Evaluation of shallow geothermal energy resources in the Beijing-Tianjin-Hebei Plain based on land use

Ruo-xi Yuan; Gui-ling Wang; Feng Liu; Wei Zhang; Wan-li Wang; Sheng-wei Cao

doi:10.19637/j.cnki.2305-7068.2021.02.005

Volume 9 Issue 2

Jun. 2021

Turn off MathJax

Article Contents

Article Navigation > Journal of Groundwater Science and Engineering > 2021 > 9(2): 129-139

Ruo-xi Yuan, Gui-ling Wang, Feng Liu, et al. 2021: Evaluation of shallow geothermal energy resources in the Beijing-Tianjin-Hebei Plain based on land use. Journal of Groundwater Science and Engineering, 9(2): 129-139. doi: 10.19637/j.cnki.2305-7068.2021.02.005

Citation:

Ruo-xi Yuan, Gui-ling Wang, Feng Liu, et al. 2021: Evaluation of shallow geothermal energy resources in the Beijing-Tianjin-Hebei Plain based on land use. Journal of Groundwater Science and Engineering, 9(2): 129-139. doi: 10.19637/j.cnki.2305-7068.2021.02.005

Citation:

PDF( 13840 KB)

Evaluation of shallow geothermal energy resources in the Beijing-Tianjin-Hebei Plain based on land use

doi: 10.19637/j.cnki.2305-7068.2021.02.005

Ruo-xi Yuan^{1, 2
,},
Gui-ling Wang^{1, 2},
Feng Liu^{1, 2},
Wei Zhang^{1, 2},
Wan-li Wang^{1, 2
,
,},
Sheng-wei Cao¹

1.
Institute of Hydrogeology and Environmental Geology, Chinese Academy of Geological Sciences, Shijiazhuang 050061, China
2.
Technology Innovation Center for Geothermal & Hot Dry Rock Exploration and Development, Ministry of Natural Resources, Shijiazhuang 050061, China

More Information

Author Bio:
Yuan Ruoxi, female, born in 1992, master's degree, mainly engaged in research and evaluation of geothermal resources; Email: 234408031@qq.com
Corresponding author: wanliwang2010@163.com
Received Date: 2020-12-08
Accepted Date: 2021-02-28

Available Online: 2021-08-04

Publish Date: 2021-06-28

Abstract

Abstract

To discover the characteristics, distribution and potential of shallow geothermal energy in the Beijing-Tianjin-Hebei Plain area. This paper, based on a large amount of data collection and field investigations, evaluateed the shallow-layer geothermal energy in the study area through the analytic hierarchy process and comprehensive index method. Based on suitability zoning results superimposed with 1:100000 land use data, the study area is divided into encouraged, controlled, restricted and prospective mining areas regarding the development of shallow geothermal energy, and the economic availability of shallow geothermal energy in the encouraged and controlled areas are evaluated. The results show that the shallow geothermal energy in the Beijing-Tianjin-Hebei Plain can meet the heating and cooling demand of 6×10⁸ m² of buildings, equivalent to 1.15×10⁷ t of standard coal, thus reducing carbon dioxide emissions by 2.73×10⁷ t and reducing sulfur dioxide emissions by 1.95×10⁵ t. According to the development and utilization mode, the energy demand level and the Beijing-Tianjin-Hebei coordinated development plan, the development and utilization of geothermal resources in the plain area has two types: Urban concentrated mining areas and rural scattered mining areas. The scale and level of intensive utilization of regional geothermal resources are of great significance.
- Beijing-tianjin-hebei plain,
- Shallow geothermal energy resources,
- Land use,
- Suitability evaluation

FullText(HTML)

References(23)

References

China Geological Survey. Handbook of Hydrogeology(Second Edition). 2012. Beijing: Geological Publishing House. (in Chinese)

Francesco T, Sara K, Mohame E, et al. 2018. Suitability evaluation of specific shallow geothermal technologies using a GIS-Based multi criteria decision analysis implementing the analytic hierarchic process. Energies, 11(2): 457. doi: 10.3390/en11020457

Guan Y, Wei YX, Chen XF, et al. 2014. Methodological study of suitability zoning of shallow geothermal development and utilization-with shallow geothermal energy investigation and assessment as example. Geology of Anhui, 24(1): 28-31. (in Chinese)

Lin WJ. 2012a. The study of thermal regulation and storage capacity in shallow geological environment and it’s availability. Chinese Academy of Geological Sciences. (in Chinese)

Lin WJ, Wu QH, Wang GL. 2012b. Shallow geothermal energy resource potential evaluation and environmental effect in China. Journal of Arid Land Resources and Environment, 26(3): 58-61. (in Chinese)

Long XT, Yuan RQ, Pi JG, et al. 2016. Survey and evaluation of shallow geothermal energy in Changsha. Journal of Natural Resources, 31(1): 163-176. (in Chinese)

Luo J, Joachim Rohn, Wei X, et al. 2016. A review of ground investigations for ground source heat pump (GSHP) systems. Energy and Buildings, 117: 160-175. doi: 10.1016/j.enbuild.2016.02.038

Ma F, Wang XY, Wang GL, et al. 2015. Analysis of the potential and development prospects of shallow geothermal energy and hot dry rock resources. Science & Technology Review, 33(19): 49-53.

