东北大学学报(自然科学版)
東北大學學報(自然科學版)
동북대학학보(자연과학판)
JOURNAL OF NORTHEASTERN UNIVERSITY(NATURAL SCIENCE)
2015年
9期
1278-1282
,共5页
柳政根%储满生%王峥%王宏涛
柳政根%儲滿生%王崢%王宏濤
류정근%저만생%왕쟁%왕굉도
高铁铝土矿热压块%含碳球团%抗压强度%响应曲面优化法%数学模型
高鐵鋁土礦熱壓塊%含碳毬糰%抗壓彊度%響應麯麵優化法%數學模型
고철려토광열압괴%함탄구단%항압강도%향응곡면우화법%수학모형
high iron bauxite hot briquette (HIBHB )%carbon composite agglomerate%compressive strength%response surface methodology%mathematical model
基于响应曲面优化法,采用中心组合设计,系统研究了配煤量、矿粉粒度、煤粉粒度等工艺参数及其交互作用对高铁铝土矿热压块抗压强度的影响,并建立了相关的数学预测模型.研究表明,各工艺参数对高铁铝土矿热压块抗压强度的影响显著,其程度大小依次为配煤量、矿粉粒度、煤粉粒度;所建立的数学模型相关系数为0.9589,该模型能够预测高铁铝土矿热压块抗压强度随各参数的变化规律;利用该模型对高铁铝土矿热压块的制备工艺进行了参数优化,优化制备工艺参数为:配煤量19.0%,矿粉粒度96μm,煤粉粒度80μm,在此条件下制备的热压块抗压强度为1024.3 N,与模型预测值1000 N 接近,相差只有2.43%,说明该数学模型能够为高铁铝土矿热压块制备工艺的优化提供参考.
基于響應麯麵優化法,採用中心組閤設計,繫統研究瞭配煤量、礦粉粒度、煤粉粒度等工藝參數及其交互作用對高鐵鋁土礦熱壓塊抗壓彊度的影響,併建立瞭相關的數學預測模型.研究錶明,各工藝參數對高鐵鋁土礦熱壓塊抗壓彊度的影響顯著,其程度大小依次為配煤量、礦粉粒度、煤粉粒度;所建立的數學模型相關繫數為0.9589,該模型能夠預測高鐵鋁土礦熱壓塊抗壓彊度隨各參數的變化規律;利用該模型對高鐵鋁土礦熱壓塊的製備工藝進行瞭參數優化,優化製備工藝參數為:配煤量19.0%,礦粉粒度96μm,煤粉粒度80μm,在此條件下製備的熱壓塊抗壓彊度為1024.3 N,與模型預測值1000 N 接近,相差隻有2.43%,說明該數學模型能夠為高鐵鋁土礦熱壓塊製備工藝的優化提供參攷.
기우향응곡면우화법,채용중심조합설계,계통연구료배매량、광분립도、매분립도등공예삼수급기교호작용대고철려토광열압괴항압강도적영향,병건립료상관적수학예측모형.연구표명,각공예삼수대고철려토광열압괴항압강도적영향현저,기정도대소의차위배매량、광분립도、매분립도;소건립적수학모형상관계수위0.9589,해모형능구예측고철려토광열압괴항압강도수각삼수적변화규률;이용해모형대고철려토광열압괴적제비공예진행료삼수우화,우화제비공예삼수위:배매량19.0%,광분립도96μm,매분립도80μm,재차조건하제비적열압괴항압강도위1024.3 N,여모형예측치1000 N 접근,상차지유2.43%,설명해수학모형능구위고철려토광열압괴제비공예적우화제공삼고.
The central composite design with response surface methodology was used to systemically research the effects of process parameters such as coal additive amount,ore particle size and coal particle size and their interaction on the compressive strength of high iron bauxite hot briquettes (HIBHB).The relevant mathematical prediction model was established as well.The results showed that these process parameters had significant effects on the compressive strength of HIBHB,ranking from coal additive amount,ore particle size to coal particle size.The established mathematical model with a correlation coefficient of 0.958 9 could predict the changing rules for the compressive strength of HIBHB.Based on the model,the process parameters were optimized as follows:coal additive amount 19.0%,ore particle size 96 μm and coal particle size 80 μm. Under the manufacturing condition of optimized process parameters,the compressive strength of HIBHB was 1 024.3 N,very close to the predicted value of 1 000 N by the model.The difference between the experimental value and the predicted value was simply 2.43%,which indicated that the mathematical model could help to optimize the production process for HIBHB.
