Citation: | Guo JX, Li ZP, Stefan C. 2022. Managed aquifer recharge (MAR) applications in China–achievements and challenges. Journal of Groundwater Science and Engineering, 10(1): 57-69 doi: 10.19637/j.cnki.2305-7068.2022.01.006 |
Bai HJ, Fang YL, Guo J. 2010. Deep groundwater recharge study in Kaifeng city. Yellow River, 32(9): 48-49. (in Chinese)
|
Clifton C, Evans R, Hayes S, et al. 2010. Water and climate change: Impacts on groundwater resources and adaptation options. Hydrogeology Journal, 13(1): 313-316.
|
Ding KL. 1996. Explore effective ways and measure of artificial recharge of groundwater. China Rural Hydropower, 1-2: 14-17. (in Chinese)
|
Ding KL. 1997. Experimental study of the infiltation amount at ditch. China hydraulic and hydropower in rural area, 1: 22-23. (in Chinese)
|
Dong YH. 2010. The protection theory and recovery technology of groundwater: A case study in Xi’an. Ph. D. thesis. Xi’an: Chang’an University: China. (in Chinese)
|
Dong YH, Zhao PG, Zhou WB. 2011. Effect of artificial aquifer recharge on hydraulic conductivity using single injection well. 2011 International Symposium on Water Resource and Environmental Protection (ISWREP): IEEE.
|
Fan YF. 2014. Application of groundwater recharge in foundation and environment protection. China Science and Technology Information, 11: 85-88. (in Chinese)
|
Guan QH, Liu QY, Chen XQ, et al. 2015. Analysis of groundwater recharge technology in the overexploited aquifer. Hydropower in China Rural Area, 2: 96-98. (in Chinese)
|
Guo KY, Yu J, Fang Z, et al. 2004. Investigation and assessment of groundwater resources and geological disasters in Yangtze River Delta. Coastal Geological Environment and Urban Development Seminar, Tanjin: China. (in Chinese)
|
Han ZS. 2002. Artificial recharge of groundwater in North China Plain. Management of Aquifer Recharge for Sustainability. The Netherlands: 435-438.
|
Hao J. 2011. Divide of groundwater overdraft zone and analysis of ecological restoration in Xi’an. M. S. thesis. Xi’an: Changan University: China. (in Chinese)
|
He JT, Shen ZL. 2010. Development of the groundwater recharge. Chinese Journal of Nature, 32(6): 348-352. (in Chinese)
|
He MQ. 2012. Preliminary experiment on fracture-karst aquifer recharging with roofwater. M. S. thesis. Jinan:University of Jinan: China. (in Chinese)
|
Huang T, Pang Z. 2013. Groundwater recharge and dynamics in Northern China: Implications for sustainable utilization of groundwater. Procedia Earth and Planetary Science, 7: 369-372. doi: 10.1016/j.proeps.2013.03.182
|
Jia ZJ, Li RW. 2012. Hydrogeology condition analyses on ground water recharge of Yimuquan source in Baoding City. Water Sciences and Engineering Technology, 4: 27-29. (in Chinese)
|
Jin MG, Liang X, Luo ZJ, et al. 2012. Integrative technologies for safely managed groundwater recharge using reclaimed water in Zhengzhou, China. In Achieving Ground Water Supply Sustainability & Reliability through Managed Aquifer Recharge: Proceedings of the 7th International Symposium on Managed Artificial Recharge of Groundwater, ISMAR7, Abu Dhabi, UAE. Escalante: 561-567. DINA-MAR, Grupo Tragsa.
