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采选技术与矿山管理

充填料浆流动温变性研究

  • 孙京阁 ,
  • 关鑫磊 ,
  • 刘杰 ,
  • 赵忠琦
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  • 山东黄金矿业(玲珑)有限公司,山东 招远 265419
赵忠琦(1993-),男,山东东营人,工程师,从事采矿技术管理工作。

孙京阁(1979-),男,山东招远人,工程师,从事采矿技术管理工作。

收稿日期: 2020-03-03

  修回日期: 2020-07-21

  网络出版日期: 2021-03-22

Study on Flow Temperature Denaturation of Filling Slurry

  • Jingge SUN ,
  • Xinlei GUAN ,
  • Jie LIU ,
  • Zhongqi ZHAO
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  • Shandong Gold Mining (Linglong) Co. ,Ltd. ,Zhaoyuan 265419,Shandong,China

Received date: 2020-03-03

  Revised date: 2020-07-21

  Online published: 2021-03-22

本文亮点

为解决矿山充填料浆堵管事故频发的问题,以具有代表性的不同配比充填料浆为研究对象,通过安东帕MCR102高级流变仪获取并分析相关数据,重点研究了充填料浆的温度对高浓度充填料浆流变特性的影响,探索温度变化对充填料浆流动性能的影响。研究结果表明:(1)高浓度全尾砂充填料浆的流变性能会随着料浆的温度变化而发生变化;(2)随着温度的升高,高浓度全尾砂充填料浆黏度系数降低,屈服应力先下降再升高;(3)温度为10 ℃时高浓度全尾砂充填料浆流变性能最好。根据本研究结果,矿山在使用高浓度全尾砂充填料浆时,可适当调节充填料浆温度,使充填料浆达到流变性能最优状态,进而减少充填料浆堵管事故的发生。

本文引用格式

孙京阁 , 关鑫磊 , 刘杰 , 赵忠琦 . 充填料浆流动温变性研究[J]. 黄金科学技术, 2021 , 29(1) : 147 -154 . DOI: 10.11872/j.issn.1005-2518.2021.01.051

Highlights

From June 2017 to April 2018,frequent pipe plugging accidents occurred in the underground filling of Linglong gold mine,which required a lot of manpower and material resources to restore the pipeline,greatly reducing the filling efficiency.The pipe plugging accident has seriously affected the normal production of the mine and has become one of the factors restricting the development of mine filling technology.In the filling process,the mixing station for filling slurry is generally set on the ground.After the water,full tailings and material C are fully mixed in the mixing barrel,they are transported to the underground goaf through the filling pipeline.The temperature difference between winter and summer in northern China is 30 ℃ to 40 ℃.The hydration reaction of cement is greatly affected by the temperature when the slurry is stirred.When the filling slurry enters the underground through the pipeline,it will be affected by the ground temperature,resulting in the change of slurry temperature.Therefore,the rheological characteristics of the filling slurry in the pipeline are always changing.The rate of cement hydration is greatly affected by the temperature,so the fluidity of the filling slurry will change in different transportation time.Therefore,it is necessary to study the influence of temperature change on the flow performance of the filling slurry.However,there is relatively few research on the influence of temperature change on the hydration of cement.In this paper,the flow characteristics of the filling slurry with full tailings at 20 ℃,15 ℃,10 ℃ and 5 ℃ were studied.According to the actual situation of the mine and the past research in the laboratory,the design slurry concentration is 65% and 68% respectively,and the ash sand ratio is 1∶8 and 1∶12 respectively.The time when material C,tailing and water are mixed together is taken as the starting point of timing.The Origin software was used to process 13 440 experimental data,at each temperature,then we get the shear rate-shear stress curves of different slurry ratio,slurry viscosity coefficient,line graph of relationship between slurry yield stress and slurry temperature and slurry temperature relationship line chart.Through the analysis,the following conclusions are obtained:In the same reaction time,the viscosity coefficient decreases with the increase of temperature;In the same reaction time,the yield stress decreases first and then increases with the increase of temperature;When the yield stress is the lowest,the corresponding reaction temperature of slurry is 10 ℃;The best temperature for the preparation and transportation of the slurry is 10 ℃,at this time,the material resistance loss coefficient of slurry is the smallest.According to the results of this study,when the mine uses high-concentration full tailings filling slurry,the filling temperature can be adjusted appropriately to make the filling slurry reach the optimal state of rheological properties,thereby reducing the occurrence of pipe blockage accidents with the filling slurry.

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博茨瓦纳再次跃居非洲矿业投资吸引力榜首

20多年来,弗雷泽研究所(Fraser Institute)每年会根据对全球采矿业不同参与者的年度调查及现有采矿政策和资源潜力,公布一份矿业投资吸引力排名。

近日,弗雷泽研究所发布2020年排名,博茨瓦纳再次跃居非洲矿业投资吸引力榜首,该国在采矿政策和矿产潜力方面都处于领先地位,虽然2019年曾输给几内亚。此外,博茨瓦纳在世界排名也取得了真正的突破,跻身前10位,从2019年的第44位上升到2020年的第11位。

应该关注的是,该国之所以取得这一进展,是因为该行业的参与者对监管有了更好的认识。在评估矿业政策的指数方面,该国已经从上一年世界排名22位,上升到了第15位。与2019年相比,受访者对劳动法和集体协议的担忧较少。

据悉,弗雷泽研究所2020年排名涵盖了77个国家,其中13个是非洲国家,而2019年有76个国家,其中10个来自非洲。

(来源:全球地质矿产信息网)

脚注

http://www.goldsci.ac.cn/article/2021/1005-2518/1005-2518-2021-29-1-147.shtml

Chang Qianfa2003.Processing and disposition of solid wastes in mines [J].Conservation and Utilization of Mineral Resources,(5):38-42.

