The energy landscape in Southern Africa has been rapidly evolving over the last decades. An economy-wide transition to sustainability is underway, with energy at its core. In addition, a progressive movement of regional integration with numerous energy-related initiatives is taking place, principally through the Southern African Power Pool (SAPP). At the same time, electricity supply industries in the region are restructuring, with the emergence of independent power producers and increased individualism. These dynamics call for a renewed approach to regional electricity integration in support of sustainable energy development and a critical analysis of regional electricity dynamics with the aim of improving regional sustainability.
Against this background, this paper reviews the performance of the SAPP region through an electricity sustainability prism of analysis. Three key dimensions are considered to assess electricity sustainability in the region: electricity security; electricity equity; and environmental sustainability. The paper then analyses the existing role of regional integration in terms of electricity sustainability in the Southern African Development Community (SADC) region and explores the potential to improve Southern Africa’s electricity sustainability through regional integration channels.
The current electricity model incorporates a paradox in which continual increases in price contribute to falling demand, which in turn leads to higher unit costs and prices. In this context, high levels of capital expenditure by Eskom have become a critical cost driver.
The contradictory response of raising prices in the midst of declining sales results in part from weaknesses in the regulatory framework for electricity prices, and in part from Eskom’s business model
This working paper reviews the factors behind stagnant Eskom sales. It then analyses why Eskom’s response to these changing conditions has become so paradoxical. It finds that Eskom’s path dependency is generated by the current regulatory framework for electricity prices combined with Eskom’s attachment to an outdated business model.
It then provides a systematic assessment of the costs, benefits and risks of three options for responding to the new conditions.
Session 9: Unpacking the water-energy-food nexus
Session 9: Unpacking the water-energy-food nexus
Renewable energy technologies have experienced an exponential growth in South Africa, thanks to the procurement of large-scale power plants. However, South Africa’s electricity sector still lacks a level playing field. Significant vested interests have maintained overwhelming support for centralised, coal-based electricity generation, preventing the development of renewable energy technologies to their optimal potential. Active efforts are required to enhance the transformation of electricity supply in the country by truly incorporating the low-carbon transition in electricity planning, opening the policy space for the development of embedded generation, and phasing out fossil fuel subsidies.
Session 9: Energy Utilisation
Responses to Eskom’s request for compensation for additional costs and for lower than expected sales in 2013/4 should be designed to support industrialisation. From this standpoint, the regulator’s response to Eskom’s proposals should take into account the following.
Session 6: A regional approach to energy resources
Session 6: A regional approach to energy resources
Energy and electricity issues in particular have been high on the South African agenda since the 2008 crisis, which saw the country’s national power utility Eskom implement rolling load shedding and cut supplies to a number of large customers, such as mines and minerals beneficiation plants. As South Africa experienced in 2014 the most stringent power cuts since 2008, reviewing the current electricity planning process is both a timely and necessary exercise. This review, based on an internationally - recognised framework, unpacks the key pillars of them Integrated Resource Plan (IRP) and reviews South Africa’s performance. The objective is to provide a comprehensive overview of the key elements of successful electricity planning and to use this framework to reflect on the country’s opportunities and challenges for optimal planning and implementation.
Policy Paper prepared for the Economic Development Department and the Department of Trade and Industry
The impact of electricity price increases on the competitiveness of selected mining sector and smelting value chains in South Africa: Has it incentivised mining-related companies to invest in renewable energy, cogeneration and energy efficiency?
This research project was jointly commissioned by the Economic Development Department (EDD) and the Department of Trade and Industry (the dti). The Global Green Growth Institute (GGGI) was tasked with implementing the project as part of a partnership to support the South African government's green growth planning efforts. TIPS was the primary research partner and service provider. This project is the result of the collaboration of all of these institutions.
The South African government's Inter-departmental Green Growth Committee, chaired by EDD, served as the project steering committee for this research. A multi-stakeholder Technical Reference Group was also established to offer inputs on various drafts of the report.
This policy paper represents a condensed version of an earlier report, which was the result of extensive fieldwork and interviews with stakeholders across the selected mining value chains. The research team comprised Reena Das Nair, Dinga Fatman, Evans Chinembiri, Gaylor Montmasson-Clair, Georgina Ryan and Wendy Nyakabawo of TIPS. Gaylor Montmasson-Clair and Georgina Ryan were the lead authors of the policy paper. Alison Goldstuck and Katlego Moilwa were GGGI contributing authors.
