Gold Science and Technology ›› 2020, Vol. 28 ›› Issue (2): 169-175.doi: 10.11872/j.issn.1005-2518.2020.02.132
Guoyan ZHAO1(),Ju QIU1,Yuan ZHAO1,Dianfei PEI2,Yang LI1,Pan WU1
CLC Number:
1 | 钱鸣高.绿色开采的概念与技术体系[J].煤炭科技,2003(4):1-3. |
Qian Minggao.Technology system and green mining concept[J].Coal Science and Technology Magazine,2003(4):1-3. | |
2 | 刘建兴,陈晃,王建法.金属矿山绿色开采综合评价方法及其应用研究[J].有色金属(矿山部分),2018,70(1):86-89. |
Liu Jianxing,Chen Huang,Wang Jianfa.Comprehensive evaluation method and application of green mining in metal mine[J].Non-ferrous Metals (Mine Section),2018,70(1):86-89. | |
3 | 付强,韩冰,侯韩芳,等.基于DEA方法的绿色矿山标准效果评估[J].标准科学,2017(8):43-46. |
Fu Qiang,Han Bing,Hou Hanfang,et al.Effect appraisal of standards for green mines based on DEA method[J].Standard Science,2017(8):43-46. | |
4 | 王杰民.绿色矿山建设评价指标与方法探讨[J].资源信息与工程,2018,33(6):45-46. |
Wang Jiemin.Discussion on evaluation indexes and methods of green mine construction[J].Resource Information and Engineering,2018,33(6):45-46. | |
5 | 梁灵鹏.绿色矿山建设综合评价研究[J].世界有色金属,2019(1):172-174. |
Liang Lingpeng.Study on comprehensive evaluation of green mine construction[J].World Nonferrous Metals,2019(1):172-174. | |
6 | 宋子岭,祁文辉,范军富,等.大型露天煤矿绿色开采评价体系研究[J].安全与环境学报,2017,17(3):1177-1182. |
Song Ziling,Qi Wenhui,Fan Junfu,et al.On the establishment of the evaluation system for green mining in large open-pit coal mines[J].Journal of Safety and Environment,2017,17(3):1177-1182. | |
7 | 缪海宾.大型露天煤矿绿色开采理论与评价方法[J].煤矿安全,2017,48(9):230-233. |
Miao Haibin.Theory and evaluation method of green mining in large open-pit coal mine[J].Safety in Coal Mines,2017,48(9):230-233. | |
8 | 周海林,杨珊,陈建宏.黄金矿山清洁生产评价指标体系研究与应用[J].黄金科学技术,2017,25(5):93-100. |
Zhou Hailin,Yang Shan,Chen Jianhong.Research and application of cleaner production evaluation index system in gold mine[J].Gold Science and Technology,2017,25(5):93-100. | |
9 | 陈伟清,张学垚,赵文超,等.基于粗糙集与变异系数法相结合的智慧交通评价体系研究[J].数学的实践与认识,2019,49(2):191-197. |
Chen Weiqing,Zhang Xueyao,Zhao Wenchao,et al. A study on the intelligent traffic evaluation system based on the combination of rough set and coefficient of variation [J].Mathematics in Practice and Theory,2019,49(2):191-197. | |
10 | 邓天奇.基于客观组合赋权的供水管网健康度多级综合评价模型研究[D].广州:广东工业大学,2018. |
Deng Tianqi.Research on Multi-level Comprehensive Evaluation Model of Health Degree of Water Distribution Network Based on Objective Combination and Weighting[D].Guangzhou:Guangdong University of Technology,2018. | |
11 | 胡娱欧.基于改进的模糊层次分析法的输电网规划综合评价研究[D].北京:华北电力大学(北京),2016. |
Hu Yu’ou.Study on Comprehensive Evaluation of Transmission Grid Planning Based on Improved Fuzzy-AHP[D].Beijing:North China Electric Power University(Beijing),2016. | |