Chang Qianfa2010.New progress on comprehensive utilization and emission reduction of mine tailings[J].Metal Mine,(3):1-5,61.

Du Xianfeng2009.Application of grouting technology in filling and drilling[J].Xinjiang Nonferrous Metals32(5):29,32.

Hou Guoquan Guo Lijie Yang Chao al et2014.Testing and study on the rheological properties of the high-density filling[J].China Mining Magazine,(Supp.2):238-241.

Hu Yajun Shiqing Nan Yao Zhengong al et2011.Experimental study on pipeline transportation of full tailings filling slurry[J].Mining Technology11(6):20-22.

Huang Caiqi2011.Key factors of backfill drilling and the construction technology[J].Exploration Engineering(Rock & Soil Drilling and Tunneling)38(10):66-69,73.

Li Y L Wang H2011.A circulatory system and method of slurry delivery in long-distance pipeline transportation of iron ore[J].Proceedings of SPIE—The International Society for Optical Engineering8205(1):82052S-1-82052-3.

Lin Zongshou2012.Cement Technology[M].Wuhan:Wuhan University of Technology Press.

Wang Fengjiang Wang Laigui2003.Hazards of tail reservoir and its engineering control[J].The Chinese Journal of Geological Hazard and Control,(3):79-83.

Wang Youwu Yuan Ping Chen Kejia al et2009.Discussion on related problems of tailing dam break[J].Engineering Construction41(5):35-41.

Xiao Yuntao Wu Aixiang Zhai Yonggang al et2011.Optimization research on paste backfill drilling system in Huize lead-zinc mine[J].Metal Mine,(4):32-35.

Yang Liuhua Wang Hongjiang Wu Aixiang al et2016.Effect of flocculation settling on rheological characteristics of full tailings slurry[J].Journal of Central South University(Science and Technology)47(10):3523-3529.

Yang Zhiqiang Chen Dexin Gao Qian al et2016.Key technologies in long-distance pipeline transportation of filling slurry of coarse aggregate[J].Journal of Guangxi University(Natural Science Edition)41(4):1306-1312.

Yao Zhengong2008.Optimizing on backfill pipeline transport system in deep mine[J].Mining Research and Development2(28):7-9,53.

Yuan Yuanxun2017.Cause analysis and protection measures of tube burst caused by paste filling[J].Mining Technology17(4):39-40,101.

Zhang Jingfu Xu Ming Gao Lili al et2003.Affects of temperature and additives on rheology of cement slurry[J].Drilling Fluid & Completion Fluid,(3):38-41,68.

Zhang Liting2013.Summary on the dam-break of tailing pond[J].Journal of Hydraulic Engineering44(5):594-600.

Zhang X X Qiao D P2014.The rheological properties and yield stress model of high-density slurry added with coarse sands[J].Applied Mechanics & Materials580-583:231-237.

Zhang X X Qiao D P2015.Simulation and experiment of pipeline transportation of high density filling slurry with coarse aggregates[J].Chinese Journal of Nonferrous Metals,25:258-267.

Zhou Keping Liu Fuping Hu Jianhua al et2013.Research of tailings dam-break disaster chain and chain-cutting disaster mitigation control technology[J].Journal of Catastrophology28(3):24-29.

常前发,2003.矿山固体废物的处理与处置[J].矿产保护与利用,(5):38-42.

常前发,2010.我国矿山尾矿综合利用和减排的新进展[J].金属矿山,(3):1-5,61.

杜先锋,2009.注浆工艺在充填钻孔施工固孔固井中的运用[J].新疆有色金属32(5):29,32.

侯国权,郭利杰,杨超,等,2014.高浓度全尾砂充填料浆流变特性试验研究[J].中国矿业,(增2):238-241.

胡亚军,南世卿,姚振巩,等,2011.全尾砂充填料浆管道输送试验研究[J].采矿技术11(6):20-22.

黄才启,2011.充填钻孔的关键要素与施工技术[J].探矿工程(岩土钻掘工程)38(10):66-69,73.

林宗寿,2012.水泥工艺学[M].武汉:武汉理工大学出版社.

王凤江,王来贵,2003.尾矿库灾害及其工程整治[J].中国地质灾害与防治学报,(3):79-83.

王又武,袁平,陈珂佳,等,2009.尾矿库溃坝有关问题探讨[J].工程建设41(5):35-41.

肖云涛,吴爱祥,翟永刚,等,2011.会泽铅锌矿膏体充填钻孔优化研究[J].金属矿山,(4):32-35.

杨柳华,王洪江,吴爱祥,等,2016.絮凝沉降对全尾砂料浆流变特性的影响[J].中南大学学报(自然科学版)47(10):3523-3529.

杨志强,陈得信,高谦,等,2016.粗骨料充填料浆长距离管道输送关键技术[J].广西大学学报(自然科学版)41(4):1306-1312.

姚振巩,2008.深井充填管道输送系统优化研究[J].矿业研究与开发2(28):7-9,53.

袁元勋,2017.膏体充填堵管爆管原因分析及防护措施[J].采矿技术17(4):39-40,101.

张景富,徐明,高丽丽,等,2003.温度及外加剂对水泥浆流变性的影响[J].钻井液与完井液,(3):38-41,68.

张力霆,2013.尾矿库溃坝研究综述[J].水利学报44(5):594-600.

周科平,刘福萍,胡建华,等,2013.尾矿库溃坝灾害链及断链减灾控制技术研究[J].灾害学28(3):24-29.

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