SUITABILITY EVALUATION OF ENVIRONMENTAL GEOLOGY BASED ON SPONGY BODY IN-SITU TEST AND ITS APPLICATION: A Case Study of Xinxiang City, Henan Province
WANG Shuai-wei, SUN Wei-chao, LIU Song-bo, WANG Xiu-yan, LIU Chang-li, SUN Lin
Institute of Hydrogeology and Environmental Geology, Chinese Academy of Geological Sciences/Key Laboratory of Groundwater Sciences and Engineering, Ministry of Natural Resources, Shijiazhuang 050061, China
Abstract:Sponge city is an ecological concept proposed to solve the problem of rainfall flood in urban construction, aiming to realize the comprehensive treatment of urban water resources by means of seepage, storage, purification and discharge. Starting with the environmental geological conditions and considering the sponge properties of geological bodies in sponge city construction, the study carries out the in-situ double-ring infiltration test and engineering drilling in the study area, analyzes the maximum rainfall infiltration depth and surface soil water seepage speed in the original sponge geological conditions, and proposes two indexes of water seepage and storage which can effectively represent and summarize the environmental geological suitability in sponge city construction, with strong universality, easy to spread. Finally, Xinxiang City in central China is taken as an example to evaluate the environmental geological suitability of sponge city construction
王帅伟, 孙伟超, 刘松波, 王秀艳, 刘长礼, 孙琳. 基于“海绵体”原位试验的环境地质适宜性评价及应用——以河南省新乡市为例[J]. 地质与资源, 2023, 32(3): 345-351.
WANG Shuai-wei, SUN Wei-chao, LIU Song-bo, WANG Xiu-yan, LIU Chang-li, SUN Lin. SUITABILITY EVALUATION OF ENVIRONMENTAL GEOLOGY BASED ON SPONGY BODY IN-SITU TEST AND ITS APPLICATION: A Case Study of Xinxiang City, Henan Province. GEOLOGY AND RESOURCES, 2023, 32(3): 345-351.
董英, 张茂省, 刘洁, 等. 西安地区含水系统释水压密效应及微结构变化[J]. 西北地质, 2019, 52(2):63-71. Dong Y, Zhang M S, Liu J, et al. Water release compaction effect and microstructure change of aquifer system in Xi'an[J]. Northwestern Geology, 2019, 52(2):63-71.
[2]
董英, 张茂省, 刘洁, 等. 西安市地下水与地面沉降地裂缝耦合关系及风险防控技术[J]. 西北地质, 2019, 52(2):95-102. Dong Y, Zhang M S, Liu J, et al. Coupling relationship between groundwater and ground fissures of land subsidence in Xi'an City and risk prevention and control technology[J]. Northwestern Geology, 2019, 52(2):95-102.
[3]
洪增林. 城市地质调查标准化建设系统[J]. 西北地质, 2019, 52(2):53-62. Hong Z L. Multi-factor urban geological survey standardization construction system[J]. Northwestern Geology, 2019, 52(2):53-62.
[4]
张建云, 王银堂, 胡庆芳, 等. 海绵城市建设有关问题讨论[J]. 水科学进展, 2016, 27(6):793-799. Zhang J Y, Wang Y T, Hu Q F, et al. Discussion and views on some issues of the sponge city construction in China[J]. Advances in Water Science, 2016, 27(6):793-799.
[5]
王浩, 梅超, 刘家宏. 海绵城市系统构建模式[J]. 水利学报, 2017, 48(9):1009-1014, 1022. Wang H, Mei C, Liu J H. Systematic construction pattern of the sponge city[J]. Journal of Hydraulic Engineering, 2017, 48(9):1009-1014, 1022.
[6]
United States Environmental Protection Agency. Low impact development (LID):A literature review[R]. EPA-841-B-00-005, Office of Water, Washington DC, 2000.
[7]
United States Environmental Protection Agency. Terminology of low impact development[R]. EPA-841-N-12-003B, Office of Water, Washington DC, 2012.
[8]
Melbourne Water. Water sensitive urban design[R]. http://www.wsud.Melbourne water.com.an. accessed on May 19, 2015.
[9]
Hoyer J, Dickhaut D, Kronawitter L, et al. Water sensitive urban design:Principles and inspiration for sustainable stormwater management in the city of the future[M]. Berlin:JOVIS Publishing Co, 2011:79-87.
[10]
D'Arcy B J, Ellis J B, Ferrier R C, et al. Diffuse pollution impacts:The environmental and economic impacts of diffuse pollution in the UK[M]. Lavenham:Terence Dalton Publishers, 2000:142-158.
[11]
CIRIA. SUDS:Sustainable drainage systems:Promoting good practice-A CIRIA initiative[R]. 2005. http://www.ciria.org/suds/background.htm. accessed on May 22, 2015.
