洁净煤技术
潔淨煤技術
길정매기술
CLEAN COAL TECHNOLOGY
2014年
6期
36-41
,共6页
王向辉%门卓武%许明%翁力%刘科
王嚮輝%門卓武%許明%翁力%劉科
왕향휘%문탁무%허명%옹력%류과
低阶煤%粉煤%热解提质%固体热载体%多联产%煤拔头
低階煤%粉煤%熱解提質%固體熱載體%多聯產%煤拔頭
저계매%분매%열해제질%고체열재체%다련산%매발두
low rank coal%pulverized coal%pyrolysis%solid heat carrier%poly-generation%coal topping
为改善低阶煤煤质、提高其利用经济性和安全性,阐述了国内外主流的低阶煤粉煤热解提质技术的工艺特点及研究进展,分析了低阶煤粉煤热解提质技术存在的问题,并对低阶煤粉煤热解提质工艺的发展进行了展望。结果表明:粉煤热解一般采用固体热载体热解工艺,具有加热速度快、焦油产量高、热解煤气热值高等优点,是解决大量粉煤利用的关键技术之一。针对粉煤热解工艺存在的关键技术未实现突破、经济效益差、焦油品质难以有效控制、废水处理难度大等问题,提出未来应从实现热解关键技术突破、优选热解反应器、开发热解产品深加工技术、研发可提高焦油产率和改善焦油品质的新工艺、开发新型焦油分离和回收技术、开发含有机物废水的处理方法、开发具有高能源转化效率的多联产工艺等7方面进行粉煤热解提质技术的研究。
為改善低階煤煤質、提高其利用經濟性和安全性,闡述瞭國內外主流的低階煤粉煤熱解提質技術的工藝特點及研究進展,分析瞭低階煤粉煤熱解提質技術存在的問題,併對低階煤粉煤熱解提質工藝的髮展進行瞭展望。結果錶明:粉煤熱解一般採用固體熱載體熱解工藝,具有加熱速度快、焦油產量高、熱解煤氣熱值高等優點,是解決大量粉煤利用的關鍵技術之一。針對粉煤熱解工藝存在的關鍵技術未實現突破、經濟效益差、焦油品質難以有效控製、廢水處理難度大等問題,提齣未來應從實現熱解關鍵技術突破、優選熱解反應器、開髮熱解產品深加工技術、研髮可提高焦油產率和改善焦油品質的新工藝、開髮新型焦油分離和迴收技術、開髮含有機物廢水的處理方法、開髮具有高能源轉化效率的多聯產工藝等7方麵進行粉煤熱解提質技術的研究。
위개선저계매매질、제고기이용경제성화안전성,천술료국내외주류적저계매분매열해제질기술적공예특점급연구진전,분석료저계매분매열해제질기술존재적문제,병대저계매분매열해제질공예적발전진행료전망。결과표명:분매열해일반채용고체열재체열해공예,구유가열속도쾌、초유산량고、열해매기열치고등우점,시해결대량분매이용적관건기술지일。침대분매열해공예존재적관건기술미실현돌파、경제효익차、초유품질난이유효공제、폐수처리난도대등문제,제출미래응종실현열해관건기술돌파、우선열해반응기、개발열해산품심가공기술、연발가제고초유산솔화개선초유품질적신공예、개발신형초유분리화회수기술、개발함유궤물폐수적처리방법、개발구유고능원전화효솔적다련산공예등7방면진행분매열해제질기술적연구。
The research progress and characteristics of the domestic and international mainstream pulverized coal pyrolysis upgrading tech-nologies were introduced in details in order to improve the quality,economy and security of low rank coal.The technical problems existed were analyzed and developing suggestions were proposed for the low rank pulverized coal pyrolysis upgrading technology.The results showed that it was one of the key technologies to use solid heat carrier pyrolysis process for pulverized coal utilization,which have the advantages of high heating speed,high tar yield and calorific value.Due to the issues such as key technical deficiency,low economic efficiency,big tar quality fluctuation and difficult waste water treatment,the research in future should focus on the fields of key technical breakthrough,pyrol-ysis reactor optimization,pyrolysis products deep processing and utilization,tar yields and tar quality improvement,tar separation and re-covery technology,organic waste water treatment and poly-generation technology with high energy conversion efficiency.
