Naslov
ASSESSMENT OF DECARBONIZATION POSSIBILITIES FOR OFFSHORE OIL AND GAS PLATFORMS USING ENERGYPLAN MODEL

Autori
Georges Saliba

Vrsta, podvrsta i kategorija rada
Ocjenski radovi, diplomski rad, diplomski

Fakultet
DEPARTMENT OF CIVIL, CHEMICAL, ENVIRONMENTAL, AND MATERIALS ENGINEERING - DICAM

Mjesto
BOLOGNA

Datum
16.07

Godina
2021

Stranica
104

Mentor
Archetti, Renata ; Perković, Luka

Ključne riječi
Decarbonization of oil & gas industry

Sažetak
Offshore oil and gas extraction is a high-energy process that produces CO2 and methane, which are released into the atmosphere, as well as chemicals, which are discharged into the sea. The oil and gas industry accounts directly or indirectly for the 42% of the global emissions. In order to play its role in mitigating climate change, the oil and gas industry must reduce emissions of at least 3.4 tons of carbon dioxide equivalent (GtCO2e) annually by 2050 to reduce the current emissions by 90%. The biggest climate protest in 2019, when millions of people took to the streets to demand urgent action to combat climate change and minimize emissions, and after the economic shutdown in 2020 caused by the coronavirus pandemic, which highlighted environmental harm and pollution and taxing these emissions, have all aided the creation of more energy-efficient and environmentally sustainable solutions for offshore platforms, which were evaluated in this report. Four scenarios for a hypothetical offshore gas platform in the North Adriatic Sea were presented, assessed and compared based on technical, economic and enviornmental performance indicators. The EnergyPLAN model with optimisation routines and simulations was used to evaluate and analyze the introduction of decarbonization technologies and renewables to the offshore gas platform in order to monitor and highlight the efficacy and importance of the integration of renewables and decarbonization technologies to the offshore gas platform. The latest developments in global climate change and carbon dioxide (CO2) emissions indicate that although the share of renewable energy (RE) in the primary energy supply continues to grow, all countries must increase their efforts to decarbonize the energy sector and achieve a net-zero future. The importance of the interconnection as stabilization measure for a system heavily reliant on variableoutput renewable energy sources is demonstrated in this paper. The results indicate the benefits of the decarbonization possibilities and technologies going from one scenario to another, as the total CO2-emissions can be reduced by 67% with the high integration of renewables share, smartly connecting the different sectors and the implementation of different decarbonization technologies and productions with many types of storages. The results also established that the cost structure of each scenario is mainly driven by the low marginal cost of renewable technologies along with their high investment costs.

Izvorni jezik
Engleski

Znanstvena područja
Rudarstvo, nafta i geološko inženjerstvo, Strojarstvo

POVEZANOST RADA