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Oil and gas platforms with steam bottoming cycles: System integration and thermoenvironomic evaluation

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  • Nguyen, Tuong-Van
  • Tock, Laurence
  • Breuhaus, Peter
  • Maréchal, François
  • Elmegaard, Brian

Abstract

The integration of steam bottoming cycles on oil and gas platforms is currently regarded as the most promising option for improving the performance of these energy-intensive systems. In this paper, a North Sea platform is taken as case study, and a systematic analysis of its energy requirements is conducted. The site-scale integration of steam networks is evaluated, based on thermodynamic, economic and environmental performance indicators. The penalties induced by operational restrictions such as (i) the use of a heat transfer loop, (ii) the demand for a heat buffer, (iii) the selection of a specific cooling utility, and (iv) the weight limitations on the platform are quantitatively assessed. The results illustrate the benefits of converting the gas turbine process into a combined cycle, since the fuel gas consumption and the total CO2-emissions can be reduced by more than 15%. Using the cooling water from the processing plant reveals to be more profitable than using seawater, as the additional pumping power outweighs the benefit of using a cooling medium at a temperature of about 8°C lower. This study highlights thereby the importance of analysing energy savings and recovery options at the scale of the entire platform, rather than at the level of the utility plant solely.

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  • Nguyen, Tuong-Van & Tock, Laurence & Breuhaus, Peter & Maréchal, François & Elmegaard, Brian, 2014. "Oil and gas platforms with steam bottoming cycles: System integration and thermoenvironomic evaluation," Applied Energy, Elsevier, vol. 131(C), pages 222-237.
    • Handle: RePEc:eee:appene:v:131:y:2014:i:c:p:222-237
    DOI: 10.1016/j.apenergy.2014.06.034
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    1. Walnum, Harald Taxt & Nekså, Petter & Nord, Lars O. & Andresen, Trond, 2013. "Modelling and simulation of CO2 (carbon dioxide) bottoming cycles for offshore oil and gas installations at design and off-design conditions," Energy, Elsevier, vol. 59(C), pages 513-520.
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    3. Nguyen, Tuong-Van & Jacyno, Tomasz & Breuhaus, Peter & Voldsund, Mari & Elmegaard, Brian, 2014. "Thermodynamic analysis of an upstream petroleum plant operated on a mature field," Energy, Elsevier, vol. 68(C), pages 454-469.
    4. Nguyen, Tuong-Van & Pierobon, Leonardo & Elmegaard, Brian & Haglind, Fredrik & Breuhaus, Peter & Voldsund, Mari, 2013. "Exergetic assessment of energy systems on North Sea oil and gas platforms," Energy, Elsevier, vol. 62(C), pages 23-36.
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    Cited by:

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    3. Luca Riboldi & Steve Völler & Magnus Korpås & Lars O. Nord, 2019. "An Integrated Assessment of the Environmental and Economic Impact of Offshore Oil Platform Electrification," Energies, MDPI, vol. 12(11), pages 1-21, June.
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    9. Rivera-Alvarez, Alejandro & Coleman, Michael J. & Ordonez, Juan C., 2015. "Ship weight reduction and efficiency enhancement through combined power cycles," Energy, Elsevier, vol. 93(P1), pages 521-533.
    10. Nguyen, Tuong-Van & Tock, Laurence & Breuhaus, Peter & Maréchal, François & Elmegaard, Brian, 2016. "CO2-mitigation options for the offshore oil and gas sector," Applied Energy, Elsevier, vol. 161(C), pages 673-694.
    11. Diban, Pitchaimuthu & Foo, Dominic C.Y., 2018. "Targeting and design of heating utility system for offshore platform," Energy, Elsevier, vol. 146(C), pages 98-111.
    12. Nguyen, Tuong-Van & Voldsund, Mari & Breuhaus, Peter & Elmegaard, Brian, 2016. "Energy efficiency measures for offshore oil and gas platforms," Energy, Elsevier, vol. 117(P2), pages 325-340.
    13. Luca Riboldi & Lars O. Nord, 2017. "Lifetime Assessment of Combined Cycles for Cogeneration of Power and Heat in Offshore Oil and Gas Installations," Energies, MDPI, vol. 10(6), pages 1-23, May.

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