Although not directly associated with the transition to a green growth path, recent trends in South Africa's electricity supply industry, which has been characterised by energy supply problems since a load shedding crisis in 2008 and drastic price increases (i.e. a trebling of the average electricity price from 2009/2010 to 2017/2018), provide an opportunity to investigate the shift to a greener path. Using these developments as an entry point, this paper investigates the impact of electricity price increases on the competitiveness of mining-related companies and the mitigation measures which have been implemented by various firms in the four most important mining value chains in South Africa, namely platinum, gold, iron ore and coal. Particular attention is paid to the role that electricity price increases and energy security concerns have played in fostering investments by mining-related firms in renewable energy and energy efficiency.
For any enquiries related to the report that are relevant to the dti and EDD, please contact Christian Prins, Economist (macro economic policy), EDD, at email@example.com.
The Renewable Energy Independent Power Producer Programme (REIPPP) was established to encourage new entry into the market.
The Regulatory Entities Capacity Building project review of the renewable energy sector includes:
The National Energy Regulator of South Africa (NERSA) is the regulatory authority established in terms of the National Energy Regulator Act, 2004.
The Regulatory Entities Capacity Building project will provide a comprehensive review of the regulators' role, linked with the policy framework and powers.
The review includes:
Session 2A: Scarce Skills
Trade patterns change as a result of the international specialisation of production and the increased integration of world markets. This is especially evident in small open economies such as the countries that make up the SADC region. In 2000, the share of SADC industrial production that was exported stood at 12%; by 2005, this share stood at 17%. A similar yet more pronounced trend applies to the share of domestic final demand for industrial goods imported. For 2000, the share of domestic final demand imported was 13%; this increased to 20% in 2005. The change in trade patterns reflected in these numbers has important implications for the use of resources in the economies of the region. This study focuses on the implications of changes in SADC industry trade patterns on the energy use patterns of the countries within the region.
South Africa's energy system has been, and still is, one of the key contributing factors to the social and economic development of the nation. By international standards, the South African economy is very energy-intensive, meaning that the country uses a large amount of energy for every rand of economic output. Historically world economic and political factors have had a profound effect on international oil prices which in turn have impacted heavily on individual nation's energy policies.
The focus of this research centres on issues concerning industrial energy use. The theoretical background to this research is well grounded in traditional trade theory, with trade patterns and the international competitiveness of countries explained as a function of both supply and demand side factors. The empirical work undertaken seeks to verify such explanations by determining the extent to which changes in the energy intensity of the South African manufacturing sector are due to changes in the types of goods produced domestically versus changes in the types of goods internationally traded.
South Africa is in the grip of an electricity crisis marked by a euphemism known as load shedding. The demand for electricity has grown to the point that the supply reserve margin is often under threat, necessitating the electricity supplier to cut supply to some areas, or to shed load. This is a condition unknown to South Africa since the country enjoyed electricity security from the mid-1950s. Are we, however, heading in the same direction when considering water? Is water shedding inevitable?
We ask these questions since South Africa is a country classified has having chronic water shortages, a condition exacerbated by climate change and the rapidly increasing demand for water. Can we avert a load-shedding crisis by being pro-active? In this paper we address this issue by applying a Computable General Equilibrium (CGE) model using an integrated database comprising South Africa's Social Accounting Matrix (SAM) and sectoral water use balances. We refer to ASGISA, the governments' Accelerated and Shared Growth Initiative in South Africa, and conclude that business as usual will indeed dump the country into a situation where water shedding will be inevitable.
Unlike electricity, however, water security is much more serious from a livelihoods and health perspective since there are no substitutes for it. The need for pro-active measures is therefore essential.
Since 1994 the South African government has identified poverty alleviation as a key policy goal. This objective was formulated under the auspices of the Growth, Employment and Redistribution (GEAR) policy which has arguably had limited success (Hassan, 2001). In 2004 the Accelerated and Shared Growth Initiative for South Africa (AsgiSA) was formed to build on previous economic growth initiatives and it set a target of 4.5% mean growth over the 2004-2009 period (AsgiSA, 2007). AsgiSA also has the task of meeting the government’s pledged target of halving both unemployment and poverty by 2014 (HSRC, 2008). The Johannesburg Plan of Implementation’ (JPOI) adopted at the Johannesburg World Summit on Sustainable Development in 2002 (GSSD, 2006) has set its goals in alignment with AsgiSA. The JPOI was tasked with helping developing countries face the challenges of sustainable development, namely poverty, inequality and environmental degradation (JPOI Response Strategy, 2003). It also, “highlights access to energy as central to facilitating poverty eradication.” (Vera, et al., 2005: 156).
