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A Study of Production Optimization (a Nodal Analysis Approach Using Prosper)
Content Structure of A Study of Production Optimization (a Nodal Analysis Approach Using Prosper)
- The abstract contains the research problem, the objectives, methodology, results, and recommendations
- Chapter one of this thesis or project materials contains the background to the study, the research problem, the research questions, research objectives, research hypotheses, significance of the study, the scope of the study, organization of the study, and the operational definition of terms.
- Chapter two contains relevant literature on the issue under investigation. The chapter is divided into five parts which are the conceptual review, theoretical review, empirical review, conceptual framework, and gaps in research
- Chapter three contains the research design, study area, population, sample size and sampling technique, validity, reliability, source of data, operationalization of variables, research models, and data analysis method
- Chapter four contains the data analysis and the discussion of the findings
- Chapter five contains the summary of findings, conclusions, recommendations, contributions to knowledge, and recommendations for further studies.
- References: The references are in APA
- Questionnaire
Abstract of A Study of Production Optimization (a Nodal Analysis Approach Using Prosper)
Crude oil production is a major requirement to sustaining the wellbeing of any petroleum company. It entails the effective placement of all facilities and equipment; surface or subsurface in order to achieve optimum volume of crude oil production. This is usually called Production Optimization. In this study, the software PROSPER was utilized to case study wells P-P1 and P-P2. Well P-P1 (short string) and Well P-P2 (long string) were producing at its peak oil rates of 2000STB/day and 2500STB/day at 0% water cut but since then production has been on the decline due to increasing water cut and decreasing reservoir pressure. But to date, Well P-P1 becomes a dead well while Well P-P2 is producing at an oil rate of 1200STB/day at a water-cut of 40%. Thereafter an optimization plan scenarios such as sensitivity runs on the water cut, reservoir pressure and gaslift techniques for the dual string well were simulated in PROSPER and then evaluated. The results of this work suggests that; at present reservoir pressures of 3000psig and 3500psig for Well P-P1 and Well P-P2 with optimum gas injection rates of 3.3MMscf/day and 2.7MMscf/day, the wellโs life can be extended to an economical water cut of 90% and 95% respectively. Also, the oil production rates increased from 0STB/day and 1200STB/day at 50% and 40% water cut to about 900STB/day and 1500STB/day for Wells P-P1 and P-P2 respectively.
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