IMPLEMENTATION OF FINITE DIFFERENCE METHOD FOR MODELING GROUNDWATER FLOW CASES
Groundwater flow models play an important role in the development and management of groundwater resources, as well as in predicting the effects that stakeholders will take. One of the functions of the groundwater model is as a tool to analyze the response or action given. To take advantage of the...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/62803 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Groundwater flow models play an important role in the development and
management of groundwater resources, as well as in predicting the effects that
stakeholders will take. One of the functions of the groundwater model is as a tool
to analyze the response or action given. To take advantage of the groundwater flow
model, many solutions and techniques used to solve the governing equations are
available. One of them is the finite difference method. This method is increasingly
being used along with the development of increasingly rapid computing. One proof
of the development of computing is HPC. In this research, a finite difference
numerical model with the Python programming language will be developed. The
numerical model that has been created will be computed with the help of HPC. The
numerical model will be used to review some simple cases and a case study in the
field. Field case that will be used in this study is the DEO Sorong Airport runway.
The runway suffered damage such as cracks, holes, and puddles. Damage caused
is suspected to be due to the groundwater level being close to the runway surface
layer. To deal with this problem, it is planned to install subsurface drainage on the
side of the runway. Simulation results from the numerical model of the finite
difference that the subsurface drainage solution can solve DEO Airport runway
problem. |
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