PRODUCTION OPTIMIZATION OF AN OIL RESERVOIR
The production of hydrocarbon fluids is via production system. The production system has different parts with different features. Assurance in optimized performance of this system is requiring precise knowledge of its different parts. The production system can be categorized into three major parts...
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| Main Authors: | , |
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| Format: | Non-Citation Index Journal |
| Published: |
2013
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| Online Access: | http://eprints.utp.edu.my/10731/1/4-PRODUCTION%20OPTIMIZATION.pdf http://eprints.utp.edu.my/10731/ |
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| Summary: | The production of hydrocarbon fluids is via production system. The production system has different parts with
different features. Assurance in optimized performance of this system is requiring precise knowledge of its different
parts. The production system can be categorized into three major parts. These are Inflow that related to fluid flow
through porous media, vertical well flow (from sand face to the wellhead choke), and flow through surface facility.
By using available models, any part of production system can be modeled. Inflow information of production system
such as reservoir pressure and temperature, fluid type and porous media characteristics and vertical well flow
information (well geometry and pressure control devices) can be used to model the production system. After modeling
of the production system, any problem can be specified and then proper methods are applied to rectify the system.
Selecting proper tubing and wellhead choke sizes are essential to maximize reserve recovery in depletion drive oil reservoirs. In this study two wells of an oil reservoir were analyzed to determine optimum tubing and choke sizes for production optimization. Database bank consists of flowing, static and buildup test were utilized. Data were analyzed with PANSYS and PIPSEIM software. Nodal analysis technique was used to analyze tubing and choke sizes for these wells. Also, effects of skin damage change on IPR curve and well deliverability were examined. |
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