1) carbonaceous temperature swing adsorption(TSA)
炭法变温吸附
1.
Brief introduction of the background of the engineering development is made,and then the related progress and prospect are discussed,including the carbonaceous temperature swing adsorption(TSA) engineering development progress in FGD and recovery in moving bed,regeneration technology,adsorption equipment.
其中对移动床炭法变温吸附烟气脱硫回收工程、再生技术、吸附设备分别进行了总结评述。
2) adsorption by carbon materials
炭法吸附
3) temperature swing adsorption
变温吸附
1.
To resolve the blast accidents occurring during the operation of acetylene temperature swing adsorption set, Hazard and Operability Analysis (HAZOP) was used to make a safety analysis of this set; hidden hazards were found out; corresponding countermeasures were put forward.
针对乙炔变温吸附装置的燃爆事故问题,采用HAZOP方法对该装置进行安全性分析,找出存在的安全隐患,提出整改措施,指出装置发生燃爆事故的可能性;又将该装置可能发生的燃爆事故作为顶上事件,利用FTA方法进行分析,得到了装置发生燃爆事故的可能原因,制定了预防发生燃爆事故的对策。
2.
In order to prevent the icing problem of flow meter in CBM/CMM supply system in Huainan,a suit of deep dehydration equipment are designed by utilizing the technology of temperature swing adsorption.
此装置利用变温吸附干燥技术,流程简单、操作方便、运行稳定、能耗低、运行成本少、安全性能高。
3.
An air purification temperature swing adsorption (TSA) simulator for ASUs based on Aranovich-Donohue adsorption isotherm and linear driving force (LDF) mass transfer assumed non-adiabatic adsorption model was developed, the model parameters were determined by matching monitoring curves obtained from locale industry.
基于Aranovich-Donohue吸附等温线方程和线性驱动力传质假设的非绝热吸附模型,模型参数通过匹配生产现场监控数据确定,开发了空分变温吸附纯化系统模拟器。
4) TSA
变温吸附
1.
The paper describes in brief the fundamental principle of the PSA and TSA processes used in the front end purification by molecular sieve and the comparison between them.
以宝钢 72 0 0 0m3/h空分设备为例 ,简述了变压吸附 (PSA)与变温吸附 (TSA)分子筛前端净化工艺的基本原理与比较 ,回顾了PSA工艺的研究与发展 ,侧重介绍了宝钢 72 0 0 0m3/h空分设备的PSA系统及其优点。
5) charcoal adsorption process
木炭吸附法
补充资料:变温吸附
利用吸附剂的平衡吸附量随温度升高而降低的特性,采用常温吸附、升温脱附的操作方法。除吸附和脱附外,整个变温吸附操作中还包括对脱附后的吸附剂进行干燥、冷却等辅助环节。变温吸附用于常压气体及空气的减湿,空气中溶剂蒸气的回收等。如果吸附质是水,可用热气体加热吸附剂进行脱附;如果吸附质是有机溶剂,吸附量高时可用水蒸气加热脱附后冷凝回收;吸附量低时则用热空气脱附后烧去,或经二次吸附后回收。
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