Your search keyword '"SUN, SUSAN"' showing total 2 results

1. Assessment of Electricity Decarbonization Scenarios for New Zealand and Great Britain using a Plant Dispatch and Electrical Energy Storage Modelling Framework.

Author

Crossland, Andrew, Scoles, Keith, Wang, Allen, Groves, Chris, and Sun, Susan

Subjects

ELECTRICAL energy, ENERGY storage, ELECTRICITY, ELECTRIC power production, FOSSIL fuels, WIND power plants, SOLAR power plants

Abstract

This paper proposes a methodology to assess the impact of alternative electricity generation and energy storage scenarios for meeting electricity demand on a national level. The method combines real and synthetic electricity generation and demand data to investigate different decarbonization strategies using solar and wind generation and electrical energy storage. This method is applied to provide relevant case studies for two geographically similar electricity systems in New Zealand and Great Britain. Newly available solar and wind data sets at hourly resolution are used within this method for these systems to assess the potential contribution of these technologies and as such, to refresh understanding of the impact of these technologies on decarbonization strategies against historical and future demand patterns. Although wind, solar and storage technologies are found to reduce the carbon emissions in both electricity systems, a key result is quantifying the impact this has on traditional generation as a backup resource. In New Zealand an investment in wind and solar equivalent to less than 15% of the wind/solar capacity in Great Britain is found to (i) reduce fossil fuel use to less than 2% of annual electricity generation requirements in the data assessed and (ii) remove the need for continuous operation of fossil fuel plants. Further, it is shown that existing hydro storage potential could be used to create near complete decarbonization of New Zealand electricity [ABSTRACT FROM AUTHOR]

Published

2020

2. An Emissions Arbitrage Algorithm to Improve the Environmental Performance of Domestic PV-Battery Systems.

Author

Sun, Susan Isaya, Crossland, Andrew Frederick, Chipperfield, Andrew John, and Wills, Richard George Andrew

Subjects

*PHOTOVOLTAIC cells, *GREENHOUSE gases, *AIR pollution emissions prevention, *NATURAL gas, *PERFORMANCE

Abstract

Domestic PV-battery systems are rarely operated in a way which specifically maximizes environmental benefit. Consequently the studies that seriously examine such systems often find that the greenhouse gas and pollutant emissions savings of rooftop PV, though still positive, are lessened by adding a domestic battery. This study shows thatby simulating a PV-battery system with a range of sizes that this need not be inevitable. A novel algorithm was designed specifically to perform 'emissions arbitrage': to charge the battery when the grid emissions intensity is low and to discharge when it is high. It was found that the CO2 saved relative to the same system with PV only can more than pay back the CO2 debt of manufacturing the battery. This is true as long as the UK moves away from the present-day situation where natural gas-fired generators are nearly always the marginal generator. This work underlines the importance of both the operating strategy and the interactions between the system and the entire grid, in order to maximize the environmental benefit achievable with domestic PV-battery systems. [ABSTRACT FROM AUTHOR]

Published

2019