燃烧科学与技术
燃燒科學與技術
연소과학여기술
JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOGY
2014年
5期
418-422
,共5页
樊保国%姚力%宋凯%金燕%乔晓磊%韩涛%郎鹏德
樊保國%姚力%宋凱%金燕%喬曉磊%韓濤%郎鵬德
번보국%요력%송개%금연%교효뢰%한도%랑붕덕
煤粉%固结力%流动特性%含水率
煤粉%固結力%流動特性%含水率
매분%고결력%류동특성%함수솔
pulverized coal%consolidation stress%flowability%moisture
采用JENIKE剪切实验方法对相同粒径的两种不同水分含量的煤粉进行了一系列剪切实验,获得了煤粉的流动函数和其他流动特性参数.研究结果表明,煤粉的剪切力、压实密度、黏聚力和流动函数都随着固结力的增大而增大;固结力为50,kPa 时,煤粉的内摩擦角出现最小值;在30,kPa 和130,kPa 的固结态下,含水率为7.0%的煤粉压实密度比含水率为4.1%的煤粉大,但其黏聚力比含水率为4.1%的煤粉小;在50,kPa、70,kPa和100,kPa固结态下则有相反情况.
採用JENIKE剪切實驗方法對相同粒徑的兩種不同水分含量的煤粉進行瞭一繫列剪切實驗,穫得瞭煤粉的流動函數和其他流動特性參數.研究結果錶明,煤粉的剪切力、壓實密度、黏聚力和流動函數都隨著固結力的增大而增大;固結力為50,kPa 時,煤粉的內摩抆角齣現最小值;在30,kPa 和130,kPa 的固結態下,含水率為7.0%的煤粉壓實密度比含水率為4.1%的煤粉大,但其黏聚力比含水率為4.1%的煤粉小;在50,kPa、70,kPa和100,kPa固結態下則有相反情況.
채용JENIKE전절실험방법대상동립경적량충불동수분함량적매분진행료일계렬전절실험,획득료매분적류동함수화기타류동특성삼수.연구결과표명,매분적전절력、압실밀도、점취력화류동함수도수착고결력적증대이증대;고결력위50,kPa 시,매분적내마찰각출현최소치;재30,kPa 화130,kPa 적고결태하,함수솔위7.0%적매분압실밀도비함수솔위4.1%적매분대,단기점취력비함수솔위4.1%적매분소;재50,kPa、70,kPa화100,kPa고결태하칙유상반정황.
In this paper,JENIKE shear test method is used to shear pulverized coal. A series of shear tests have been taken with two samples of the same size distribution and different moistures to obtain flow function and some other related parameters of this pulverized coal . Results indicate that the shear force,compaction density,cohesion and flow functions of pulverized coal increase with the increase of consolidation stress. The pulverized coal exhibits mini-mal internal friction angle value when the consolidation stress is 50,kPa. The compaction density of the sample with 7.0% moisture is larger than that with 4.1% moisture when the consolidation stress is 30,kPa or 130,kPa,whereas cohesion is smaller. When the consolidation stress is 50,kPa,70,kPa and 100,kPa respectively,the result is opposite.