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Volume 25 Issue 6
Dec 2014
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Journal of Earth Science  > 2014  >  25(6): 1059-1066.
Tangpei Cheng, Jingli Shao, Yali Cui, Zeyao Mo, Zhong Han, Ling Li. Parallel Simulation of Groundwater Flow in the North China Plain. Journal of Earth Science, 2014, 25(6): 1059-1066. doi: 10.1007/s12583-014-0485-8
Citation: Tangpei Cheng, Jingli Shao, Yali Cui, Zeyao Mo, Zhong Han, Ling Li. Parallel Simulation of Groundwater Flow in the North China Plain. Journal of Earth Science, 2014, 25(6): 1059-1066. doi: 10.1007/s12583-014-0485-8
shu

Parallel Simulation of Groundwater Flow in the North China Plain

doi: 10.1007/s12583-014-0485-8
  • 1.

    Institute of Applied Physics and Computational Mathematics, Beijing 100094, China

  • 2.

    CAEP Software Center for High Performance Numerical Simulation, Beijing 100088, China

  • 3.

    School of Water Resources and Environmental Science, China University of Geosciences, Beijing 100083, China

More Information
  • Corresponding author: Jingli Shao, jshao@cugb.edu.cn
  • Received Date: 14 Jun 2014
  • Accepted Date: 22 Oct 2014
  • Publish Date: 01 Dec 2014
    Abstract
  • Numerical modeling is of crucial importance in understanding the behavior of regional groundwater system. However, the demand on modeling capability is intensive when performing high-resolution simulation over long time span. This paper presents the application of a parallel program to speed up the detailed modeling of the groundwater flow system in the North China Plain. The parallel program is implemented by rebuilding the well-known MODFLOW program on our parallel-computing framework, which is achieved by designing patch-based parallel data structures and algorithms but maintaining the compute flow and functionalities of MODFLOW. The detailed model with more than one million grids and a decade of time has been solved. The parallel simulation results were examined against the field observed data and these two data are generally in good agreement. For the comparison on solution time, the parallel program running on 32 cores is 6 times faster than the fastest MICCG-based MODFLOW program and 11 times faster than the GMG-based MODFLOW program. Therefore, remarkable computational time can be saved when using the parallel program, which facilitates the rapid modeling and prediction of the groundwater flow system in the North China Plain.

     