[12]
Geiger W, Dreiseitl H. Neue Wege für das Regenwasser:Handbuch zum Rückhalt und zur Versickerung von Regenwasser in Baugebieten[M]. München:Oldenbourg, 2001:107-122.
[13]
Yamagata Y, Kimura Y, Sunaga H. Preventive maintenance of social infrastructure and non-destructive testing[J]. Journal of the Japan Society for Precision Engineering, 2012, 78(1):44-48.
[14]
Ji L Y. Rainstorm management strategy and site planning practice for low impact development:An empirical analysis of North American countries[C]//Proceedings of the Conference on Urban Development and Planning. North China University of Technology, 2014:1-6.
[15]
Martin P. Sustainable urban drainage systems:Best practice manual for England, Scotland, Wales and Northern Ireland[M]. London:Construction Industry Research & Information Association, 2001:88-117.
[16]
Revit M. Report 5.1:Review of the use of storm water BMPs in Europe. EVKl-CT-2002-00111[R]. 2003.
[17]
胡灿伟. "海绵城市"重构城市水生态[J]. 生态经济, 2015, 31(7):10-13. Hu C W. "Sponge city" reconstructing urban water ecology[J]. Ecological Economy, 2015, 31(7):10-13. (in Chinese)
[18]
胡楠, 李雄, 戈晓宇. 因水而变——从城市绿地系统视角谈对海绵城市体系的理性认知[J]. 中国园林, 2015, 31(6):21-25. Hu N, Li X, Ge X Y. Change with water:The rational cognition of sponge city system from the perspective of urban green space system[J]. Chinese Landscape Architecture, 2015, 31(6):21-25.
[19]
吴丹洁, 詹圣泽, 李友华, 等. 中国特色海绵城市的新兴趋势与实践研究[J]. 中国软科学, 2016(1):79-97. Wu D J, Zhan S Z, Li Y H, et al. New trends and practical research on the sponge cities with Chinese characteristics[J]. China Soft Science, 2016(1):79-97.
[20]
俞孔坚, 李迪华, 袁弘, 等. "海绵城市"理论与实践[J]. 城市规划, 2015, 39(6):26-36. Yu K J, Li D H, Yuan H, et al. "Sponge city":Theory and practice[J]. City Planning Review, 2015, 39(6):26-36.
[21]
仇保兴. 海绵城市(LID)的内涵、途径与展望[J]. 中国勘察设计, 2015(7):30-41. Qiu B X. The connotation, ways and prospects of spongy city (LID)[J]. Construction Science and Technology, 2015(7):30-41. (in Chinese)
[22]
邹宇, 许乙青, 邱灿红. 南方多雨地区海绵城市建设研究——以湖南省宁乡县为例[J]. 经济地理, 2015, 35(9):65-71, 78. Zou Y, Xu Y Q, Qiu C H. The research on sponge city construction in southern hilly area:A case study of Ningxiang County in Hunan Province[J]. Economic Geography, 2015, 35(9):65-71, 78.
[23]
王宁, 吴连丰. 厦门海绵城市建设方案编制实践与思考[J]. 给水排水, 2015, 41(6):28-31, 32. Wang N, Wu L F. Practice and reflection of the urban municipal construction plan edition of sponge city, Xiamen[J]. Water & Wastewater Engineering, 2015, 41(6):28-31, 32.
[24]
王帅伟, 王秀艳, 孙琳, 等. 基于城市"海绵体"环境地质条件的海绵城市建设适宜性评价体系及其应用——以焦作市为例[J]. 水利水电技术, 2019, 50(2):79-87. Wang S W, Wang X Y, Sun L, et al. A suitability evaluation system of sponge city construction based on environmental geological condition of urban sponge body and its application:A case study of Jiaozuo City[J]. Water Resources and Hydropower Engineering, 2019, 50(2):79-87.
[25]
宋云, 俞孔坚. 构建城市雨洪管理系统的景观规划途径——以威海市为例[J]. 城市问题, 2007(8):64-70. Song Y, Yu K J. The landscape planning approach to construct administration system of city storm water:A case study of Weihai City[J]. Urban Problems, 2007(8):64-70.
[26]
车武, 李俊奇. 从第十届国际雨水利用大会看城市雨水利用的现状与趋势[J]. 给水排水, 2002(3):12-14. Che W, Li J Q. Recent status and prospect of urban rainwater utilization[J]. Water & Wastewater Engineering, 2002(3):12-14.
[27]
王家彪, 赵建世, 沈子寅, 等. 关于海绵城市两种降雨控制模式的讨论[J]. 水利学报, 2017, 48(12):1490-1498. Wang J B, Zhao J S, Shen Z Y, et al. Discussion about the two rainfall control approaches in sponge city construction[J]. Journal of Hydraulic Engineering, 2017, 48(12):1490-1498.