工程科学学报
工程科學學報
공정과학학보
Journal of University of Science and Technology Beijing
2015年
11期
1513-1519
,共7页
祝显强%刘应书%焦璐璐%杨雄%刘文海
祝顯彊%劉應書%焦璐璐%楊雄%劉文海
축현강%류응서%초로로%양웅%류문해
制氧%快速变压吸附%充压%吸附剂
製氧%快速變壓吸附%充壓%吸附劑
제양%쾌속변압흡부%충압%흡부제
oxygen generation%rapid pressure swing adsorption%pressurization%adsorbents
测试了微型制氧吸附剂的平衡吸附特性,在此基础上选出适合快速真空变压吸附制氧的吸附剂. 针对传统的单塔两步快速变压吸附制氧含量低问题,提出了提高产品气氧含量的单塔快速变压吸附制氧的排放气和原料气组合充压流程,并对该流程进行实验研究. 结果表明:在单塔快速真空变压吸附制氧过程中,采用排放气和原料气组合充压流程可以有效提高产品气氧含量. 充压前排放气的压力和氧含量是影响产品气氧含量的关键参数,采取合适的排放气压力和较高氧含量的排放气可获得更高的产品气氧含量. 在吸附和解吸压力分别为240 kPa和60 kPa时,采用排放气和原料气组合充压的快速真空变压吸附流程可获得氧体积分数90%的产品气,其产氧率为325. 08 L·h-1·kg-1 .
測試瞭微型製氧吸附劑的平衡吸附特性,在此基礎上選齣適閤快速真空變壓吸附製氧的吸附劑. 針對傳統的單塔兩步快速變壓吸附製氧含量低問題,提齣瞭提高產品氣氧含量的單塔快速變壓吸附製氧的排放氣和原料氣組閤充壓流程,併對該流程進行實驗研究. 結果錶明:在單塔快速真空變壓吸附製氧過程中,採用排放氣和原料氣組閤充壓流程可以有效提高產品氣氧含量. 充壓前排放氣的壓力和氧含量是影響產品氣氧含量的關鍵參數,採取閤適的排放氣壓力和較高氧含量的排放氣可穫得更高的產品氣氧含量. 在吸附和解吸壓力分彆為240 kPa和60 kPa時,採用排放氣和原料氣組閤充壓的快速真空變壓吸附流程可穫得氧體積分數90%的產品氣,其產氧率為325. 08 L·h-1·kg-1 .
측시료미형제양흡부제적평형흡부특성,재차기출상선출괄합쾌속진공변압흡부제양적흡부제. 침대전통적단탑량보쾌속변압흡부제양함량저문제,제출료제고산품기양함량적단탑쾌속변압흡부제양적배방기화원료기조합충압류정,병대해류정진행실험연구. 결과표명:재단탑쾌속진공변압흡부제양과정중,채용배방기화원료기조합충압류정가이유효제고산품기양함량. 충압전배방기적압력화양함량시영향산품기양함량적관건삼수,채취합괄적배방기압력화교고양함량적배방기가획득경고적산품기양함량. 재흡부화해흡압력분별위240 kPa화60 kPa시,채용배방기화원료기조합충압적쾌속진공변압흡부류정가획득양체적분수90%적산품기,기산양솔위325. 08 L·h-1·kg-1 .
The equilibrium adsorption characteristics of nitrogen adsorbents were tested and a suitable nitrogen adsorbent was selected for producing oxygen by rapid vacuum pressure swing adsorption. Due to low oxygen concentration in the product obtained by traditional rapid pressure swing adsorption, an improved pressurization step with raffinate was developed and experimentally studied in a rapid vacuum pressure swing adsorption system for producing oxygen. The results show that combined pressurization with raffinate and feed gas can effectively improve the oxygen concentration in the product during the rapid vacuum pressure swing adsorption process. The pressure and oxygen concentration of raffinate for pressurizing are key parameters to influence the oxygen concentration in the product, and a higher concentration oxygen product can be obtained by taking an appropriate pressure and a higher oxygen concen-tration of raffinate. The 90% oxygen can be generated by combined pressurization with raffinate and feed gas during the rapid vacuum pressure swing adsorption process with an adsorption pressure of 240 kPa and a desorption pressure of 60 kPa, and the adsorbent productivity is 325. 08 L·h-1·kg-1 .
