Nami H, Ertesvåg IS, Agromayor R, Riboldi L, Nord LO (2018) Gas turbine exhaust gas heat recovery by organic Rankine cycles (ORC) for offshore combined heat and power applications-energy and exergy analysis. Reis MML, Guillen JAV, Gallo WLR (2019) Off-design performance analysis and optimization of the power production by an organic Rankine cycle coupled with a gas turbine in an offshore oil platform. American Society of Mechanical Engineers, Montreal, Canada, pp 1–13Įveloy V, Rodgers P, Qiu L (2016) Performance investigation of a power, heating and seawater desalination poly-generation scheme in an off-shore oil field. Turbo expo: power for land, sea, and air, vol 3. Energy 64:462–472īhargava RK, Bianchi M, Branchini L, De Pascale A, Orlandini V (2015) Organic Rankine cycle system for effective energy recovery in offshore applications: a parametric investigation with different power rating gas turbines. Khatita MA, Ahmed TS, Ashour FH, Ismail IM (2014) Power generation using waste heat recovery by organic Rankine cycle in oil and gas sector in Egypt: a case study. Case Stud Therm Eng 8:51–70īarrera JE, Bazzo E, Kami E (2015) Exergy analysis and energy improvement of a Brazilian floating oil platform using organic Rankine cycles. Kolahi M, Yari M, Mahmoudi SMS, Mohammadkhani F (2016) Thermodynamic and economic performance improvement of ORCs through using zeotropic mixtures: case of waste heat recovery in an offshore platform. Jouhara H, Khordehgah N, Almahmoud S, Delpech B, Chauhan A, Tassou SA (2018) Waste heat recovery technologies and applications. Pierobon L, Nguyen T-V, Larsen U, Haglind F, Elmegaard B (2013) Multi-objective optimization of organic rankine cycles for waste heat recovery: application in an offshore platform. Hnat JG, Coles WF (1985) A feasibility assessment of cogeneration from a regenerative glass furnace. Zhang A, Zhang H, Qadrdan M, Yang W, Jin X (2019) Optimal planning of integrated energy systems for offshore oil extraction and processing platforms. Nguyen T-V, Elmegaard B, Breuhaus P, Haglind F (2014) Modelling, analysis and optimisation of energy systems on offshore platforms, Phd thesis, Technical University of Denmark Oh TH (2010) Carbon capture and storage potential in coal-fired plant in Malaysia-a review. Malaysia Biennail Update Report to the UNFCCC 2020 (2020) Ministry of Environment and Water Malaysia, Putrajaya Malaysia Biennail Update Report to the UNFCCC 2016 (2016) Ministry of Environment and Water Malaysia, Putrajaya Nguyen T-V, Pierobon L, Elmegaard B, Haglind F, Breuhaus P, Voldsund M (2013) Exergetic assessment of energy systems on north sea oil and gas platforms. Omara A, Saghafifar M, Mohammadi K, Alashkar A, Gadalla M (2018) A review of unconventional bottoming cycles for waste heat recovery: part II-applications. From the economic aspects, although involving ORC could increase the initial investment cost up to 46%, it also increases the net present value, leading to a discount rate up to 10%. Cyclopentane had been widely used as it is thermally stable in the temperature range between 220 and 350 ☌. Dry and isentropic fluids are more suitable to be the working fluid of ORC system on offshore application which could lead to better system performance and efficiency. Furthermore, an average reduction of 22% in the fuel consumption and CO 2 emissions could be achieved over the platform operating years. The electricity generated can increased up to 20.3%, 11.3% increase in the overall system efficiency and 18.3% in the utilization factor. The flexibility of ORC makes it easier to be used on offshore oil and gas platform with different configuration and contribute to many advantages. ORC was found to be able to adapt to low or medium grade which is between 150–400 ☌ heat source with different type of configurations. The studies conducted by previous researcher on the offshore application were reviewed and the benefits of ORC were emphasized and some information on the configuration of the ORC on offshore oil and gas platform were described. In this study, a brief explanation of the process that happened on the offshore platform which is the potential source of waste heat to be recovered will be given. The discussion investigates the capability of this technology as the WHR for offshore oil and gas platform application. An extensive overview of the ORC for offshore oil and gas platform has been performed in this paper. However, there is still no practical application of ORC on this sector currently. Researchers have analyzed Organic Rankine Cycle (ORC) recently on its potential for waste heat recovery (WHR) on offshore oil and gas platform.
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