An Integrated Groundwater Management Mode Based on Control Indexes of Groundwater Quantity and Level

Groundwater is an important source of freshwater throughout the world. Due to over-exploitation of groundwater over many years, a number of potential adverse hydrogeological problems have raised. To reduce such adverse effects, it is necessary to carry out strict groundwater management in over-exploited areas. In this study, quantity-level binary control management mode has been developed in Tianjin. Initially, the management is the key to determine control levels of groundwater including the blue line levels (proper levels) and red line levels (warning levels), the blue line levels can be determined by the ground settlement recovery scenario, and the red line levels can be determined through planning groundwater exploitation scenarios. By comparing the real-time observed groundwater data with the blue levels and red levels the management grade of groundwater levels which are present, can thus be identified. Secondly, the corresponding management strategies would be determined by the management grade. On this basis reasonable groundwater levels and mining schemes can be made. Finally, the water quota for each sector can be optimized and adjusted in real time according to the binary groundwater management methodology established in this study. Thus, the exploitation of groundwater can be monitored and dynamically managed by the real-time monitoring levels and the sustainable utilization of groundwater resources can be achieved. To achieve all the objectives mentioned above, it is necessary to provide a powerful tool through the utilization of a numerical model for groundwater management. Based on geological and hydrogeological conditions in Tianjin city, a three-dimensional numerical groundwater flow model was established by coupling a one-dimensional soil consolidation model with MODFLOW model. Through calibration and verification, the model showed good simulation accuracy. It proved that the new management mode can provide a scientific basis for groundwater management.

[1]  S. Praveena,et al.  Sustainable groundwater management on the small island of Manukan, Malaysia , 2012, Environmental Earth Sciences.

[2]  Madan K. Jha,et al.  Simulation-Optimization Modelling for Sustainable Groundwater Management in a Coastal Basin of Orissa, India , 2009 .

[3]  Z. Huo,et al.  Groundwater simulation using a numerical model under different water resources management scenarios in an arid region of China , 2011 .

[4]  Jan Marivoet,et al.  Regional groundwater model of north-east Belgium , 2007 .

[5]  Jing Su,et al.  Groundwater flow modeling in the Zhangye Basin, Northwestern China , 2007 .

[6]  C. Jang,et al.  Sustainable groundwater management in Kinmen Island , 2006 .

[7]  Simulation of effects of agricultural activities on groundwater level by combining FEFLOW and GIS , 2007 .

[8]  Houcyne El Idrysy,et al.  Modelling groundwater flow of the Trifa aquifer, Morocco , 2006 .

[9]  Kenichi Koga,et al.  Groundwater resources management under environmental constraints in Shiroishi of Saga plain, Japan , 2006 .

[10]  L. Bentley,et al.  A regional-scale groundwater flow model for the Leon-Chinandega aquifer, Nicaragua , 2007 .

[11]  V. Tsihrintzis,et al.  A groundwater flow model for water resources management in the Ismarida plain, North Greece , 2007 .

[12]  Arnaud Reynaud,et al.  Urban freshwater needs and spatial cost externalities for coastal aquifers: A theoretical approach , 2006 .

[13]  A. W. Harbaugh MODFLOW-2005 : the U.S. Geological Survey modular ground-water model--the ground-water flow process , 2005 .

[14]  Baoguo Li,et al.  Simulation of the effects of groundwater level on vegetation change by combining FEFLOW software , 2005 .

[15]  B. Sharma,et al.  Challenges and Prospects of Sustainable Groundwater Management in the Indus Basin, Pakistan , 2010 .

[16]  Moshrik R Hamdi,et al.  Groundwater Flow Modeling of the Arlington Basin to Evaluate Management Strategies for Expansion of the Arlington Desalter Water Production , 2011, Water Resources Management.

[17]  S. A. Leake,et al.  MODFLOW-2000 Ground-Water Model?User Guide to the Subsidence and Aquifer-System Compaction (SUB) Package , 2003 .