超声协同腐植酸钠强化磷灰石与白云石浮选分离的研究#br#

金属矿山 ›› 2026, Vol. 55 ›› Issue (1): 163-170.

超声协同腐植酸钠强化磷灰石与白云石浮选分离的研究#br#

宋江伟^1,2　李茂林^1,2,3　欧舒娜^1,2　崔　瑞^1,2　姚　伟^1,2

1. 武汉科技大学资源与环境工程学院,湖北武汉 430081;2. 冶金矿产资源高效利用与造块湖北省重点实验室,
湖北武汉 430081;3. 长沙矿冶研究院有限责任公司,湖南长沙 410012

出版日期:2026-01-15 发布日期:2026-02-24
通讯作者: 崔　瑞(1984—),男,副教授,博士,硕士研究生导师。
作者简介:宋江伟(1999—),男,硕士研究生。
基金资助:
武汉市科技局知识创新项目(编号:2023020201020411);湖北省教育厅科学技术研究项目(编号:Q20231111);湖北省自然科学基金项
目(编号:2025AFB027)。

Ultrasonic Synergistic Sodium Humate-Enhanced Flotation Separation of Apatite and Dolomite

SONG Jiangwei^1,2　LI Maolin^1,2,3　OU Shuna^1,2　CUI Rui^1,2　YAO Wei^1,2

1. College of Resource and Environmental Engineering,Wuhan University of Sceince and Technology,Wuhan 430081,China;
2. Hubei Provincial Key Laboratory of Efficient Utilization and Blocking of Metallurgical Mineral Resources,Wuhan 430081,China;
3. Changsha Research Institute of Mining and Metallurgy Co. ,Ltd. ,Changsha 410012,China

Online:2026-01-15 Published:2026-02-24

摘要/Abstract

摘要： 本研究针对磷灰石与白云石浮选分离中存在的药剂作用选择性差、分离效率低等关键性技术难题,通
过超声波对磷灰石和白云石表面进行预处理,并引入腐植酸钠作为抑制剂,实现了磷灰石和白云石的选择性分离。
单矿物试验结果表明,矿物经超声预处理后再进行浮选,磷灰石浮选回收率从61. 61%提升至91. 17%,而白云石回收
率维持在0. 5%,有效扩大了两者的可浮性差异;人工混合矿试验的磷灰石回收率为70. 12%,白云石回收率低至
8. 23%,取得了较好的分选效果。基于吸附量测试、Zeta 电位测试、红外光谱和SEM-EDS 测试结果分析表明,超声预
处理可有效清洁矿物表面,并加速磷灰石表面PO3-
4 、F-和白云石表面CO2-
3 溶解,从而使磷灰石暴露出更多Ca 活性位
点、白云石暴露出更多Ca、Mg 活性位点。由于磷灰石与腐植酸钠之间吸附较弱,预处理后其表面新产生的活性位点
大部分被油酸钠占据,腐植酸钠吸附量较少;而腐植酸钠通过化学键合强烈吸附于白云石表面,新产生的活性位点被
腐植酸钠占据,抑制后续油酸钠吸附,实现了两者的高效分离。

关键词: 超声预处理　腐植酸钠　磷灰石　白云石

Abstract: Aiming at the key technical difficulties such as poor selectivity and low separation efficiency of reagents reaction
in the flotation separation of apatite and dolomite,this study realizes the selective separation of apatite and dolomite
through ultrasonic pretreatment of apatite and dolomite surfaces and the introduction of sodium humate as an inhibitor. The results
of single-mineral test showed that the minerals were ultrasonically pretreated and then subjected to flotation,the flotation
recovery of apatite was increased from 61. 61% to 91. 17%,while the recovery of dolomite was maintained at 0. 5%,which effectively
enlarged the floatability difference between the two,and the artificial mixed-mineral test yielded a recovery of apatite
of 70. 12%,and a low recovery of dolomite as low as 8. 23%,which resulted in a better sorting effect. The analysis based on
the results of adsorption capacity test,Zeta potential test,infrared spectroscopy and SEM-EDS test showed that the ultrasonic
pretreatment could effectively clean the mineral surface and accelerate the dissolution of PO3-
4 and F- on apatite surface and
CO2-
3 on dolomite surface,which exposed more Ca active sites for apatite and more Ca and Mg active sites for dolomite. Due to
the weak adsorption between apatite and sodium humate,most of the newly generated active sites on its surface were occupied
by sodium oleate after pretreatment,and the sodium humate adsorption capacity was low;While sodium humate was strongly adsorbed
on the surface of dolomite through chemical bonding,and the newly generated active sites were occupied by sodium humate,
which inhibited the subsequent adsorption of sodium oleate,and the high efficiency of the two separations was realized.

