化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
6期
1387-1391,1396
,共6页
李士凤%谭哲%申延明%刘东斌%樊丽辉%白净
李士鳳%譚哲%申延明%劉東斌%樊麗輝%白淨
리사봉%담철%신연명%류동빈%번려휘%백정
水合物%分离%水溶液%脱盐%果汁浓缩
水閤物%分離%水溶液%脫鹽%果汁濃縮
수합물%분리%수용액%탈염%과즙농축
hydrate%separation%aqueous solution%desalination%juice concentration
水合物法溶液分离是一种新兴的分离技术。本文概述了水合物溶液分离技术的基本原理,指出水合物溶液分离技术的优缺点。重点回顾了水合物溶液分离技术在海水淡化、废水处理、果汁浓缩、生化分离等过程中的研究进展:尽管水合物海水淡化已经有工业化的报道,但是水合物生成压力较高,分离过程能耗较大,阻碍了该技术的推广应用;水合物法废水处理仅局限于制浆废水回收方面;水合物果汁浓缩以及生化分离方面的研究表明水合物法对于高附加值产品分离十分有效。分析表明,水合物溶液分离技术在上述应用过程中存在水合物生成压力大、水合物结晶夹带浓缩液等问题,指出未来水合物溶液分离技术的研究方向为寻找更加有效的水合物生成气体以及在高附加值产品分离回收过程中的应用。
水閤物法溶液分離是一種新興的分離技術。本文概述瞭水閤物溶液分離技術的基本原理,指齣水閤物溶液分離技術的優缺點。重點迴顧瞭水閤物溶液分離技術在海水淡化、廢水處理、果汁濃縮、生化分離等過程中的研究進展:儘管水閤物海水淡化已經有工業化的報道,但是水閤物生成壓力較高,分離過程能耗較大,阻礙瞭該技術的推廣應用;水閤物法廢水處理僅跼限于製漿廢水迴收方麵;水閤物果汁濃縮以及生化分離方麵的研究錶明水閤物法對于高附加值產品分離十分有效。分析錶明,水閤物溶液分離技術在上述應用過程中存在水閤物生成壓力大、水閤物結晶夾帶濃縮液等問題,指齣未來水閤物溶液分離技術的研究方嚮為尋找更加有效的水閤物生成氣體以及在高附加值產品分離迴收過程中的應用。
수합물법용액분리시일충신흥적분리기술。본문개술료수합물용액분리기술적기본원리,지출수합물용액분리기술적우결점。중점회고료수합물용액분리기술재해수담화、폐수처리、과즙농축、생화분리등과정중적연구진전:진관수합물해수담화이경유공업화적보도,단시수합물생성압력교고,분리과정능모교대,조애료해기술적추엄응용;수합물법폐수처리부국한우제장폐수회수방면;수합물과즙농축이급생화분리방면적연구표명수합물법대우고부가치산품분리십분유효。분석표명,수합물용액분리기술재상술응용과정중존재수합물생성압력대、수합물결정협대농축액등문제,지출미래수합물용액분리기술적연구방향위심조경가유효적수합물생성기체이급재고부가치산품분리회수과정중적응용。
The hydrate-based solution separation is a novel separation technology. This paper summarized the basic principle of aqueous concentration by forming hydrate,the benefits and drawbacks of hydrate technology. This paper emphasized the progress of seawater desalination, wastewater treatment,juice concentration,and biochemical separation by forming clathrate hydrate. Although forming hydrate desalination has been industrialized,the high and energy consumption of hydrate formation pressure limited its applications. The research on waste water treatment was only limited to pulping waste water recovery. Juice concentration and biochemical separation by forming hydrate were proven to be effective in recovery products with high added-value. The problems of high pressure of hydrate formation and hydrate crystal entrained concentrated solution by forming clathrate hydrate were also discussed. Future research directions of aqueous solution concentration by forming hydrate were proposed.