The achievement of equity within a generation rather than across generations is an ambitious, but vital component of sustainable development (Hanley, et al., 1997: 425) and Winkler (2006: 9) states that, ‘ecological sustainability [can] not be achieved if poverty was not addressed.’ Although there is no consensus on how to define sustainable development or on how to apply it, there is general agreement that sustainable development has three broad dimensions – economic, social and environmental (Winkler, 2006: 9). Poverty eradication becomes central to sustainable development policies and developing useful and reliable poverty indicators is part of this process.
The lack of energy provision pervades all aspects of poverty: shelter, food, health and health services, education and security, and many other elements of well-being also rely heavily on energy provision (Pauchari, et al., 2004; Kemmler and Spreng, 2007). And whilst, “low energy consumption is not the cause of poverty...it is an indicator for many of its elements, such as poor education, bad health care, the hardship imposed on women and children” (Goldemberg and Johansson, 1995).
The link between poverty and energy provision seems indisputable as evidence emerges repeatedly from much of the current economic development literature. Amongst others, Toman and Jemelkova (2002) describe, how “…energy availability can augment the productivity of industrial labor in the formal and informal sectors.” (Winkler, et al., 2007: 11).
The Millennium Development Goals (MDGs) as laid out in the United Nation’s Millennium Declaration echoes the same sentiments. However, despite the strong link between energy provision and poverty eradication the United Nation’s Millennium Declaration, does not stipulate specific targets for energy services. Yet it is recognised that “modern energy services are an essential element enabling a country to meet these goals, [although] it has been difficult to establish quantitative causal relationships between energy and progress toward the MDGs.” (Modi, et al., 2006: 38)
The International Energy Agency (IEA) highlights that with prosperity comes demand not only for more, but also for better quality energy (IEA, 2004). It asserts that the absolute amount of energy used per capita and the share of modern energy services (especially electricity) are key contributors to human development and the target of halving the number of people living on less than $1 a day by 2015 is unlikely to be achieved unless access to electricity can be provided to another half-a-billion people. IEA maintains that developing countries need to improve the availability and affordability of commercial energy to especially rural communities in order to alleviate energy poverty and human underdevelopment.
There are a number of reasons for considering commercial energy. Unless the use of natural resources for energy purposes is monitored and curtailed, “there is danger of these resources getting rapidly depleted leading to grave long term consequences” WWF (2003: 2).
Another important aspect regarding the relationship between energy use and poverty is that the real per unit costs of alternative fuels used by poorer households are higher relative to those used in wealthier households that are linked to the national grid (Brook & BesantJones, 2000: 2). Collecting fuel wood generates high opportunity costs through lost education, the high toll on the environment and the health of the poor. “Energy services such as lighting, cooking, refrigeration, and power for electronics and motive force are provided most cheaply and conveniently, and with the least local pollution, when they are derived from electricity or gas delivered through networks. Moving from traditional to modern fuels can thus dramatically raise the effective incomes of low-income households.” (Brook & Besant-Jones, 2000: 3).
South Africa faces similar challenges to many developing countries and given that poverty alleviation is one of the most pressing goals for South Africa, the link between poverty and energy use must be made clearly. Indeed, attention to energy provision, not just in rural communities but also in poverty stricken urban areas is paramount (Parnell, 2004) and results below demonstrate this. Clear and reliable indicators of energy-poverty will facilitate the formulation of energy provision strategies.
In section one we review the current state of poverty measurement in South Africa and the extent to which the authorities acknowledge (or not) the importance of energy provision as a poverty alleviation strategy. This includes examining trends in social development and some notable South African studies on poverty and poverty alleviation. Section two attempts to define good poverty indicators and to pose energy based poverty indicators against these criteria. Section three identifies some of the weaknesses of current money-metric indicators of poverty and examines the case in favour of using energy-based indicators, not necessarily as a replacement but as a complement to current usage and research. Section four outlines our methodology, and section five presents our results.
No-one can dispute that electricity is an essential input to production and economic growth in South-Africa.
Eskom, a wholly state-owned utility dominates electricity generation, it supplies approximately 95% of South Africa's electricity. The Electricity Supply Industry (ESI) has been facing numerous uncertainties during the past decade. This included aspects such as the restructuring of the industry, the regulatory environment (specifically the methodologies used to approve prices and tariff structures), potential of new market players as well as other issues, including environmental and social objectives.