|
Jin MG, Luo ZJ, Liang X, et al. 2012. Security system for water quality for groundwater recharge with infiltration basin and reclaimed water. Earth Science – Journal of China University of Geosciences, 37(2): 238-246. (in Chinese)
|
Li HB, Li GQ, Liu YF. 2011. Discussion on the underground reservior in Sanjiang Plain. Heilongjiang Science and Technology of Water Conservancy, 3(39): 157-158. (in Chinese)
|
Li J. 1997. Benefit analysis of groundwater recharge project in Ma Miao. Drainage and Irrigation Machinery, 3(1): 27-29. (in Chinese)
|
Li RW. 2009. Analysis on the hydro-geological conditions of Yimuquan source water. Water Sciences and Engineering Technology, 3: 48-52. (in Chinese)
|
Li SF, Gao WT, Niu YQ, et al. 2012. The experimental study on recharge engineering of mine wastewater. Journal of Hebei University of Engineering (Natural Science Edition), 29(3): 66-70. (in Chinese)
|
Li XD, Ge HP, Zhou JF. 2007. Coastal groundwater recharge measures in Lacey City Daguhe. Shandong Water Resources, 3: 21-22. (in Chinese)
|
Liu JL, Dai W. 2013. Reserch on attenuation characteristic of recharge during pressure recharge. Economic Irrigation, 8: 52-59. (in Chinese)
|
Liu JP, Song YQ. 1989. Benefit analysis of groundwater recharge in Chong Zhou. Water Resources Protection, 4(7): 75-81. (in Chinese)
|
Liu QY, Pan SB, Wu XF, et al. 2006. Technology of groundwater recharge against saltwater intrusion: A case study on Guangrao County, Shandong Province. Journal of Natural Disasters, 15(3): 96-100. (in Chinese)
|
Liu QY, Ma CX, Zhang BX, et al. 2004. Groundwater recharge mode and demonstration. Water Resource and Hydropower Engineering, 35(2): 57-59. (in Chinese)
|
Lu JS, Pan WQ. 2014. Test and analysis of artificial recharge to the shallow confined aquifer of deep foundation pit in Shanghai. Chinese Journal of Underground Space and Engineering, 10(4): 810-817. (in Chinese)
|
Lu JS, Pan WQ, Shen C, et al. 2014. Design and application on pumping-recharge integration system of deep foundation excavation. Construction Technology, 43(1): 48-52. (in Chinese)
|
Pi Y, Wang J. 2006. A Field study of advanced municipal wastewater treatment technology for artificial groundwater recharge. Journal of Environmental Sciences, 18(6): 1056-1060. doi: 10.1016/S1001-0742(06)60038-7
|
Qu CS. 2014. Analysis on recharge test at Lujiazui area in Shanghai. Chinese Journal of Underground Space and Engineering, 10(2): 295-298. (in Chinese)
|
Qu CS, Wang JS, Zhu YM, et al. 2012. Analysis and calculation of subsidence of foundation engineering based on shallow groundwater injection. Hydrogeology and Engineering Geology, 39(6): 62-66. (in Chinese)
|
Shi L, Jiu JJ. 2014. Seawater intrusion and coastal aquifer management in China: A Review. Environmental Earth Sciences: 20.
|
Su DD, Liu G, Song T. 1996. A discussion on groundwater back-pour in Shenyang areas. Journal of Shenyang Agricultural University, 12(27): 52-54.
|
Su T, Li W, Zhang WB. 2010. Discussion of groundwater recharge in Jiaozhou. Shandong Water Resources, 2: 30-31. (in Chinese)
|
Su TM. 2012. Six demonstration sites groundwater recharge in Xi’an. Groundwater: 4. (in Chinese)
|
Su XS, Xu W, Du SH. 2014. In situ infiltration test using a reclaimed abandoned river bed: Managed Aquifer Recharge in Shijiazhuang City, China. Environmental Earth Sciences, 71(12): 5017-5025. doi: 10.1007/s12665-013-2893-y
|
Sun RL, Liang X, Wang XG, et al. 2006. Experience of capturing flood water for artificial recharge of groundwater in North China, In Recharge Systems for Protecting and Enhancing Groundwater Resources. Proceedings of the 5th International Symposium on Management of Aquifer Recharge ISMAR5, Berlin, Germany, 13: 727-732.
|
Tan D, Hu F, Thieriot H, et al. 2015. Towards a water & energy secure China, Tough choices ahead in power expansion with limited water resources, China Water Risk. Retrieved from the website: http://chinawaterrisk.org/wp-content/uploads/2015/04/Towards-A-Water-Energy-Secure-China-CWR0415.pdf
|
The MOHURD. Retrieved from the website: http://www.mohurd.gov.cn/zcfg/jsbwj_0/jsbwjcsjs/201502/t20150217_220335.html
|
Wang JX, Wu YB, Zhang XS, et al. 2012. Field experiments and numerical simulations of confined aquifer response to multi-cycle recharge–recovery process through a well. Journal of Hydrology, 464-465: 328-343. doi: 10.1016/j.jhydrol.2012.07.018
|
Wang SL, Li FX, Randin N. 1998. Analysis and calculation of diversion volume for groundwater recharge at Xiongxian. Irrigation and Drainage, 17(1): 33-36. (in Chinese)
|
Wang WP, Zhou Y, Sun XB, et al. 2014. Development of managed aquifer recharge in China. Boletín Geológicoy Minero, 125(2): 227-233.
|
Wang WP, Sun XB, Xu Y. 2010. Recent advances in managed aquifer recharge in China. Paper presented at 2010 International Conference on Challenges in Environmental Science and Computer Engineering, Wuhan: China.
|
Wang W, Dillon P, Liu P, et al. 2012. Effectiveness of underground dams in Shandong Peninsula, China. In: Achieving Ground Water Supply Sustainability & Reliability through Managed Aquifer Recharge, Proceedings of the 7th International Symposium on Managed Artificial Recharge of Groundwater, ISMAR7, Abu Dhabi, UAE October 9-13, 2010: 597-604.
|
Wang JY, Zhou SP, Zhang CQ. 1999. Benefit analysis of groundwater recharge project in Lai Xi city. Shandong Hydropower, 2: 27-28. (in Chinese)
|
Wang WP, Qu SS. 2011. Problems of Fracture-Karst Aquifer Recharge with Urban Roof Rainwater: 932-935.
