非金属矿
非金屬礦
비금속광
NON-METALLIC MINES
2014年
6期
55-57
,共3页
陈彦如%廉晓敏%牛保军%郑水林
陳彥如%廉曉敏%牛保軍%鄭水林
진언여%렴효민%우보군%정수림
重质碳酸钙%超细粉碎%搅拌磨%助磨剂%能耗
重質碳痠鈣%超細粉碎%攪拌磨%助磨劑%能耗
중질탄산개%초세분쇄%교반마%조마제%능모
GCC%ultraifne grinding%stirred media mill%grinding aids%energy consumption
能耗是超细粉碎过程中备受关注的问题。本实验采用MiniZeta型卧式搅拌磨对重质碳酸钙进行了湿法超细粉碎实验,采用MATLAB数学分析软件,基于罗辛-拉姆勒粒度特性方程研究了不同助磨剂条件下能耗与产品D50和粒度模数的关系,建立了不添加助磨剂、添加Acume 9300和添加六偏磷酸钠3种实验条件下的能耗模型并对其进行了验证。结果表明,D50和粒度模数随能耗的增加呈现出先减小后平缓的趋势。添加助磨剂有利于在低能耗条件下得到D50较小的产品。助磨剂Acume 9300的助磨效果及节能效果优于六偏磷酸钠。3种实验条件下的能耗模型分别为W=0.9115a-1.4479,W=0.4532a-1.1482,W=0.6081a-1.4811,经实验验证所得模型可靠。
能耗是超細粉碎過程中備受關註的問題。本實驗採用MiniZeta型臥式攪拌磨對重質碳痠鈣進行瞭濕法超細粉碎實驗,採用MATLAB數學分析軟件,基于囉辛-拉姆勒粒度特性方程研究瞭不同助磨劑條件下能耗與產品D50和粒度模數的關繫,建立瞭不添加助磨劑、添加Acume 9300和添加六偏燐痠鈉3種實驗條件下的能耗模型併對其進行瞭驗證。結果錶明,D50和粒度模數隨能耗的增加呈現齣先減小後平緩的趨勢。添加助磨劑有利于在低能耗條件下得到D50較小的產品。助磨劑Acume 9300的助磨效果及節能效果優于六偏燐痠鈉。3種實驗條件下的能耗模型分彆為W=0.9115a-1.4479,W=0.4532a-1.1482,W=0.6081a-1.4811,經實驗驗證所得模型可靠。
능모시초세분쇄과정중비수관주적문제。본실험채용MiniZeta형와식교반마대중질탄산개진행료습법초세분쇄실험,채용MATLAB수학분석연건,기우라신-랍모륵립도특성방정연구료불동조마제조건하능모여산품D50화립도모수적관계,건립료불첨가조마제、첨가Acume 9300화첨가륙편린산납3충실험조건하적능모모형병대기진행료험증。결과표명,D50화립도모수수능모적증가정현출선감소후평완적추세。첨가조마제유리우재저능모조건하득도D50교소적산품。조마제Acume 9300적조마효과급절능효과우우륙편린산납。3충실험조건하적능모모형분별위W=0.9115a-1.4479,W=0.4532a-1.1482,W=0.6081a-1.4811,경실험험증소득모형가고。
Energy consumption is a problem in ultraifne grinding process. This paper studies the impact of energy consumption onD50 and size modulus of product by wet ultraifne grinding GCC in a horizontal MiniZeta stirred media mill with different grinding aids. Three energy consumption models are established based on MATLAB software and Rosin-Rammler distribution model, and veriifed under grinding conditions with no grinding aids, sodium hexametaphosphate and Acume 9300. The results show that the value ofD50 and size modulus ifrst reduced and then stabled at certain values with the increase of energy consumption. Adding grinding aids is conducive to obtain the finer product with low energy consumption. Acume 9300 is superior to sodium hexametaphosphate for its outstanding performances in grinding and energy saving. The models established are W=0.9115a-1.4479,W=0.4532a-1.1482,W=0.6081a-1.4811 for three grinding conditions. The models are reliable after veriifed by experiment.