Study of waste heat recovery potential and optimization of the power production by an organic Rankine cycle in an FPSO unit
Autor: | Max Mauro Lozer dos Reis, Waldyr Luiz Ribeiro Gallo |
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Rok vydání: | 2018 |
Předmět: |
Organic Rankine cycle
Thermal efficiency Renewable Energy Sustainability and the Environment business.industry 020209 energy Energy Engineering and Power Technology 02 engineering and technology Waste heat recovery unit Cogeneration Fuel Technology Electricity generation 020401 chemical engineering Nuclear Energy and Engineering Return on investment 0202 electrical engineering electronic engineering information engineering Fuel efficiency Environmental science Production (economics) 0204 chemical engineering Process engineering business |
Zdroj: | Energy Conversion and Management. 157:409-422 |
ISSN: | 0196-8904 |
DOI: | 10.1016/j.enconman.2017.12.015 |
Popis: | This paper aims to explore the alternatives for waste heat recovery in a floating production storage and offloading (FPSO) platform to meet the demand for heat (from hot water) and to maximize the electric power generation through the organic Rankine cycle (ORC) with purpose to increase the overall thermal efficiency of the process and reduce CO2 emissions. Two different cycles’ configurations are explored (simple and regenerative) using exhaust gases from the gas turbines as the heat sources for the ORC and the cogeneration system. The curves of the GE LM2500 and GE LM2000 turbines are modeled together with the water heating systems and the organic Rankine cycle. The model is solved using a genetic algorithm optimization method, whose objective function is set to meet the electric power demand for the FPSO platform. The purchased equipment costs of the ORC, the reduction in fuel consumption and CO2 avoided are estimated. Waste heat recovery meets the heat demand and contributes up to 21% of the electric energy demand, which increases the overall efficiency of the system, and improves the utilization factor by up to 10.8% and 19.2%, respectively. There is an average reduction of 22.5% in fuel consumption and CO2 emissions during the lifetime of the FPSO. The economic analysis based on the NPV shows that a US$12.55 million return on investment is possible, in addition to reducing the initial investment cost by US$14.2 million through the exclusion of the GE LM2500 gas turbine at project implementation. |
Databáze: | OpenAIRE |
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