洁净煤技术
潔淨煤技術
길정매기술
CLEAN COAL TECHNOLOGY
2014年
5期
36-39
,共4页
张胜局%段清兵%何国锋%刘烨炜%孙海勇
張勝跼%段清兵%何國鋒%劉燁煒%孫海勇
장성국%단청병%하국봉%류엽위%손해용
水煤浆%管道输送%输送特性%流变性%宾汉塑性体模型%压力损失
水煤漿%管道輸送%輸送特性%流變性%賓漢塑性體模型%壓力損失
수매장%관도수송%수송특성%류변성%빈한소성체모형%압력손실
coal water mixture ( CWM )%pipeline transportation%transportation properties%rheological property%bingham plastic model%pressure loss
为获得神府煤水煤浆最佳管道输送参数,进行了水煤浆流变性试验,确定了水煤浆临界剪切速率。通过水煤浆剪切速率和剪切应力的关系确定神府煤水煤浆流变性模型,拟合出适于神府煤水煤浆流变性的数学方程。在不同管道直径和水煤浆浓度下,研究了水煤浆平均速率对管道压力损失的影响,得到了最佳水煤浆管道输送参数。结果表明:神府煤水煤浆临界剪切速率为40?74 s-1,水煤浆拟合后的流变方程符合宾汉塑性体模型,适宜泵送和管道输送。低浓度、低黏度的水煤浆更适合管道输送。在水煤浆平均流速相同的条件下,管道直径越小,管道压力损失越大。管道直径为200~300 mm时,神府煤水煤浆在管道输送中的压力损失在工业应用合理范围内,适宜管道输送。
為穫得神府煤水煤漿最佳管道輸送參數,進行瞭水煤漿流變性試驗,確定瞭水煤漿臨界剪切速率。通過水煤漿剪切速率和剪切應力的關繫確定神府煤水煤漿流變性模型,擬閤齣適于神府煤水煤漿流變性的數學方程。在不同管道直徑和水煤漿濃度下,研究瞭水煤漿平均速率對管道壓力損失的影響,得到瞭最佳水煤漿管道輸送參數。結果錶明:神府煤水煤漿臨界剪切速率為40?74 s-1,水煤漿擬閤後的流變方程符閤賓漢塑性體模型,適宜泵送和管道輸送。低濃度、低黏度的水煤漿更適閤管道輸送。在水煤漿平均流速相同的條件下,管道直徑越小,管道壓力損失越大。管道直徑為200~300 mm時,神府煤水煤漿在管道輸送中的壓力損失在工業應用閤理範圍內,適宜管道輸送。
위획득신부매수매장최가관도수송삼수,진행료수매장류변성시험,학정료수매장림계전절속솔。통과수매장전절속솔화전절응력적관계학정신부매수매장류변성모형,의합출괄우신부매수매장류변성적수학방정。재불동관도직경화수매장농도하,연구료수매장평균속솔대관도압력손실적영향,득도료최가수매장관도수송삼수。결과표명:신부매수매장림계전절속솔위40?74 s-1,수매장의합후적류변방정부합빈한소성체모형,괄의빙송화관도수송。저농도、저점도적수매장경괄합관도수송。재수매장평균류속상동적조건하,관도직경월소,관도압력손실월대。관도직경위200~300 mm시,신부매수매장재관도수송중적압력손실재공업응용합리범위내,괄의관도수송。
To obtain the optimum Shenfu coal water mixture ( CWM) pipeline transportation parameters,the CWM rheology test was con-ducted to determine its critical shear rate.Through the relationship between the shear rate and shear stress of Shenfu CWM determined its rheology model,fitted the mathematical equation which was suitable for Shenfu CWM.Under different pipe diameters and CWM concentra-tion,investigated the influence of CWM average rate on pipeline pressure loss,obtained the optimum CWM pipeline transportation parame-ters.The results show that the critical shear rate of CWM is 40.74 s-1,the fitting rheological equation follows the bingham plastic model.The pipeline is more suitable for low concentration and low viscosity CWM.Keep the average flow velocity of CWM unchanging,the smaller the pipe diameter,the bigger the pipeline pressure loss. When the pipe diameter ranges from 200 mm to 300 mm,the pipeline pressure loss meets the demands of industrial application.