Saaty TL. 1990. How to make a decision: The analytic hierarchy process. European Journal of Operational Research, 48(1): 9-26. doi: 10.1287/inte.24.6.19

Somogyi V, Sebestyen V, Nagy G. 2017. Scientific achievements and regulation of shallow geothermal systems in six European countries-A review. Renewable and Sustainable Energy Reviews, 68(2): 934-952. doi: 10.1016/j.rser.2016.02.014i

Standards of the Geological Mining Industry of the People's Republic of China. Specification for Shallow Geothermal Energy Investigation and Evaluation (DZ/T0225-2009). Beijing: Ministry of Land and Resources of the People’s Republic of China. (in Chinese)

Wang GL, Zhang W, Liang JY, et al. 2017a. Evaluation of Geothermal Resources Potential in China. Acta Geoscientica Sinica, 38(4): 449-459. (in Chinese)

Wang GL, Zhang W, Lin WJ, et al. 2017b. Research on formation mode and development potential of geothermal resources in Beijing-Tianjin-Hebei region. Geology in China, 44(6): 1074-1085. (in Chinese)

Wang GL. 2018. Atlas of shallow geothermal energy in major cities of China. Science Press. (in Chinese)

Wang GL, Liu YG, Zhu X, et al. 2020. The status and deveiopment of geothermal resources in China. Earth Science Frontiers, 27(1): 001-009. (in Chinese)

Wang WL, Wang GL, Zhu X, et al. 2017. Characteristics and potential of shallow geothermal resources in provincial capital cities of China. Geology in China, 44(6): 1062-1073. (in Chinese)

Wei WS, Zheng JS, Li WW, et al. 2010. Evaluation of shallow geothermal energy resources. China Cartographic Publishing House. (in Chinese)

Wu Y. 2014. The research on environmental problems and key technologies of shallow geothermal energy. China University of Geosiences. (in Chinese)

Xing H, Di YS, Yong Y. 2019. Analysis on the law of occurrence of shallow geothermal energy in Zhoukou City of Henan Province, China. Journal of Groundwater Science and Engineering, 7(3): 282-287. doi: 10.19637/j.cnki.2305-7068.2019.03.008

Yuan RX, Liu F. 2020. The assessment of shallow geothermal resources in Beijing-Tianjin-Hebei region promotes the development of green energy in this Area. News Letters of China Geological Survey, 6(3): 17-21. (in Chinese)

Zhang ZJ, Fei YH. 2009. Atlas of groundwater sustainable utilization in north china plain. China Cartographic Publishing House.

Zhu X, Zhang QL, Wang WL, et al. 2015. Study on the influencing factors of rock-soil thermophysical parameters in shallow geothermal energy. Journal of Groundwater Science and Engineering, 3(3): 256-267.

Zhu X, Zhang QL, Wang GL, et al. 2018. Evaluation of shallow geothermal resources in Hebei Province. China Energy and Environmental Protection, 40(10): 127-131. (in Chinese)

