩混合物的三段式生物过滤反应器连续处理某炼油污水厂浮选池的恶臭废气。
2.
In the study, Fe/Cu micro-electrolysis was used to treat oil refining wastewater, withthe help of chemical flocculation in pretreated treatment and similar Fenton oxidization inadvanced treatment.
本研究采用Fe/Cu双金属体系微电解法对炼油污水进行回用处理。
6) oil-refining wastewater
炼油污水
1.
The results of its pilot operation showed that MBR for treating oil-refining wastewater had good quality of the effluent;the average values of COD,ammonia-nitrogen,oil and phenol in effluent could lower to 39mg/L,2mg/L,3mg/L,and below 0.
介绍了一体式膜生物反应器(MBR)处理炼油污水的工艺特点和处理效率。
2.
Therefore, it is interested in seeking for the treatment process of oil-refining Wastewater with effective feasibility, credible economy and convenient management.
炼油污水是一种难处理的工业废水,污染物种类多,浓度高。
补充资料:密炼机混炼
分子式:
CAS号:
性质: 现代橡胶工厂主要采用密胶机混炼。与开炼机相比,密炼机生产能力大,混炼时间短,生产效率高,操作安全,劳动量小。密炼机混炼的关键是控制好混炼温度,由于密炼机转速快(20~40r/min),胶料受剪切力与摩擦力很大,升温快,一般混炼排胶温度宜控制在100~130℃。密炼机混炼有一段混炼法和两段混炼法。一段混炼法是将生胶与配合剂分批加料,炼好后排胶,也可留少部分生胶及硫化剂在最后加入,混炼至排胶。两段混炼法是先用高速高压密炼机炼成生胶加炭黑和软化剂之类的母炼胶,排胶压片停放冷却后,再以低速密炼机或压片机加硫黄和促进剂完成混炼。两段混炼法的优点是显著提高混炼的均匀性,即提高硫化胶的物理性能,两段间的冷却可避免胶料焦烧,又可缩短混炼时间,提高生产效率。
CAS号:
性质: 现代橡胶工厂主要采用密胶机混炼。与开炼机相比,密炼机生产能力大,混炼时间短,生产效率高,操作安全,劳动量小。密炼机混炼的关键是控制好混炼温度,由于密炼机转速快(20~40r/min),胶料受剪切力与摩擦力很大,升温快,一般混炼排胶温度宜控制在100~130℃。密炼机混炼有一段混炼法和两段混炼法。一段混炼法是将生胶与配合剂分批加料,炼好后排胶,也可留少部分生胶及硫化剂在最后加入,混炼至排胶。两段混炼法是先用高速高压密炼机炼成生胶加炭黑和软化剂之类的母炼胶,排胶压片停放冷却后,再以低速密炼机或压片机加硫黄和促进剂完成混炼。两段混炼法的优点是显著提高混炼的均匀性,即提高硫化胶的物理性能,两段间的冷却可避免胶料焦烧,又可缩短混炼时间,提高生产效率。
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参考词条