Application of Improved Fuzzy-Set Pair Analysis in Mine Water Environmental Quality Evaluation
PDF

Keywords

The mine water resources; Water quality evaluation; Improvement in Nemerow index method; Fuzzy -SPA method.

How to Cite

1.
Longqing S, Li H, Peihe Z. Application of Improved Fuzzy-Set Pair Analysis in Mine Water Environmental Quality Evaluation. Glob. J. Earth Sci. Eng. [Internet]. 2021Oct.6 [cited 2022Jan.16];8:35-44. Available from: https://www.avantipublishers.com/jms/index.php/gjese/article/view/1062
Received 2021-08-16
Accepted 2021-09-27
Published 2021-10-06

Abstract

Mine water is an important water resource, mine water resource is of great significance to realize the sustainable development of economy and society, and the evaluation of water quality is an important link of mine water resource. This paper will be improved in Nemerow index method is applied to the fuzzy-set pair analysis method of composite algorithm, and the water quality evaluation of Kongzhuang Mine in Xuzhou is carried out. Finally, compared with the evaluation results of set pair analysis method and grey clustering method, it is shown that the evaluation results of this method are reasonable and scientific, which can provide reliable basis for the utilization of mine water resources.

https://doi.org/10.15377/2409-5710.2021.08.3
PDF

References

Liu LM, Lian CJ, et al. Underground mine water disposal method and water supply system [j]. Coal Engineering. 2003; (09): 58-60.

Wang HD. Treatment and Utilization of Mine Water [j]. Energy and Energy Conservation. 2011; (03): 74-75.

Mao WD, Zhou RL, et al. Zero liquid discharge treatment technology and application for coal mine drainage water [j]. Coal Science and Technology, 2017, 45(11): 205-210.

Du SS, Wang HQ, et al. Improved Modal Model of Groundwater Quality Evaluation Based on Artificial Neural Network [j]. Journal of Beijing Normal University(Natural Science), 2014; 50(4): 424-428.

Yue DD, Liang HT, et al. Application of BP artificial neural network model in groundwater quality evaluation of west Anshan Iron Mine [j]. The Administration and Technique of Environmental Monitoring, 2016; 28(4): 23-24.

Xie WP, Yang L, et al. Application and Analysis of Different Water Quality Evaluation Methods for the Caoqiao River [j]. The Administration and Technique of Environmental Monitoring, 2013; 25(02): 62-66.

Ws S, Xa Q, et al. Groundwater quality Classification for Abandoned Mine Based on Fuzzy Comprehensive Evaluation [j]. China Mining Magazine, 2021; 30(02): 167-171.

Li XL, Wang LG, et al. Improvement and Application of Fuzzy Comprehensive Evaluation Method for Mine Water Quality [j]. Journal of Water Resources and Water Engineering, 2009; 20(05): 5-8.

Dong Y, Li J, et al. Application of Grey Clustering Method Based on Level Eigenvalue in Water Quality Evaluation of Yellow River [J]. Environmental Science and Management, 2019; 44(10): 175-179.

Yin SS, Zhu YM. Comprehensive Assessment of Water Quality by Using Gray-clustering Law and Artificial Neural Network [J]. Journal of Green Science and Technology, 2014; (03): 75-78.

Zhang YB, Si XL. Quality Assessment of Surface Water Environment Based on Improved Grey Correlation Metho [J]. Yellow River, 2017; 39(11): 109-111+127.

Gang ST, Jia T, et al. Assessment of Groundwater Quality in Hamatong Drainage Basin by Using Model of Set Pair Analysis Based on Entropy Weight Method [j]. Journal of Yangtze River Scientific Research Institute, 2018; 35(9): 23-27.

Meng CC. Comprehensive Assessment on the Water Environment Quality of Surface-Based on Set Pair Analysis-Variable Fuzzy Set Model [j]. Journal of Anhui Agricultural Science, 2010; 38(22): 11897-11899.

Li T. Application of grey clustering method in a comprehensive evaluation of mine water quality [j]. Light Industry Science and Technology, 2017; (11): 100-101.

GB/T 14848-2017, The Groundwater Quality Standard [S].

Li KQ. Set Pair Analysis and Its Preliminary Application [j]. Discovery of Nature, 1994; (01): 67-72.

Liu Q, Wang M, et al. The application of set pair analysis in groundwater quality evaluation was analyzed [J]. China Standardization, 2019; (20): 107-108.

Wu DJ, Wang JS, Ding AZ. Comparison of Two Methods of Determining Index Weight During Groundwater Quality Assessment [j]. Geotechnical Investigation and Surveying, 2006; (07): 17-22+34+31.

Lai ZW, Mao ZY, et al. Water Quality Evaluation Method Based on Entropy Weight-Partial Order Set [j]. Journal of Yangtze River Scientific Research Institute, 2021; 38(03): 32-38.

Hu QJ. Application of attribute recognition model based on superstandard multiple method in surface water quality evaluation [j]. Jiangsu Water Resources, 2021; (05): 31-36.

Li S, Xu D, et al. Application of Improved Nemerow Index Method in Reservoir Water Quality Evaluation [j]. Science Technology and Engineering, 2020; 20(31): 13079-13084.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2021 He Li, Shi Longqing, Zhai Peihe