The Effect of Porous Medium Particle Size on Groundwater Recharge Clogging

Jun Pan; Ming Zhong Wang; Ming Cen Jiang

doi:10.4028/www.scientific.net/AMR.765-767.2934

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 765-767The Effect of Porous Medium Particle Size on...

The Effect of Porous Medium Particle Size on Groundwater Recharge Clogging

Abstract:

In order to grasp the effect of porous medium particle size on groundwater recharge clogging. Measure the water flux of porous medium with different particle, by indoor soil column experiment simulating the process of groundwater recharge clogging. The results show that porous medium particle size is proportional to the initial water flux and the clogging occurred time, and is negatively correlative to clogging degree. When lay out wells in the water source heat pump works, should give full consideration to the effect of local hydrogeological conditions on groundwater recharge. It provides a scientific reference to prevent groundwater recharge clogging and the choice of recharge wells location.

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Periodical:

Advanced Materials Research (Volumes 765-767)

Pages:

2934-2937

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.765-767.2934

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Online since:

September 2013

Authors:

Jun Pan, Ming Zhong Wang, Ming Cen Jiang

Keywords:

Ground Water, Porous Medium, Recharge Clogging, Water Flux

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References

[1] Gong Yulie, Zhao Jun, Li Xinguo, etc. Ground source heat pump works in the United States and its development [C]∥The nationwide heat pumps and air conditioning technology exchange conference proceedings. Beijing: China Architecture & Building Press, 2001: 249-253.

Google Scholar

[2] N. A. Buik, A. L. Snijders. Clogging Rate of Recharge Wells in Porous Media. Proceedings of the 10th International Conference on Thermal Energy Storage- ECOSTOCK, New Jersey, (2006).

Google Scholar

[3] Singh J B, Foster G, Jr, Hunt A W. Representative operating problems of commercial ground source and groundwater source heat pumps [G]∥ASHRAE Trans, 2000, 106(2): 561- 568.

Google Scholar

[4] C. D. Palmer, D. W. Blowes, E. O. Frind, et al. Thermal Energy storage in an Unconfined Aquifer: 1. Field Injection Experiment[J]. Water Resource Research. 1992, 28 (10): 2845-2856.

DOI: 10.1029/92wr01471

Google Scholar

[5] Bai Hongjie. The study of ultra deep groundwater recharge in Kaifeng[J]. Yellow River, 2010, (32): 48-49.

Google Scholar

[6] Li Hengtai, Shi Ping, Wu Haixia. Groundwater artificial recharge technology summarizes [J]. Study on Technical Economy, 2008: 41-45.

Google Scholar

[7] Pan Jun, Gao Weichun, Zang Haiyang, et al. Numerical simulation in water source heat pump works well pattern design [J]. Journal of Shenyang Jianzhu University(Natural Science), 2011, 27(2): 335-339.

Google Scholar