It also contains a regionalized structure of the basins and delivery infrastructure that would be required to supply the energy sector and assesses the impact of meeting those needs on the cost of supplying water. The results of this investigation demonstrate the process and type of tools that can be employed to examine the energy-water nexus in a national level planning context, and the insights that can be gained from water-smart energy planning.
A number of relevant policy scenarios in South Africa were explored, and the results show that specific energy sector policies can have significant implication for both new investment in water supply infrastructure and in some cases can lead to stranded energy and water investments, reinforcing the importance of planning these sectors through a nexus approach.
This case study is the first time the cost of water supply has been assessed in a sector wide energy supply expansion plan. By documenting the methodology, the authors aim to help energy sector planners and modelers properly incorporate water constraints in their work.
This publication is part of the World Bank's thirsty energy initiative.
- Connecting the Water and Energy Sectors
- Overview of the Modeling Methodology
- Initial Findings on the Water-Energy Nexus
Why the Water-Energy Nexus and Why South Africa?
- Thirsty Energy: Toward Integrated Planning for the Global Water-Energy Nexus
- The Rationale for South Africa: A Compelling Example of the Water-Energy Nexus
Water in South Africa
- Water for Energy
- Non-Energy Water Needs
Energy in South Africa
- Resource Supply
- The Electricity Sector
- Refining of Liquid Fuels
Water-Energy Challenges Facing South Africa’s Energy Sector
- Water Consumed in the Production of Energy
- Water Quality
- Future Climate Change Impacts
Integrating Water and Energy Planning: The SATIM-W Model
- The Beginnings of the SATIM-W Model
- Spatially Aligning the Water-Energy Systems in SATIM-W
- Regional Water Supply Cost Curves
- Incorporating the Cost of Water into SATIM-W