Key words: ultrasonic pretreatment,sodium humate,apatite,dolomite

中图分类号:

TD923

宋江伟, 　李茂林, 　欧舒娜, 　崔　瑞, 　姚　伟, . 超声协同腐植酸钠强化磷灰石与白云石浮选分离的研究#br#[J]. 金属矿山, 2026, 55(1): 163-170.

SONG Jiangwei, 　LI Maolin, 　OU Shuna, 　CUI Rui, 　YAO Wei, . Ultrasonic Synergistic Sodium Humate-Enhanced Flotation Separation of Apatite and Dolomite[J]. Metal Mine, 2026, 55(1): 163-170.

[1]	栾靖淳　李鹏程　代淑娟　董丽鑫　杨方圆. 复配阳离子捕收剂反浮选磁铁矿制备高纯铁精矿研究[J]. 金属矿山, 2026, 55(1): 117-123.
[2]	边立国　于　茜　郭　忆　刘佳玲　陈　洲. 甘肃平川某磁铁精矿制备超纯铁精矿试验研究[J]. 金属矿山, 2026, 55(1): 124-130.
[3]	张运鑫　印万忠　范宇轩　任雨强. 组合抑制剂下超声预处理对铜锌分离的影响研究[J]. 金属矿山, 2026, 55(1): 131-137.
[4]	郑海雷　朱　坤, 　马　涛　谢海云. 滇西某铜铅锌金银多金属硫化矿全优先浮选试验研究[J]. 金属矿山, 2026, 55(1): 138-147.
[5]	华建彬　黄　晟. 应用新型低碱度抑制剂提高铜矿石伴生金的回收[J]. 金属矿山, 2026, 55(1): 148-154.
[6]	李佳颖, 　姚　伟, 　李茂林, 　崔　瑞, 　付莹颖, . 改性木质素磺酸钠对白钨矿/ 方解石浮选行为的影响研究#br#[J]. 金属矿山, 2026, 55(1): 155-162.
[7]	胡轶文, 　王介良, 　曹　钊, 　汤家焰, 　吴　旭, . 乙二胺四乙酸对铌铁矿反浮选的抑制行为及机理研究[J]. 金属矿山, 2025, 54(12): 109-117.
[8]	朱一民, 　胡佳吉, 　葛　婧, 　李思阳, 　刘　杰, . 新型组合捕收剂对绿柱石浮选性能的影响及机理研究[J]. 金属矿山, 2025, 54(12): 118-123.
[9]	徐长明, 　何东升, 　唐　远, 　田承涛, 　廖秋实　李智力, 　付艳红, . 湖北某高钾胶磷矿石反浮选高效分离工艺研究[J]. 金属矿山, 2025, 54(12): 124-130.
[10]	栗明媚　赵礼兵　刘三阳　杨紫煊　易祖嵘　田　欣　韩　明　李万涛来有邦　武春涛　郭小飞. 木质素磺酸钠对磷灰石与方解石的选择性抑制及其粒级效应[J]. 金属矿山, 2025, 54(12): 131-138.
[11]	罗　朗, 　陈传富, 　何　琦, 　尹青临, 　丁世豪, 　邢耀文, 　桂夏辉, . 辉钼矿粗粒磨矿产品流化床浮选动力学研究[J]. 金属矿山, 2025, 54(11): 146-151.
[12]	姚艳清, 　张国新　李汉文, 　徐佳飞　吕昊子, 　胡和那日苏李沛伦, 　武　艺. 内蒙古某高泥贫锡尾矿强化脱泥回收锡试验[J]. 金属矿山, 2025, 54(11): 152-157.
[13]	杨会利　刘新刚　李　刚　秦晓艳　陈猛强　刘文刚. 改性亚麻油在高硅铝土矿常温浮选脱硅中的应用研究[J]. 金属矿山, 2025, 54(11): 164-169.
[14]	雷梦林, 　刘　杰, 　李　杰, 　张淑敏, 　李艳军, 　朱一民, . 白云鄂博弱磁选铁精矿反浮选脱氟工艺研究[J]. 金属矿山, 2025, 54(10): 97-104.
[15]	王海霞　来有邦　赵礼兵　邓玉芬　张　朔　赵留成. 研山铁矿磁赤混合铁矿石选矿工艺优化研究[J]. 金属矿山, 2025, 54(8): 71-76.

扫码分享