12 | 王君莉.煤矿电气火灾危险性评价指标权重分配算法研究[J].煤矿机械,2017,38(7):40-42. |
Wang Junli.Weight assignment of evaluation indexes for electrical fire of coal mine[J].Coal Mine Machinery,2017,38(7):40-42. | |
13 | 许军良,苏律文,仲晓林,等.基于博弈论思想的河流健康指标权重分配研究[J].江苏水利,2018(12):14-19. |
Xu Junliang,Su Lüwen,Zhong Xiaolin,et al.Study on weight distribution of river health index based on game theory[J].Jiangsu Water Resources,2018(12):14-19. | |
14 | 龚大立.组合赋权法在煤矿安全风险分析中的应用[J].工矿自动化,2018,44(10):94-99. |
Gong Dali.Application of combination weighting method in coal mine safety risk analysis[J].Industry and Mine Automation,2018,44(10):94-99. | |
15 | 李小伟,徐以艳,郭飞,等.基于主客观综合赋权的矿业遗迹可拓学评价[J].三峡大学学报(自然科学版),2018,40(6):71-74. |
Li Xiaowei,Xu Yiyan,Guo Fei,et al.Extension evaluation of mine heritages based on objective and subjective synthetic approach[J].Journal of China Three Gorges Uni-versity(Natural Sciences),2018,40 (6):71-74. | |
16 | 张振兴,刘艳辉,袁广祥.地质灾害承灾载体脆弱性评价方法综述[J].中国地质灾害与防治学报,2018,29(3):90-100. |
Zhang Zhenxing,Liu Yanhui,Yuan Guangxiang.Reviews on vulnerability assessment methods for geo-hazards[J].The Chinese Journal of Geological Hazard and Control,2018,29(3):90-100. | |
17 | 沃尔夫冈·哈德勒,利奥波德·西马.应用多元统计分析[M].陈诗一,译.2版.北京:北京大学出版社,2010:220-225. |
Hadler Wolfgang,Simma Leopold.Applied multivariate statistical analysis[M]. Liu Shiyi,trans.2nd ed.Beijing:Peking University Press,2010:220-225. | |
18 | 林漫冰,李雄英,黄绮雯.基于因子分析的我国区域经济发展水平研究[J].经济数学,2018,35(4):68-72. |
Lin Manbing,Li Xiongying,Huang Qiwen.Research on regional economic development level based on factor analysis[J].Journal of Quantitative Economic,2018,35(4):68-72. | |
19 | 高瑾瑾,郑源,李涧鸣.抽水蓄能电站技术经济效益指标体系综合评价研究[J].水利水电技术,2018,49(7):152-158. |
Gao Jinjin,Zheng Yuan,Li Jianming.Study on comprehensive evaluation of tech-economic benefit index sys-tem of pumped storage hydropower station[J].Water Resour-ces and Hydropower Technology,2018,49(7):152-158. | |
20 | 陈华,林华忠,靳爱仙,等.基于物元分析法的将乐国有林场用材林质量评价研究[J].林业资源管理,2018(5):82-89. |
Chen Hua,Lin Huazhong,Jin Aixian,et al.Evaluation of the quality of timber forest in Jiangle state-owned forest farm based on matter-element analysis[J].Forest Resources Management,2018(5):82-89. | |
21 | 杨聪,夏学成,黎铁冰,等.K-均值聚类分析法在目标威胁评估中的合理性检验[J].舰船电子工程,2017,37(11):21-23,86. |
Yang Cong,Xia Xuecheng,Li Tiebing,et al.Analysis of rationality of K-means cluster analysis in target threat assessment[J].Ship Electronic Engineering,2017,37(11):21-23,86. | |
22 | 赵文斌,许梦国,程爱平,等.程潮铁矿深部开采岩爆致灾因素分析[J].矿业研究与开发,2019,39(4):59-64. |
Zhao Wenbin,Xu Mengguo,Cheng Aiping,et al.Analysis of rock burst disaster factors in deep mining of Chengchao Iron Mine[J].Mining Research and Development,2019,39(4):59-64. |
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