基于层次分析法-模糊综合评价模型的浅层地热能适宜性评价——以山东省昌乐县为例

doi:10.19388/j.zgdzdc.2022.02.09

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摘要层次分析法-模糊综合评价模型可有效解决传统评价分析方法难以对模糊概念进行定量评价以及受主观影响较大等问题,使评价结果更加合理、精确。综合选取单一岩体厚度、地下水埋深、含水层总厚度、地层岩性、导热系数、比热容和地温等7个评价因子,运用层次分析法-模糊综合评价模型对山东省昌乐县浅层地热能适宜性进行了评价,将研究区划分为适宜性中等区和适宜性差区,适宜性中等区面积为44.71 km²,适宜性差区面积为10.29 km²。结合昌乐县城市规划,将研究区进一步划分为一般开发区、鼓励开发区、大力发展区和限制开发区。研究区浅层地热能开发利用潜力较大,合理开发利用可带来巨大的经济和社会效益。

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	张承斌

关键词 ：浅层地热能, 适宜性分区, 模糊综合评价, 层次分析法

Abstract：Analytic hierarchy process (AHP)-fuzzy comprehensive evaluation model can be applied to effectively solve the problems caused by traditional evaluation methods, which are the difficulty in quantitative assessment and the subjective effects on fuzzy concept's, so that the evaluation results are more reasonable and accurate. The researchers in this paper have adopted 7 factors, including single rock mass, depth of groundwater, total thickness of aquifer, lithology of stratum, thermal conductivity, heat capacity and soil temperature, to evaluate the adaptability of shallow geothermal energy of Changle County in Shandong Province by AHP-fuzzy comprehensive evaluation model. The research area was divided into two subsections, including medium suitability areas of 44.71 km² and poor suitability areas of 10.29 km². The study areas were further divided into general development zone, encouraging development zone, vigorous development zone and restricted development zone, combined with the urban planning of Changle County. The shallow geothermal energy in the study area has the greater potential, and the reasonable development can bring huge economic and social benefits.

Key words： shallow geothermal energy suitability zoning fuzzy comprehensive evaluation AHP (analytic hierarchy process)

收稿日期: 2020-07-29

中图分类号:	P641
	P314

基金资助:山东省自然资源厅“山东省重点县(市、区)浅层地温能调查评价及示范工程建设(编号: SDGP370000201902002437)”项目资助

作者简介: 张承斌(1986—),男,硕士,工程师,主要从事水文地质调查评价工作。Email: 80246360@qq.com。

引用本文:

张承斌. 基于层次分析法-模糊综合评价模型的浅层地热能适宜性评价——以山东省昌乐县为例[J]. 中国地质调查, 2022, 9(2): 91-99.
ZHANG Chengbin. Suitability evaluation of shallow geothermal energy based on analytic hierarchy process and fuzzy comprehensive evaluation: A case study of Changle County in Shandong Province. , 2022, 9(2): 91-99.

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http://journal25.magtechjournal.com/Jwk_dzdc/CN/10.19388/j.zgdzdc.2022.02.09 或 http://journal25.magtechjournal.com/Jwk_dzdc/CN/Y2022/V9/I2/91

