img

Wechat

Adv. Search

Gold Science and Technology ›› 2022, Vol. 30 ›› Issue (6): 968-977.doi: 10.11872/j.issn.1005-2518.2022.06.087

• Mining Technology and Mine Management • Previous Articles    

Development and Application of Husab Mine Production Technology Collaboration Platform

Wenming DONG1(),Qiren TAN2()   

  1. 1.CGNPC Uranium Resources Co. , Ltd. , Beijing 100029, China
    2.Changsha Digital Mine Co. , Ltd. , Changsha 410083, Hunan China
  • Received:2022-07-12 Revised:2022-09-27 Online:2022-12-31 Published:2023-01-06
  • Contact: Qiren TAN E-mail:dongwenming@cgnpc.com.cn;kmhtqr@sina.cn

Abstract:

In recent years,with the rapid development of computer technology,network technology and database technology,the mining industry is accelerating the construction of digitalization,informatization and intelligence.In the construction process,due to the lack of top-level design and overall planning in most mines,and the lack of standardized data processing,multi-source heterogeneous data generated by various systems in the construction process cannot be shared,and it is difficult to achieve the comprehensive utilization of data.In view of the current problems in data circulation,management,sharing and utilization in Husab mine,by sorting out the production business process specifications and data management standards of geology,mining and hydrometallurgy,a digital processing mode suitable for cross professional business processes was proposed,and a production technology collaboration platform for workflow standardization,business data standardization and data processing automation was developed.The professional business processes of geology,mining and hydrometallurgy were solidified into the system,and the business data of each specialty are stored in the central database according to the standards,and transferred on the same platform according to the process.The outcome data of the previous node in the process is the input data of the next node,and the outcome data of one process among processes is the input data of another process,so as to realize data collaboration and sharing among the professional production businesses in the mine site.The platform provides a unified digital work platform for mine production management,and realizes the integration,standardization and convenience of production business management.Through two-level deployment and database synchronization technology,data sharing and backup between foreign mine sites and domestic company headquarters are realized,ensuring the safety of enterprise data assets.The application results show that the platform connects the data generated by each business through the process and stores them uniformly through the central database according to the standard,realizing efficient data transfer among geological,mining and hydrometallurgical businesses and automatic processing of indicator report data,greatly reducing the data processing time and error rate,and greatly improving the efficiency of team cooperation.In addition,it has completely changed the situation of “waiting,relying,and demanding” data acquisition of domestic company headquarters.Through the distributed platform,all kinds of data needed can be queried at any time,so as to timely grasp the production situation of Husab mine,which is conducive to giving play to the technical advantages of the domestic expert team,helping the mine solve the technical management problems encountered in production,and effectively improving the economic benefits of the mine.The development and application of Husab mine production technology collaboration platform provides a reference for cross department and cross region data on collaboration and sharing.

Key words: Husab mine, production technology collaboration platform, central database, data sharing, data collaboration, digital mine

CLC Number: 

  • TD672

Fig.1

Overall architecture of the production technology collaboration platform"

Fig.2

System deployment architecture of production technology collaboration platform"

Fig.3

Data architecture of production technology collaboration platform"

Fig.4

Functional architecture of production technology collaboration platform"

Table 1

External properties of predictive bench model"

序号属性说明
1Zone记录模型属于的矿坑区域
2Period

记录模型属于的开采阶段

(如Z1S1、Z1S2、…)

3Bench记录模型所属的台阶
4Type

记录模型所属的类型

(如台阶预测模型、资源模型)

5Version记录模型的版本
6Upload time记录模型上传的时间
7Upload_by记录模型上传的人员
8Feature class记录文件所属的部门

Fig.5

Flow chart of block division business"

Fig.6

Flow definition of block design business"

Fig.7

Initiation interface of block division process"

Fig.8

Handling interface of block division process"

Fig.9

Daily production overview dashboard of Husab mine"

Fig.10

Mobile terminal indicator dashboard"

