The Study of Flow Characteristic in the Riser Pipe from the Subsea Wellhead to Kikeh FPSO

The study focuses on the flow characteristic within the riser pipe in the deepwater environment. Deepwater environment presents significant flow assurance difficulties such as solid formation like hydrate formation that could blocks the fluid delivery to the riser top due to high pressure and low...

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Bibliographic Details
Main Author: Kong, Chai Chen
Format: Final Year Project
Language:English
Published: Universiti Teknologi Petronas 2008
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Online Access:http://utpedia.utp.edu.my/10263/1/2008%20-%20The%20Study%20of%20Flow%20Characteristic%20in%20the%20Riser%20Pipe%20from%20the%20Subsea%20Wellhead%20to%20KIKEH%20FPSO.pdf
http://utpedia.utp.edu.my/10263/
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Institution: Universiti Teknologi Petronas
Language: English
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Summary:The study focuses on the flow characteristic within the riser pipe in the deepwater environment. Deepwater environment presents significant flow assurance difficulties such as solid formation like hydrate formation that could blocks the fluid delivery to the riser top due to high pressure and low temperature at the sea bed. Furthermore, severe slugging could causes large pressure fluctuation at the riser base and riser top which reduces the production rate and damages the topsides equipments. Hence, extra expenditure needed to be spent to overcome these flow assurance problems. Kikeh Field is the country's first deepwater development in offshore with 1300m of water depth which is operated by Murphy Sabah Oil Co. Ltd and PETRONAS Carigali Sdn. Bhd. One of the wells of Kikeh field, Kikeh-1 well that has 205.5 'F ~f reservoir temperature and 4595 psig of reservoir pressure above the bubble point is adopted to be the case study. The objective of this study is to study the flow characteristic of the oil in horizontal and vertical flow affected by various gas flow rates, oil flow rates and the internal pipeline diameters for Kikeh-1 well. The tendency of hydrate formation and severe slugging formation were also included in the study. PIPESIM software was used to simulate the tendency of hydrate formation based on the Kikeh- 1 well's compositional components, whilst the flow patterns are identified by using Aziz and Mandhane correlations. Different flow patterns and the conditions where hydrate would form contribute a significant reference to deepwater riser and flowline design. The study concluded that at production rate or 13,000 bpd, the superficial gas velocity has to be at below 3 ft/s for horizontal flow and below 0.1 ft/s of modified superficial gas velocity for vertical flow in order to avoid slug flow. Besides, the pipeline should be able to withstand 5,000 psia and operates at least about 750 'F. Such conditions would prevent the hydrate formation to occur in the pipeline. Hence, by understanding the tendency of hydrate formation and the conditions of slug flow to occur which might causes severe slugging, a reliable pipeline could be designed with optimum specifications in order to prevent flow assurance problems.