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In the 1960s, only about less than fifty journals that address the Finite Element Method problems, but now has more than hundreds of thousands of journals that discuss this method. This is because, this method is already widely used in industries and applications are more easily with the interactive...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/16045 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In the 1960s, only about less than fifty journals that address the Finite Element Method problems, but now has more than hundreds of thousands of journals that discuss this method. This is because, this method is already widely used in industries and applications are more easily with the interactive software, like Matlab. This software is not a common programming language, namely the excess can be easily learned and does not require high computer linguistics. With the methods of this software and we will try to resolve the problem the solution of pressure distribution with the state of impermeable reservoir, where there is no mass transfer or energy from the outside or into the reservoir. Form of the equation in the form of two-dimensional Laplace equation with one unknown variable. Based on data taken by Anil K Ambashtha and Jon S. Gudmundsson, Stanford University, California, wellpressure spread all over the world are in the range 2.3 bar to 56.5 bar -g with a flowrate 12.9 - 68.6 kg/sec. But if the geothermal reservoir used to be, at least wellpressure under 10 bar to generate minimal 6 MWe. To illustrate the state of the pressure distribution used finite element method (finite element method), the calculations using MATLAB 7.0.4 software. Modeling results show the uneven distribution in the range of 30bar - 40bar, where the pressure gradient derived from Darcy's law. <br />
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