Bi Lin, Wang Jinmiao,2019.Construction target,task and method of digital mine[J].Metal Mine,48(6):148-156.
Chen Gaoxiang,2019.The application of information technology in the construction of intelligent mines-Comment on the《Internet of Thing in Mining:Foundment and Application》[J].Mining Research and Development,39(9):150.
Chen Xin, Gao Feng, Xie Xionghui,et al,2021.Development and application of collaborative platform for mine production technology[J].Gold Science and Technology,29(3):449-456.
Dong Zhifu, Zhai Huichao, Ji Xianwei,et al,2020.Thoughts on digital mine construction in Beiya open-pit gold mine[J].Mining and Metallurgy,29(6):10-15.
Guan Jian, Hou Jiang, Su Yanru,et al,2017.Development ideas for digital uranium mine[J].Uranium Mining and Metallurgy,36(4):241-247.
Guo Haokun, Zhou Jinyu, Niu Yingjie,2018.Key technology analysis of 3D digital mine system construction [J].World Nonferrous Metals,(8):69-70.
He Shenzhong, Wang Liujun, Bi Lin,et al,2019.Discussion on the construction of Quanjiao digital and intelligent mine in CONCH[J].Modern Mining,35(4):1-5.
Li Fengying, Ji Xianwei,2022.Top-level architecture design and intelligent construction practice of digital transformation of Yunnan Gold Group[J].Nonferrous Metals(Mining Section),74(3):1-9.
Li Guoqing, Wang Hao, Hou Jie,et al,2021.Progress of intelligent technology in underground metal mines[J].Metal Mine,50(11):1-12.
Liu Jilin, Tan Bifeng,2021.Application practice of digital mining technology in Tongjie-Manjiazhai open-pit mine[J].Gold,42(1):50-54.
Mao Xinlei, Gao Sheng, Wang Likun,et al,2022.Application of safety production management system in an in-situ leaching uranium mine[J].Uranium Mining and Metallurgy,41(2):149-154.
Song Tianren,2020.Application of information technology in safety production of Heidaigou open-pit mine[J].Opencast Mining Technology,35(3):59-61,66.
Tan Zhanglu, Wu Qi,2022.Analysis of the problems of smart mine construction based on the layer-level-chain reference model[J].Journal of Mining Science and Technology,7(2):257-266.
Tan Zhenghua, Li Guotai, Wen Yang,2021.Research and application of digital mining collaborative technology based on JSON[J].Gold Science and Technology,29(5):719-728.
Wei Jinglong,2021.Research on intelligent mine construction[J].Industry and Mine Automation,47(Supp.1):19-20.
Wu Diwen, Kou Xiangyu,2016.Research on merge construction of digital mine and“Six Systems”[J].Mining Research and Development,36(10):120-123.
Wu Qinzheng, Li Runran, Li Guilin,et al,2021.Optimization of millisecond delay blasting time in open pit mine based on JKSimBlast software[J].Gold Science and Technology,29(6):854-862.
Wu Qunying, Jiang Lin, Wang Guofa,et al,2020.Top-level architecture design and key technologies of smart mine[J].Coal Science and Technology,48(7):80-91.
