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In oil and gas industry, especially in production engineering, The ability to produce a well is a benchmark in the planning of production equipment, in order to obtain optimum production rate and the continuous line with the target. Production equipment systems that serve to drain the surface is the...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/25092 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In oil and gas industry, especially in production engineering, The ability to produce a well is a benchmark in the planning of production equipment, in order to obtain optimum production rate and the continuous line with the target. Production equipment systems that serve to drain the surface is the rate of production tubing (pipe production). Tubing design and sizes that are not in accordance with the Productivity index can hamper the process of gas production from the gas wells. This is due to the system of production equipment will be quickly corroded due to friction between the fluid production tubing with a wall, so that the tubing easily damaged and must be performed workover. Many ways to to prevent corrosion one of them is a way to add chemicals or by using a material that is resistant to corrosion. It is necessary for the design and selection of the proper tubing. The purpose of this research is to obtain maximum production rate and determine the economics of design and selection of tubing. For determine the size of the wells the X-20 can be evaluated through the nodal system analysis, which is the relationship of the IPR curve tubing intake curves will intersect. The intersection point which would indicate an optimum production rate wells each tubing size. T The results of the evaluation of tubing sizes obtained optimal production rate of 119.76 MMSCFD. Based on the results of design tubing, tubing with the type of nickel-based alloy material with a thickness of 0.582 inches is suitable for use. This type of material to produce the replacement cost of the most economical tubing with expenses amounted to $ 2,544,407. |
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