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Gold Science and Technology ›› 2023, Vol. 31 ›› Issue (4): 635-645.doi: 10.11872/j.issn.1005-2518.2023.04.018

• Mining Technology and Mine Management • Previous Articles     Next Articles

Comprehensive Evaluation of Green Mine Construction in Gold Industry Based on DPSIR Model

Wei YANG1,2,3(),Mengge XUE1,2,3(),Tao LONG1,2,3,Sha DENG1,2,3,Bo DENG1,2,3,Nan FANG1,2,3   

  1. 1.School of Resources Engineering, Xi’an University of Architecture and Technology, Xi’an 710055, Shaanxi, China
    2.Key Laboratory of Gold and Resources in Shaanxi Province, Xi’an 710055, Shaanxi, China
    3.Technology & Equipment Institute of Green Beneficiation-Metallurgy, Xi’an University of Architecture and Te-chnology, Xi’an 710055, Shaanxi, China
  • Received:2023-02-02 Revised:2023-04-08 Online:2023-08-30 Published:2023-09-20
  • Contact: Mengge XUE E-mail:ywmsco@126.com;1366385133@qq.com

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Abstract:

At present,the evaluation system and methods of green mine construction in the gold industry are not perfect.On the one hand,in most studies,when establishing the index system,the internal relations between indicators were ignored,and only the influencing factors related to green mine construction in general were listed.On the other hand,most of the models lack completeness when establishing the evaluation model, they only evaluate the construction results at a certain time point without showing the change trend of the construction process.Based on the framework model of driving forces,pressure,state,impact and response,the evaluation index system of green mines in gold industry was constructed to express the internal relationship between indicators more intuitively.In building the evaluation model,the subjective and objective combination weighting method was introduced so as to make the index weight meet the subjective expectations of the decision-makers and the objective judgment requirements of the inconsistency between the indicators.The TOPSIS coupling coordination model was introduced to quantitatively evaluate the space-time evolution process of green mine construction and the coupling coordination among subsystems,and the main obstacle factors affecting the green mine construction of enterprises were analyzed,providing guidance countermeasures for the improvement of green mine construction of enterprises.Through the analysis of an actual case of a gold mine in Shaanxi Province,it is concluded that the green mine construction of the general system of the mine and the coupling and coordination degree between the subsystems are steadily increasing,the construction of each subsystem is fluctuating.The industrial production capacity(C1),the energy consumption(C5),the mine environment(C9),and the mineral processing(C11) are the main obstacles in the construction process,which are consistent with the actual construction of the mine,and the applicability of the model is verified.The evaluation index system established in this paper clarifies the function mechanism of each index of green mine construction,which helps enterprises flexibly respond to a series of related factor changes caused by a certain index change.The established evaluation model improves the defect of subjective influence on the evaluation results in the traditional evaluation,highlights the internal connection and coordination between the evaluation indicators,makes the evaluation process and results more fair and reliable,and provides an effective way to promote the sustainable development of the gold industry mining industry.

Key words: green mine, evaluation index system, DPSIR framework model, combination weighting, TOPSIS coupling coordination evaluation, main obstacle factors

CLC Number: 

  • F205

Fig.1

Green mine construction evaluation system based on DPSIR framework"

Fig.2

Flow chart of green mine assessment based on DPSIR framework"

Fig.3

Green mine evaluation index system"

Table 1

Classification criteria of coupling coordination degree"

耦合协调度D值区间协调等级耦合协调程度
(0.0~0.11极度失调
[0.1~0.22严重失调
[0.2~0.33中度失调
[0.3~0.44轻度失调
[0.4~0.55濒临失调
[0.5~0.66勉强协调
[0.6~0.77初级协调
[0.7~0.88中级协调
[0.8~0.99良好协调
[0.9~1.010优质协调

Table 2

Calculation results of subjective weight and objective weight"

一级指标主观权重(AHP法)客观权重(CRITIC法)一级指标主观权重(AHP法)客观权重(CRITIC法)
驱动力0.25810.2382影响0.12000.1381
压力0.22810.1773响应0.09440.2437
状态0.29950.2027

Fig.4

Comparison of secondary indicator weights"

Table 3

Calculation results of comprehensive weight of evaluation indicators"

目标层准则层一级指标综合权重指标层指标层权重AHP主观权重CRITIC客观权重二级指标综合权重
AB10.2370C10.41270.10320.12930.1110
C20.19790.05160.04100.0484
C30.19320.05160.03380.0463
C40.19620.05160.03410.0464
B20.2163C50.38360.08060.02880.0651
C60.30230.08060.08150.0809
C70.16860.03680.03350.0358
C80.14550.03000.03350.0311
B30.2604C90.31950.10500.03410.0837
C100.32070.10500.03550.0842
C110.22850.05680.09100.0671
C120.13130.03280.04210.0356
B40.1512C130.37760.05880.06660.0611
C140.24210.03740.03350.0362
C150.38030.02370.03800.0280
B50.1349C160.23200.03150.02980.0310
C170.24030.03150.03770.0334
C180.16990.01050.03550.0180
C190.13430.01050.04100.0197
C200.22320.01050.09970.0373

Table 4

Comprehensive assessment results of green mine construction of one gold mine from 2017 to 2021"

年份正理想解距离负理想解距离相对贴近度
20170.6600.4140.385
20180.6280.4560.420
20190.5420.5380.498
20200.4000.7320.646
20210.3980.7420.651

Fig.5

Change trend of closeness degree of each subsystem from 2017 to 2021"

Fig.6

Change trend of coupling co-scheduling from 2017 to 2021"

Table 5

Analysis results of obstacles of evaluation indicators from 2017 to 2021"

年份障碍因子1障碍因子2障碍因子3障碍因子4
因子编号因子得分因子编号因子得分因子编号因子得分因子编号因子得分
2017C100.0937C90.0932C10.0734C50.0724
2018C10.1196C90.0980C60.0947C110.0785
2019C10.1813C90.1105C110.1079C150.0673
2020C10.4515C60.2349C20.0985C90.0681
2021C130.3763C200.3328C110.2909C50.1892
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