University of Cape Town
Browse
Energy Transition in South Africa using a linked energy-economic model.pdf (2.83 MB)

Energy Transition in South Africa using a linked energy-economic model

Download (2.83 MB)
conference contribution
posted on 2020-02-10, 12:59 authored by Bruno MervenBruno Merven, Faaiqa Hartley, Jesse Burton, jules schers
In this paper an improved energy-economic model is used to analyse the transition away from coal and toward renewable energy in South Africa. The model enhancements presented in this paper allow for a more accurate assessment of changing coal costs on potential energy and emissions pathways for South Africa. The better representation of the coal sector provides insights on the timing and magnitude of coal mine and power plant retirements, which are a crucial part of information in developing policies required to ameliorate any negative impacts resulting from the energy transition.
These negative impacts currently form a social obstacle to change in energy policy. To illustrate the model advances two potential power generation pathways for South Africa are compared: a least-cost energy mix which does not include new coal power plants; and one where renewable capacity in the power sector is constrained, resulting in ~25GW new coal-fired power plant capacity. A comparison of these scenarios shows that, with rising coal costs and lower coal export demand, persisting with coal-based power generation does not “save jobs” in South Africa at the aggregate level, as higher power
investment is required in the constrained scenario. This, combined with the higher electricity price experienced in the constrained scenario, negatively affects the rest of the economy, offsetting any positive gains from continued coal-based power generation.

Funding

SA-TIED

IFPRI

SANEDI

History

Department/Unit

University of Cape Town

Usage metrics

    Environment and Process Systems Engineering Research Group

    Licence

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC