3D Ground-Water Flow Modeling Based on GIS
The geographical information system (GIS) has provided effective tools to capture, store, manage, analyze, and express spatial information. Gradually, the research region has included the dynamical mechanism and the spatial-time characteristics of the geography process, transmission mechanisms, uncertainty (multi-solutions), predictability, and so on. Correspondingly, GIS modeling is one of the hotspots of current GIS research. The paper is the embodiment of GIS modeling methods applied to geo-simulation research. Also, it provides the model support for the management of groundwater resources. In this paper, the methods for constructing the ground-water conceptual model through a 3D stratum model are discussed. Firstly, the constructing method of Delaunay triangulation with constraint conditions is proposed, which is suitable to the ground-water flow simulation. Then stratum (or aquifer) multi-DEMs are completed. Based on the multi-DEMs, the Su-Xi-Chan hydrogeological conceptual model is reconstructed by irregular Tri-prism. In order to prevent dispersed irregular tri-prism voxels from disunity, the spatial index mechanism is established for the groundwater model.
Finally, the 3D groundwater simulation model is integrated with GIS, which can provide data for 3D numerical simulation. The results indicate that the integration of 3D GIS and geo-analysis model is convenient and can accelerate the process simulation of geoscience.
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