江西某砂质高岭土超导磁分离除铁增白试验研究
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摘要
为研究精制高岭土的绿色环保制备技术,以江西某砂质高岭土为研究对象,进行了工艺矿物学和超导磁分离除铁增白试验研究。主要研究了不同磁选方式、超导磁选中磁场强度、分散剂用量、进料速度、分选介质尺寸、电磁预处理等对高岭土磁选的影响。最终确定采用"电磁预选—超导磁选"工艺,电磁磁场强度为1.1 T,超导磁场强度为4 T,且在分散剂用量为0.4%、进料速度为0.8 cm/s、使用2#钢毛的超导磁选条件下,获得Fe_2O_3含量为0.48%、白度为93.4%、产率为60.08%的精制高岭土,极大地提高了该砂质高岭土的产品附加值。
In order to study the green preparation technology of refined kaolin, taking sandy kaolin from Jiangxi as a research object, process mineralogy, iron removal and whitening by superconducting magnetic separation were studied. Different magnetic separation, magnetic intensity, dispersant dosage, feed rate, media size and pretreatment were mainly studied. Finally, "pre-electromagnetic separation-superconducing magnetic separation" was adopted. The refined kaolin with Fe_2O_3 content of 0.48%, whiteness of 93.4%, and yield of 60.08% was obtained, while the intensity of electromagnetic separation and superconcucing magnetic separation were 1.1 T and 4 T, respectively, and under the superconducing magnetic separation condition of dispersant dosage of 0.4%, feed rate of 0.8 cm/s, and 2# steel wool. This method has greatly improved the additional value of sandy kaolin.
In order to study the green preparation technology of refined kaolin, taking sandy kaolin from Jiangxi as a research object, process mineralogy, iron removal and whitening by superconducting magnetic separation were studied. Different magnetic separation, magnetic intensity, dispersant dosage, feed rate, media size and pretreatment were mainly studied. Finally, "pre-electromagnetic separation-superconducing magnetic separation" was adopted. The refined kaolin with Fe_2O_3 content of 0.48%, whiteness of 93.4%, and yield of 60.08% was obtained, while the intensity of electromagnetic separation and superconcucing magnetic separation were 1.1 T and 4 T, respectively, and under the superconducing magnetic separation condition of dispersant dosage of 0.4%, feed rate of 0.8 cm/s, and 2# steel wool. This method has greatly improved the additional value of sandy kaolin.
引文
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[2] 夏光华,李晓鸣,赵晓东.北海高岭土矿物特征及铁赋存状态的研究[J].硅酸盐通报,2013,32(2):289-293.
[3] 尤振根.国内外高岭土资源和市场现状及展望[J].非金属矿,2005,28(S1):1-8.
[4] 罗正杰.北海高岭土与云母分选技术研究[J].中国非金属矿工业导刊,2007(3):41-43.
[5] 曹健,陈小罗,陈铮,等.海南省某砂质高岭土选矿试验研究[J].矿产保护与利用,2013(2):44-49.
[6] 熊涛,黄会春,谢美芳,等.某砂质高岭土矿SLon浆料机除铁提纯试验研究[J].非金属矿,2016,39(6):76-78.
[7] 黄会春,熊涛,张宏亮,等.江西某高岭土除铁提纯试验研究[J].非金属矿,2017,40(2):76-78.
[8] 杨启帆,于阳辉,安卫东,等.江西某低品位高岭土矿综合利用技术研究[J].矿产保护与利用,2017(6):57-61.
[9] 罗正杰.北海高岭土与云母分选技术研究[J].中国非金属矿工业导刊,2007(3):41-43.
[10] 林琦玮.高岭土漂白除铁生产中酸性废水回收利用方法浅探[J].科技展望,2016(1):62.
[11] 辛延龄,刘凤春,刘家第.风化高岭土的利用[J].矿产综合利用,2002(5):50-52.
[12] 魏德州.固体物料分选学[M].北京:冶金工业出版社,2009:81-93.
[13] 陈丽昆,李亦然,王军,等.超导磁分离工艺替代化学漂白用于高岭土除杂增白的可行性研究[J].非金属矿,2014,37(3):57-59.
[14] 李亦然,蒋浩,张为民,等.超导磁分离技术用于信阳高岭土提纯除杂研究[J].东华理工大学学报(自然科学版),2015,38(2):212-217.
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