PEMODELAN TAHAP AWAL JARINGAN FASILITAS PERMUKAAN UNTUK SISTEM PRODUKSI DAN SISTEM INJEKSI GAS LIFT PADA LAPANGAN X MENGGUNAKAN PERANGKAT LUNAK INTEGRATED PRODUCTION MODELLING (IPM) : PROSPER & GAP
Nowadays, technology has grown rapidly and help to resolve the problem in various ways. In the oil industry itself, has a lot of software developed to help a variety of problems that are inside. To assist in the optimization of production strategies appropriate fore, identification of the problem an...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/64220 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Nowadays, technology has grown rapidly and help to resolve the problem in various ways. In the oil industry itself, has a lot of software developed to help a variety of problems that are inside. To assist in the optimization of production strategies appropriate fore, identification of the problem and solve it in the decision-making in a producing field, a surface facility network model is constructed from a software could be one solution. Said, because the handling of a production field must be seen as an integrated production system between the wells with other wells, can not only perform well optimization separately. The model was built from the software with more and lack can give you an idea what happens to the system if one part of the system changed or faulty / damaged.
Field to be built surface facility network model in this paper using the method of artificial lift gaslift injection. Surface facility network model for the system of production and gas lift injection system in this field is built using Integrated Production Modelling software : PROSPER and GAP. PROSPER is used to demonstrate the capabilities of production wells and GAP used to construct the surface network. Two important variables in the matching stage to perform both of these models is the pressure at each production manifold platform and production flow rate. From the comparison of the simulation model and the real situation that gives small error, the model built in this field can be expressed representative and can be used for optimization field. With used both of production system model and gas lift injection systems , performed in this final project an availability of gas lift optimization studies in this field . |
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