|
Wang XS, Zhang XW. 1991. Water protection in Shenyang city and groundwater recharge. Water Conservancy and Hydropower of Northeast China, 11: 28-31. (in Chinese)
|
Wang XQ, Chen JX, Teng JF. 2001. Research of groundwater recharge in Yellow River flood plain area. Ground Water, 23(1): 44-45. (in Chinese)
|
Wang ZJ. 2012. Utilization of urban rainwater in groundwater. Groundwater, 34(2): 51-52. (in Chinese)
|
Wei L, Hao SK, Wang CX, et al. 2014. Effect of reclaimed water reuseage on groundwater level in Tongyhou District based on GIS. Proceedings of the 8th Symposium of Professional Committee of Agricultural Water and Soil Engineering, Chinese Society of Agricultural Engineering, Xinxiang, Henan Province (August 2014): 301-305. (in Chinese)
|
Wen ZH, Shu LC, Liu XG, et al. 2000. Artificial recharge for sustainable groundwater development in Jinhe water source field of Zaozhuang City, Shandong Province, China. In Groundwater Updates, edited by Kuniaki Sato and Yoshiaki Iwasa: 85-89.
|
Wu XB. 2004. Development of ground water loop for ATES and ground water source heat pump systems. Heating Ventilating & Air Conditioning, 34(1): 19-22.
|
Wu YX, Zhang N, Lu JS. 2010. Practice and research of groundwater recharge in shallow confined aquifer. Geotechnical Engineering Technique, 24(3): 156-160. (in Chinese)
|
Xu M, Liang X, Liu SH. 2012. Characteristics of heavy metal pollution in groundwater by reclaimed water recharging. Yellow River, 34(6): 89-93. (in Chinese)
|
Yan JH. 2009. Urban rainwater harvesting and utilization of the Loess Plateau. Master thesis, Gansu Agricultural University, China. (in Chinese)
|
Yan Y, Wang X, Yang R, et al. 2014. Analysis of factors of groundwater recharge in Hohhot. Western Resources, 6(3): 193-195. (in Chinese)
|
Yang Q, Guo M, Liu Y, et al. 2010. Discussion on the feasibility of groundwater recharge with reclaimed water carried out by land treatment technology in Beijing. Urban Geology, 5(1). (in Chinese)
|
Yang TL, Yan XX, Wang HM, et al. 2010. Experimental research of shallow aquifer pressure groundwater recharge based on dual control pattern of groundwater level and land subsidence. Shanghai Geology(4): 12-17. (in Chinese)
|
Yuan QL. 1979. Preliminary analysis of the experimental data of groundwater recharge in Huantai County. Hydrogeology and Engineering Geology, 03: 61. (in Chinese)
|
Zhang WJ, Huan Y, Yu XP, et al. 2015. Multi-Component transport and transformation in deep confined aquifer during groundwater artificial recharge. Journal of Environmental Management, 152: 109-119.
|
Zhang WJ. 2006. Research of spring recharge problem in Jinan. M. S. thesis. Jinan University: China. (in Chinese)
|
Zhang YB. 2005. Research on Artificial Recharge of Jinan City, the protection of springs. M. S. thesis. Hohai University: China. (in Chinese)
|
Zhang YL, Cai SJ, Wu D. 2011. Research on ASR method shallow recharge in metal mine of Shandong Peninsula. Mining Research and Development, 6(3): 85-87. (in Chinese)
|
Zhang YH, Wang MZ. 2011. Discussion of regulation and storage capacity prediction method of underground river system. Guizhou Geology, 28(2): 122-125. (in Chinese)
|
Zhang Y, Sun Y, Wang XJ. 2013. Introduction to artificial recharge of groundwater in Beijing. Urban Geology, 8(1): 51-53. (in Chinese)
|
Zhang ZY, Lei ZF, Zhang ZY, et al. 2007. Organics removal of combined wastewater through shallow soil infiltration treatment: A field and laboratory study. Journal of Hazardous Materials, 149(3): 657-665. doi: 10.1016/j.jhazmat.2007.04.026
|
Zhao W, Wang B, Chen J, et al. 2004. Methods of artificial recharge of groundwater in Sanjiang Plain. Water Conservancy Technology and Economy, 10(2). (in Chinese)
|
Zhou J, Chen KQ, Liang P, et al. 2014. Problems and application prospect of ASR technology in the underground reservoir construction of China. South-to-North Water Transfers and Water Science & Technology, 12(6): 192-195. (in Chinese)
|
Zhu P. 2012. The engineering design and benefit analysis of roof rainfall recharge karst water. M. S. thesis. University of Jinan. (in Chinese)
|
Zhu ZZ. 2013. Study on water-rock interaction between Karst fractured water and roofwater during recharge process. M. S. thesis. University of Jinan. (in Chinese)
|
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