Relative Articles

[1]	Hui-feng Yang, Rui-fang Meng, Xi-lin Bao, Wen-geng Cao, Ze-yan Li, Bu-yun Xu, 2022: Assessment of water level threshold for groundwater restoration and over-exploitation remediation the Beijing-Tianjin-Hebei Plain, Journal of Groundwater Science and Engineering, 10, 113-127. doi: 10.19637/j.cnki.2305-7068.2022.02.002
[2]	Mohammad Tofayal Ahmed, Minhaj Uddin Monir, Md Yeasir Hasan, Md Mominur Rahman, Md Shamiul Islam Rifat, Md Naim Islam, Abu Shamim Khan, Md Mizanur Rahman, Md Shajidul Islam, 2020: Hydro-geochemical evaluation of groundwater with studies on water quality index and suitability for drinking in Sagardari, Jashore, Journal of Groundwater Science and Engineering, 8, 259-273. doi: 10.19637/j.cnki.2305-7068.2020.03.006
[3]	ZHOU Bo, WEI Shan-ming, WANG Tao, NIE Yu-peng, WANG Chuan-qi, 2019: Discussion on establishing monitoring networks for temperature fields of shallow thermal energy in Shandong, China, Journal of Groundwater Science and Engineering, 7, 86-93. doi: 10.19637/j.cnki.2305-7068.2019.01.009
[4]	FENG Jian-yun, ZHANG Ying, HE Zhi-liang, SUN Zi-ming, LUO Jun, 2019: Discussion on evaluation methodology of hydrothermal geothermal reservoir, Journal of Groundwater Science and Engineering, 7, 29-41. doi: 10.19637/j.cnki.2305-7068.2019.01.003
[5]	XING Hui, DI Yan-song, YONG Yi, 2019: Analysis on the law of occurrence of shallow geothermal energy in Zhoukou City of Henan Province, China, Journal of Groundwater Science and Engineering, 7, 282-287. doi: DOI: 10.19637/j.cnki.2305-7068.2019.03.008
[6]	LUO Wei-qun, JIANG Zhong-cheng, YANG Qi-yong, LI Yan-qing, LIANG Jian-hong, 2018: The features of soil erosion and soil leakage in karst peak-cluster areas of Southwest China, Journal of Groundwater Science and Engineering, 6, 18-30. doi: 10.19637/j.cnki.2305-7068.2018.01.003
[7]	WANG Kui-feng, 2016: Evaluation of the water resources carrying capacity of Shandong peninsula, China, Journal of Groundwater Science and Engineering, 4, 120-130.
[8]	MENG Rui-fang, YANG Hui-feng, LIU Chun-lei, 2016: Evaluation of water resources carrying capacity of Gonghe basin based on fuzzy comprehensive evaluation method, Journal of Groundwater Science and Engineering, 4, 213-219.
[9]	ZHANG Xiang-yang, CHEN Zong-yu, YANG Guo-min, TU Le-yi, HU Shui-ming, 2016: Krypton-85 dating of shallow aquifer in Hebei Plain, Journal of Groundwater Science and Engineering, 4, 328-332.
[10]	GUO Long-zhu, 2016: Study on ecological and economic effects of land and water resources allocation in Sanjiang Plain, Journal of Groundwater Science and Engineering, 4, 110-119.
[11]	CUI Zhen, YANG Po, ZHANG Zheng, 2016: Comprehensive suitability evaluation of urban geological environment in Zhengzhou-Kaifeng area, Journal of Groundwater Science and Engineering, 4, 204-212.
[12]	YUE Chen, CUI Ya-li, RAO Rong, DONG Xiang, 2015: Evaluation on water resources carrying capacity of Changchun-Jilin Region, Journal of Groundwater Science and Engineering, 3, 164-169.
[13]	FEI Yu-hong, ZHANG Zhao-ji, LI Ya-song, GUO Chun-yan, TIAN Xia, 2015: Quality evaluation of groundwater in the North China Plain, Journal of Groundwater Science and Engineering, 3, 306-315.
[14]	ZHU Xi, ZHANG Qing-lian, WANG Wan-li, LIU Yan-guang, 2015: Study on the influencing factors of rock-soil thermophysical parameters in shallow geothermal energy, Journal of Groundwater Science and Engineering, 3, 256-267.
[15]	LI Yu, CUI Yu, SUN Ying, LI Zhi-ping, WANG Xin-juan, WANG Li-ya, YANG Qing, WANG Rong, 2014: Sustainable utilization measures of groundwater resources in Beijing, Journal of Groundwater Science and Engineering, 2, 60-66.
[16]	LIU Kai, SUN Ying, LI Yu, LIU Jiu-rong, LIU Ying-chao, 2014: Zonation for exploitation and utilization of geothermal water in Beijing, Journal of Groundwater Science and Engineering, 2, 94-104.
[17]	LIU Li-jun, LIU Zhi-gang, LI Dou, ZHANG Shao-cai, CUI Qiu-ping, WANG Juan, 2014: Evaluation of groundwater supply capacity for agricultural drought emergency relief of Hebei Plain, Journal of Groundwater Science and Engineering, 2, 36-45.
[18]	LIU Zhi-ming, LIN Wen-jing, LIU Qin-xuan, ZHANG Wei, LIU Chun-lei, MA Feng, WANG Gui-ling, 2014: Evaluation and reasonable utilization of geothermal resources of Shenze County, Hebei Province, Journal of Groundwater Science and Engineering, 2, 17-27.
[19]	B.T. Hiller, N. Jadamba, 2013: Groundwater Use in the Selenge River Basin, Mongolia, Journal of Groundwater Science and Engineering, 1, 11-32.
[20]	Jiankang Zhang, Yanpei Cheng, Hua Dong, Qingshi Guo, Kun Liu, Fawang Zhang, 2013: Study on Ecological Environment and Sustainable Land Use Based on Satellite Remote Sensing, Journal of Groundwater Science and Engineering, 1, 89-96.