Yu Runcang, Liu Cheng, Zhu Ruijun,et al,2018.Mine information model-the development direction of mining informatization[J].China Mine Engineering,47(5):1-3,13.
Zhang Huaifeng, Lu Jianjun,2018.Geological characteristics,ore-controlling factors and genesis analysis of Husab uranium deposit in Namibia[J].Global Geology,37(1):105-123.
Zhang Jinzhong, Zhang Xiaorui, Zhu Xinyue,2021.Application of shared data platform to the digital mine construction of NFC Africa Mining PLC[J].Gold,42(12):49-52.
毕林,王晋淼,2019.数字矿山建设目标、任务与方法[J].金属矿山,48(6):148-156.
陈高祥,2019.信息化技术在智能矿山建设中的应用——评《感知矿山理论与应用》[J].矿业研究与开发,39(9):150.
陈鑫,高峰,谢雄辉,等,2021.矿山生产技术协同平台研发与应用[J].黄金科学技术,29(3):449-456.
董志富,翟会超,季现伟,等,2020.关于北衙露天金矿数字矿山建设的思考[J].矿冶,29(6):10-15.
关键,侯江,苏艳茹,等,2017.数字铀矿山发展思路[J].铀矿冶,36(4):241-247.
郭豪坤,周瑾钰,牛英杰,2018.三维数字矿山系统建设之关键技术分析[J].世界有色金属,(8):69-70.
何申中,王留俊,毕林,等,2019.海螺集团全椒数字化智能矿山建设探讨[J].现代矿业,35(4):1-5.
李凤英,季现伟,2022.云南黄金集团数字化转型顶层设计及智能化建设实践[J].有色金属(矿山部分),74(3):1-9.
李国清,王浩,侯杰,等,2021.地下金属矿山智能化技术进展[J].金属矿山,50(11):1-12.
刘佶林,谭碧峰,2021.数字矿山技术在铜曼露天矿的应用实践[J].黄金,42(1):50-54.
毛鑫磊,高生,王丽坤,等,2022.安全生产管理系统在某地浸采铀矿山的应用[J].铀矿冶,41(2):149-154.
宋天仁,2020.信息化技术在黑岱沟露天矿安全生产中的应用[J].露天采矿技术,35(3):59-61,66.
谭章禄,吴琦,2022.基于层级链参考模型的智慧矿山建设问题分析[J].矿业科学学报,7(2):257-266.
谭正华,李国泰,文阳,2021.基于JSON的数字采矿协同技术研究及应用[J].黄金科学技术,29(5):719-728.
魏景龙,2021.智能矿山建设研究[J].工矿自动化,47(增1):19-20.
吴玓文,寇向宇,2016.数字矿山与“六大系统”的融合建设研究[J].矿业研究与开发,36(10):120-123.
吴钦正,李润然,李桂林,等,2021.基于JKSimBlast软件的露天矿爆破毫秒延期时间优化[J].黄金科学技术,29(6):854-862.
吴群英,蒋林,王国法,等,2020.智慧矿山顶层架构设计及其关键技术[J].煤炭科学技术,48(7):80-91.
于润沧,刘诚,朱瑞军,等,2018.矿山信息模型——矿业信息化的发展方向[J].中国矿山工程,47(5):1-3,13.
张怀峰,陆建军,2018.纳米比亚湖山铀矿地质特征、控矿因素及其成因探讨[J].世界地质,37(1):105-123.
张金钟,张小瑞,朱欣月,2021.数据共享平台在中色非洲矿业数字化矿山建设中的应用[J].黄金,42(12):49-52.
[1] Tiandong SHI,Lin BI. Research on Automatic Extraction Method of Top and Bottom Line of Open-Pit Slope Based on DEM [J]. Gold Science and Technology, 2021, 29(4): 612-619.
[2] Xin CHEN,Feng GAO,Xionghui XIE,Du MAO,Tianyi MA. Development and Application of Collaborative Platform for Mine Production Technology [J]. Gold Science and Technology, 2021, 29(3): 449-456.
[3] Bingbing ZHANG,Hong YU,Zhonglei ZHANG,Zhanjun LI,Xiaorong CUI. Digital and Fine Management Practice of Open-pit Mining and Stripping Construction [J]. Gold Science and Technology, 2019, 27(4): 621-628.
[4] YIN Kaizhou,YANG Zhaolin,XU Bin. Management System Innovation for 3D Mining Software Popularization and Application in Mining Enterprises in China [J]. Gold Science and Technology, 2018, 26(1): 98-104.
[5] WEI Kailin,WANG Zhenjun,BAN Junkui,WANG Yuankui,YANG Hong,WU Zhiming. The Application of Surpac Software in Sanshandao Gold Mine [J]. J4, 2011, 19(5): 72-75.
[6] BAI Bi-Xin, WANG Shan-Gong, AN Zhi-Hai. Research and Application of Underground Mining Exploiting 3D Visualization System in Xinhui Gold Mine [J]. J4, 2011, 19(1): 55-57.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
No Suggested Reading articles found!