[1] 韩再生,冉伟彦,佟红兵,等.DZ/T 0225—2009浅层地热能勘查评价规范[S].北京:中国标准出版社,2009.
Han Z S,Ran W Y,Tong H B,et al.DZ/T 0225—2009 Specification for Shallow Geothermal Energy Investigation and Evalua-tion[S].Beijing:Standards Press of China,2009.
[2] 李卫洲.山东省临沂市浅层地热能特征及开发利用[D].北京:中国地质大学(北京),2019.
Li W Z.The Characteristics and Development of Shallow Geothermal Energy in Linyi City,Shandong Province[D].Beijing:China University of Geosciences (Beijing),2019.
[3] 卫万顺,李宁波,冉伟彦,等.浅层地温能开发利用中的关键问题研究[J].城市地质,2009,4(3):1-5.
Wei W S,Li N B,Ran W Y,et al.Study on the key problems of development and utilization of shallow geothermal energy[J].Urban Geol,2009,4(3):1-5.
[4] 卫万顺,郑桂森,冉伟彦,等.浅层地温能资源评价[M].北京:中国大地出版社,2010.
Wei W S,Zheng G S,Ran W Y,et al.Evaluation on Shallow Geothermal Energy Resources[M].Beijing:China Land Press,2010.
[5] 层次分析法[EB/OL].[2020-09-06].https://wiki.mbalib.com/wiki/层次分析法.
The analytic hierarchy process[EB/OL].[2020-09-06].https://wiki.mbalib.com/wiki//Theanalytic hierarchy process.
[6] 许苗娟,姜媛,谢振华,等.基于层次分析法的北京市平原区水源热泵适宜性分区研究[J].城市地质,2009,4(1):18-21.
Xu M J,Jiang Y,Xie Z H,et al.Study on division of the appropriate rank of water source heat pumps based on AHP in Beijing plain[J].Urban Geol,2009,4(1):18-21.
[7] 雷柏茂,李江燕,梁佩博,等.基于模糊综合评判和层次分析法的中子管故障风险评估[J].原子能科学技术,2019,53(11):2247-2256.
Lei B M,Li J Y,Liang P B,et al.Risk assessment of neutron tube failure based on fuzzy comprehensive evaluation and analytic hierarchy process[J].Atomic Energy Sci Technol,2019,53(11):2247-2256.
[8] 孙彦伟,常彬.茌平县浅层地热能开发利用方式适宜性研究[J].能源与环境,2019(3):19-20,22.
Sun Y W,Chang B.Study on the suitability of shallow geothermal energy development and utilization in Chiping County[J].Energy Environ,2019(3):19-20,22.
[9] 常建娥,蒋太立.层次分析法确定权重的研究[J].武汉理工大学学报:信息与管理工程版,2007,29(1):153-156.
Chang J E,Jiang T L.Research on the weight of coefficient through analytic hierarchy process[J].J Wuhan Univ Technol:Inform Manag Eng,2007,29(1):153-156.
[10] 符学葳.基于层次分析法的模糊综合评价研究和应用[D].哈尔滨:哈尔滨工业大学,2011.
Fu X W.The Research and Application of Fuzzy AHP[D].Harbin:Harbin Institute of Technology,2011.
[11] 丁家玲,叶金华.层次分析法和模糊综合评判在教师课堂教学质量评价中的应用[J].武汉大学学报:社会科学版,2003,56(2):241-245.
Ding J L,Ye J H.On AHP model and fuzzy judgement in evaluation of undergraduate teaching quality[J].Wuhan Univ J:Soc Sci,2003,56(2):241-245.
[12] 王树星,宋亮,梁云汉.淄博市周村区浅层地温能开发利用资源潜力评价[J].山东国土资源,2018,34(12):42-47.
Wang S X,Song L,Liang Y H.Potential evaluation of development and utilization of shallow geothermal energy in Zhoucun district of Zibo city[J].Shandong Land Resour,2018,34(12):42-47.
[13] 高志友,宁文峰,李宁.莱州市浅层地温能初步评价[J].化工矿产地质,2018,40(4):227-234.
Gao Z Y,Ning W F,Li N.Preliminary evaluation of shallow ground temperature energy in Laizhou City[J].Geol Chem Miner,2018,40(4):227-234.
[14] 胡彩萍.地埋管换热影响岩土体传热因素及热影响范围分析[J].山东国土资源,2017,33(8):51-57.
Hu C P.Analysis on heat transfer factors and thermal influence range of rock and soil influenced by heat transfer in underground pipe[J].Shandong Land Resour,2017,33(8):51-57.
[15] 金婧,席文娟,陈宇飞,等.基于AHP的浅层地热能适宜性分区评价[J].水资源与水工程学报,2012,23(3):91-93.
Jin J,Xi W J,Chen Y F,et al.Assessment of suitability of shallow geothermal energy based on AHP[J].J Water Resour Water Eng,2012,23(3):91-93.