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  • Brassel, K. E., Reif, D., 1979. A Procedure to Generate Thiessen Polygons. Geographical Analysis, 11(3): 289–303. doi: 10.1111/j.1538-4632.1979.tb00695.x
    Cheng, T. P., Mo, Z. Y., Shao, J. L., 2014. Accelerating Groundwater Flow Simulation in MODFLOW Using JASMIN-Based Parallel Computing. Groundwater, 52(2): 194–205. doi: 10.1111/gwat.12047
    Currell, M. J., Han, D. M., Chen, Z. Y., et al., 2012. Sustainability of Groundwater Usage in Northern China: Dependence on Palaeowaters and Effects on Water Quality, Quantity and Ecosystem Health. Hydrological Processes, 26(26): 4050–4066. doi: 10.1002/hyp.9208
    Dong, Y. H., Li, G. M., 2009. A Parallel PCG Solver for MODFLOW. Ground Water, 47(6): 845–850. doi: 10.1111/j.1745-6584.2009.00598.x
    Huang, J. Q., Christ, J. A., Goltz, M. N., 2008. An Assembly Model for Simulation of Large-Scale Ground Water Flow and Transport. Ground Water, 46(6): 882–892. doi: 10.1111/j.1745-6584.2008.00484.x
    Hughes, J. D., White, J. T., 2013. Use of General Purpose Graphics Processing Units with MODFLOW. Groundwater, 51(6): 83–846. doi: 10.1111/gwat.12004
    Ji, X. H., Cheng, T. P., Wang, Q., 2012. CUDA-Based Solver for Large-Scale Groundwater Flow Simulation. Engineering with Computers, 28(1): 13–19. doi: 10.1007/s00366-011-0213-2
    Li, P., Lu, W. X., Jin, M. G., et al., 2012. Approach to the Relation of Mutual-Feed Joint-Variation in Groundwater Management Model. Journal of Earth Science, 23(3): 349–358. doi: 10.1007/s12583-012-0261-6
    Liu, C. M., Xia, J., 2004. Water Problems and Hydrological Research in the Yellow River and the Huai and Hai River Basins of China. Hydrological Processes, 18(12): 2197–2210. doi: 10.1002/hyp.5524
    Liu, J., Zheng, C. M., Zheng, L., et al., 2008. Ground Water Sustainability: Methodology and Application to the North China Plain. Ground Water, 46(6): 897–909. doi: 10.1111/j.1745-6584.2008.00486.x
    Mo, Z. Y., Zhang, A. Q., Cao, X. L., et al., 2010. JASMIN: A Parallel Software Infrastructure for Scientific Computing. Frontiers of Computer Science in China, 4(4): 480–488. doi: 10.1007/s11704-010-0120-5
    Schreuder, W. A., 2006. Parallel Numerical Solution of Groundwater Flow Problems: [Dissertation]. University of Colorado at Boulder, Boulder
    Shao, J. L., Cui, Y. L., Li, L., et al., 2014. Study on the Estimation of Groundwater Withdrawals Based on Groundwater Flow Modeling and Its Application in the North China Plain. Journal of Earth Science, 25(6): 1033–1042 doi: 10.1007/s12583-014-0493-8
    Shao, J. L., Li, L., Cui, Y. L., et al., 2013. Study on the Estimation of Groundwater Withdrawals Based on Groundwater Flow Modeling and Its Application in the North China Plain. Acta Geologica Sinica (English Edition), 87(1): 243–253 doi: 10.1111/1755-6724.12045
    Shao, J. L., Zhao, Z. J., Cui, Y. L., et al., 2009. Application of Groundwater Modeling System to the Evaluation of Groundwater Resources in North China Plain. Resources Science, 31(3): 361–367 (in Chinese with English Abstract)
    The State Council of China, 2012. The Views of the State Council of China on the Implementation of the Most Stringent Water Management System. http://www.gov.cn/zwgk/2012-02/16/content_2067664.htm (in Chinese)
    Wang, S. F., Pang, Z. H., Liu, J. R., et al., 2013. Origin and Evolution Characteristics of Geothermal Water in the Niutuozhen Geothermal Field, North China Plain. Journal of Earth Science, 24(6): 891–902. doi: 10.1007/s12583-013-0390-6
    Wang, S. Q., Shao, J. L., Song, X. F., et al., 2008. Application of MODFLOW and Geographic Information System to Groundwater Flow Simulation in North China Plain, China. Environmental Geology, 55(7): 1449–1462. doi: 10.1007/s00254-007-1095-x
    Wang, S. Q., Song, X. F., Wang, Q. X., et al., 2009. Shallow Groundwater Dynamics in North China Plain. Journal of Geographical Sciences, 19(2): 175–188. doi: 10.1007/s11442-009-0175-0
    Yang, M., Fei, Y. H., Ju, Y. W., et al., 2012. Health Risk Assessment of Groundwater Pollution—A Case Study of Typical City in North China Plain. Journal of Earth Science, 23(3): 335–348. doi: 10.1007/s12583-012-0260-7
    Zhang, Z. J., Fei, Y. H., 2009. Atlas of Groundwater Sustainable Utilization in North China Plain. China Cartogarphy Press, Beijing (in Chinese)
    Zheng, C. M., Liu, J., Cao, G. L., et al., 2010. Can China Cope with Its Water Crisis?—Perspectives from the North China Plain. Ground Water, 48(3): 350–354. doi: 10.1111/j.1745-6584.2010.00695_3.x
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