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Life Cycle Climate Change Impact of a Cost-Optimal HVDC Connection to Import Solar Energy from Australia to Singapore

Srikkanth Ramachandran, Kais Siala, Cristina de la Rúa, Tobias Massier, Arif Ahmed, Thomas Hamacher

2021Energies16 citationsDOIOpen Access PDF

Abstract

This paper aims to evaluate the life cycle greenhouse gas (GHG) emissions of importing electrical power into Singapore, generated from a large-scale solar photovoltaic (PV) power plant in Australia, through a long-distance subsea high-voltage direct current (HVDC) cable. A cost optimization model was developed to estimate the capacities of the system components. A comprehensive life cycle assessment model was built to estimate emissions of manufacturing and use of these components. Our evaluation shows that, for covering one fifth of Singapore’s electrical energy needs, a system with an installed capacity of 13GWPV, 17 GWh battery storage and 3.2GW subsea cable is required. The life cycle GHG emissions of such a system are estimated to be 110gCO2eq/kWh, with the majority coming from the manufacturing of solar PV panels. Cable manufacturing does not contribute largely toward GHG emissions. By varying full-load hours and cable lengths, it was assessed that sites closer to Singapore might provide the same energy at same/lower carbon footprint and reduced cost, despite the lower insolation as compared to Australia. However, these sites could cause greater emissions from land use changes than the deserts of Australia, offsetting the advantages of a shorter HVDC cable.

Topics & Concepts

Greenhouse gasCarbon footprintEnvironmental sciencePhotovoltaic systemSubseaLife-cycle assessmentEngineeringAutomotive engineeringEnvironmental engineeringElectrical engineeringProduction (economics)Marine engineeringBiologyEcologyEconomicsMacroeconomicsEnvironmental Impact and SustainabilityPhotovoltaic Systems and SustainabilityElectric Vehicles and Infrastructure
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