Your search keyword '"Francois van Geems"' showing total 3 results

1. Using a System Dynamics Modelling Process to Determine the Impact of eCar, eBus and eTruck Market Penetration on Carbon Emissions in South Africa

Author

Nalini Sooknanan Pillay, Alan Colin Brent, Josephine Kaviti Musango, and Francois van Geems

Subjects

electric vehicle penetration, battery storage, carbon emission, Technology

Abstract

The complexities that are inherent in electricity value chains are non-linear in nature and they require unconventional modelling methods, such as system dynamics. This paper provides an overview of the system dynamics method applied for obtaining an understanding of the impact of electric-bus, -car, and -truck market penetration on carbon emissions in South Africa, through the development of the electric mobility simulator (eMobiSim). Two scenarios were tested. The World Reference scenario was based on a market penetration of 22% eCars, 19% eTrucks, and 80% eBuses and the Gross Domestic Product (GDP) scenario was based on 2.38% eCars, 1.79% eTrucks, and 12% eBuses. The results indicate that the World Reference scenario is the most optimistic, with a 12.33% decrease in carbon emissions in the transport sector and an increase of 4.32% in the electricity sector. However, if the economic structure that is specific to South Africa is to be considered and the GDP scenario is run, then there would only be a 1.77% decrease of carbon emissions in the transport sector and an increase of 0.64% in the electricity sector. Although the eCar market penetration produces the highest reduction in carbon emissions, the volumes that are required are large and other factors, such as price parity and affordability in the various income deciles, would have to be considered in determining whether this volume is achievable.

Published

2020

2. Using System Dynamics to Determine the Impact of Electric Vehicles on Employment in the Component Manufacture Industry

Author

Francois van Geems, Sumaya Nassiep, Nalini Sooknanan Pillay, and Darryl Chapman

Subjects

Computer science, Component (UML), Electric cars, Automotive engineering, System dynamics

Published

2020

3. Using a System Dynamics Modelling Process to Determine the Impact of eCar, eBus and eTruck Market Penetration on Carbon Emissions in South Africa

Author

Francois van Geems, Josephine Kaviti Musango, Nalini Sooknanan Pillay, and Alan C. Brent

Subjects

Truck, Control and Optimization, 010504 meteorology & atmospheric sciences, Natural resource economics, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, battery storage, lcsh:Technology, 01 natural sciences, Gross domestic product, Decile, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), 0105 earth and related environmental sciences, electric vehicle penetration, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, carbon emission, System dynamics, Greenhouse gas, Value (economics), Environmental science, Electricity, business, Energy (miscellaneous), Market penetration

Abstract

The complexities that are inherent in electricity value chains are non-linear in nature and they require unconventional modelling methods, such as system dynamics. This paper provides an overview of the system dynamics method applied for obtaining an understanding of the impact of electric-bus, -car, and -truck market penetration on carbon emissions in South Africa, through the development of the electric mobility simulator (eMobiSim). Two scenarios were tested. The World Reference scenario was based on a market penetration of 22% eCars, 19% eTrucks, and 80% eBuses and the Gross Domestic Product (GDP) scenario was based on 2.38% eCars, 1.79% eTrucks, and 12% eBuses. The results indicate that the World Reference scenario is the most optimistic, with a 12.33% decrease in carbon emissions in the transport sector and an increase of 4.32% in the electricity sector. However, if the economic structure that is specific to South Africa is to be considered and the GDP scenario is run, then there would only be a 1.77% decrease of carbon emissions in the transport sector and an increase of 0.64% in the electricity sector. Although the eCar market penetration produces the highest reduction in carbon emissions, the volumes that are required are large and other factors, such as price parity and affordability in the various income deciles, would have to be considered in determining whether this volume is achievable.

Published

2020