黑龙江科技学院学报
黑龍江科技學院學報
흑룡강과기학원학보
JOURNAL OF HEILONGJIANG INSTITUTE OF SCIENCE & TECHNOLOGY
2012年
3期
237-240,251
,共5页
直接液化%油煤浆%煤浆质量分数%流变特性%表观黏度
直接液化%油煤漿%煤漿質量分數%流變特性%錶觀黏度
직접액화%유매장%매장질량분수%류변특성%표관점도
direct liquefaction%coal-oil mixtures(COM)%concentration of COM%rheological properties%apparent viscosity
煤浆质量分数是影响油煤浆流变特性的主要因素之一。文中研究了煤浆质量分数对内蒙古胜利褐煤与液化起始溶剂和循环溶剂配制成的油煤浆的流变特性和表观黏度的影响。采用NXS-11A型旋转黏度计测量煤浆体系在30~70℃时在不同剪切速率下的剪切应力和表观黏度,绘制煤浆体系流变曲线和黏度曲线,分析了流变和黏度特性。结果表明:在实验条件下胜利褐煤起始溶剂油煤浆和循环溶剂油煤浆都符合宾汉流体的特征;油煤浆体系的塑性黏度、屈服应力和表观黏度都随煤浆质量分数的增大而增大,煤浆的表观黏度与煤浆质量分数之间呈指数增长型关系,当煤浆质量分数超过一定数值范围后,煤浆体系的表观黏度会急剧上升。
煤漿質量分數是影響油煤漿流變特性的主要因素之一。文中研究瞭煤漿質量分數對內矇古勝利褐煤與液化起始溶劑和循環溶劑配製成的油煤漿的流變特性和錶觀黏度的影響。採用NXS-11A型鏇轉黏度計測量煤漿體繫在30~70℃時在不同剪切速率下的剪切應力和錶觀黏度,繪製煤漿體繫流變麯線和黏度麯線,分析瞭流變和黏度特性。結果錶明:在實驗條件下勝利褐煤起始溶劑油煤漿和循環溶劑油煤漿都符閤賓漢流體的特徵;油煤漿體繫的塑性黏度、屈服應力和錶觀黏度都隨煤漿質量分數的增大而增大,煤漿的錶觀黏度與煤漿質量分數之間呈指數增長型關繫,噹煤漿質量分數超過一定數值範圍後,煤漿體繫的錶觀黏度會急劇上升。
매장질량분수시영향유매장류변특성적주요인소지일。문중연구료매장질량분수대내몽고성리갈매여액화기시용제화순배용제배제성적유매장적류변특성화표관점도적영향。채용NXS-11A형선전점도계측량매장체계재30~70℃시재불동전절속솔하적전절응력화표관점도,회제매장체계류변곡선화점도곡선,분석료류변화점도특성。결과표명:재실험조건하성리갈매기시용제유매장화순배용제유매장도부합빈한류체적특정;유매장체계적소성점도、굴복응력화표관점도도수매장질량분수적증대이증대,매장적표관점도여매장질량분수지간정지수증장형관계,당매장질량분수초과일정수치범위후,매장체계적표관점도회급극상승。
The concentration of coal-oil mixtures (COM) is one of the main factors affecting its rheo- logical properties. This paper seeks to investigate the rheological and viscosity properties of Shengli lignite COM confected by initial and recycled solvent. The investigation consists of measuring the shear stress and apparent viscosity of COM systems at different shear rate and 30 -70 ℃ by using rotational viscosimeter of NXS - 11 A, plotting rheological curves and riscosity curves respectively, and analyzing its rheological and apparent properties. The results indicate that the systems of Shengli lignite COM prepared by initial and recycled solvent consist with the characteristics of non-Newtonian Bingham fluid. The plastic viscosity, yield stress, and apparent viscosity increase with increasing coal concentration. The apparent viscosity correlates to the coal concentration exponentially and increases rapidly beyond a certain scale at high concentration.
