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Deepwater reservoir development is one of potential prospect that can be applied to improve oil and gas production, especially in country like Indonesia that has some potential for deep-sea reservoir. Despite the more complex condisedarions and higher cost that required for this operation, this oper...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/13333 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Deepwater reservoir development is one of potential prospect that can be applied to improve oil and gas production, especially in country like Indonesia that has some potential for deep-sea reservoir. Despite the more complex condisedarions and higher cost that required for this operation, this operation can still be prospectfully applied and generates high economical benefits.<p>One of the fundamental differences of between offshore/deep sea operation and onshore operation is the use of riser pipes in deep sea operations. Riser pipe is a large pipe used in the offshore operation in which the hydrocarbon can be distributed from the seabed to the surface. What distinguishes between the riser pipe with production pipe/ tubing commonly used in oil and gas production operations are the riser pipe is designed specifically for the production process in the water (in this case the deep sea operation) thus the size and specifications has been specifically adjusted to the conditions of sea water and the various factors that influences it, such as flow and temperature of sea water.<p>In this case, there are two scenarios that used to optimize the riser pipe performance, in term of equipment design and size. The first scenario is a large riser pipe used to flow the hydrocarbon from four production wells that are produced simultaneously. The second scenario is a 4 riser pipe used to flow the hydrocarbon from 4 wells that are produced simultaneously. Both scenarios are applied to an integrated models of system that represent the conditions in the reservoir and surface facilities. |
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