An implementation model: photovoltaic application for sustainable energy in South Africa
- Authors: Bukula, Mvuleni
- Date: 2024-04
- Subjects: Energy development -- South Africa , Renewable energy sources -- South Africa , Sustainable engineering -- South Africa
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/64511 , vital:73743
- Description: South African electrical grid faces significant risks that the state produced electricity supply from electricity network to premises for consumption will not meet the electricity demand. Certain sectors of the economy and essential social services such as the hospitals, the telecommunications networks, and water companies are heavily impacted on by load management, through load shedding by rotating power outages or reducing power consumption from primary sources until demand decreases. Eskom, as the major electricity supplier in South Africa's aging infrastructure, with declining reliability, substandard quality coal and large gaps between generating capacity and demand, leaves the country vulnerable to electricity blackouts. The consequences of such power outages are devastating, but no single technology solution can meet the demand. Localised backup solutions such as solar power and battery backup limit the risk of power outages and provide power security during the periods of load shedding. Quantitative research method is pursued as a systematic survey to collect quantitative data by means of sampling and submitting online survey questionnaires. After receiving the data, statistical techniques were performed through structural equation modeling to analyse the structural relationship between the measured variables and the underlying variables. This research focuses on photovoltaic applications as a means of harnessing solar energy to convert solar energy into electricity. Solar panels consist of photovoltaic cells made of semiconductors or materials that respond to the action of photons of light. Energy availability to all can promote economic development and human well-being. Without the improvements in energy efficiency and development costs of new energy technologies such as photovoltaics, the global energy system will come under even more pressure. Therefore, changes in the global trend towards a decentralised low-carbon energy system are inevitable to ensure affordable, reliable and sustainable energy access for all. This research seeks to contribute to the present challenges that are facing South Africa’s electricity supply industry by increasing the energy mix of renewable energy as compared to the fossil fuel-based electricity supply. , Thesis (DPhil) -- Faculty of Engineering, the Built Environment, and Technology, School of Built Environment and Civil Engineering, 2024
- Full Text:
- Date Issued: 2024-04
- Authors: Bukula, Mvuleni
- Date: 2024-04
- Subjects: Energy development -- South Africa , Renewable energy sources -- South Africa , Sustainable engineering -- South Africa
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/64511 , vital:73743
- Description: South African electrical grid faces significant risks that the state produced electricity supply from electricity network to premises for consumption will not meet the electricity demand. Certain sectors of the economy and essential social services such as the hospitals, the telecommunications networks, and water companies are heavily impacted on by load management, through load shedding by rotating power outages or reducing power consumption from primary sources until demand decreases. Eskom, as the major electricity supplier in South Africa's aging infrastructure, with declining reliability, substandard quality coal and large gaps between generating capacity and demand, leaves the country vulnerable to electricity blackouts. The consequences of such power outages are devastating, but no single technology solution can meet the demand. Localised backup solutions such as solar power and battery backup limit the risk of power outages and provide power security during the periods of load shedding. Quantitative research method is pursued as a systematic survey to collect quantitative data by means of sampling and submitting online survey questionnaires. After receiving the data, statistical techniques were performed through structural equation modeling to analyse the structural relationship between the measured variables and the underlying variables. This research focuses on photovoltaic applications as a means of harnessing solar energy to convert solar energy into electricity. Solar panels consist of photovoltaic cells made of semiconductors or materials that respond to the action of photons of light. Energy availability to all can promote economic development and human well-being. Without the improvements in energy efficiency and development costs of new energy technologies such as photovoltaics, the global energy system will come under even more pressure. Therefore, changes in the global trend towards a decentralised low-carbon energy system are inevitable to ensure affordable, reliable and sustainable energy access for all. This research seeks to contribute to the present challenges that are facing South Africa’s electricity supply industry by increasing the energy mix of renewable energy as compared to the fossil fuel-based electricity supply. , Thesis (DPhil) -- Faculty of Engineering, the Built Environment, and Technology, School of Built Environment and Civil Engineering, 2024
- Full Text:
- Date Issued: 2024-04
The determinants of renewable energy in South Africa
- Authors: Adeniyi, Bamidele Ojo
- Date: 2023-12
- Subjects: Renewable energy sources -- South Africa , Power resources -- South Africa , Sustainable development -- Research -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/65503 , vital:74163
- Description: The South African energy system to date has been dominated by the high consumption of fossil fuels and the resultant greenhouse gas emissions. Aside from this, the country has continued to witness incessant power outages, a shortfall in electricity supply, and high electricity prices due to the ageing infrastructure of coal-powered plant. Meanwhile, the United Nations’s Sustainable Development Agenda mandates countries to ensure a sustainable environment by embracing affordable and clean energy in order to mitigate unfavourable climate action by 2030. The attainment of most Sustainable Development Goals depends on renewable energy development which includes solar, wind, hydro, geothermal and biomass energy among others. Therefore, an empirical study of the socio-economic and environmental determinants of renewable energy consumption in South Africa is imperative. Based on Environmental Kuznetz curve and Khan’s sustainable development theories, this study employed the Autoregressive Distributed Lag (ARDL) and Vector Autoregressive (VAR) causality methods to analyse the long-run relationship between economic, environmental and social determinants of renewable energy. The quantile regression method examined the relationship between environmental degradation and economic growth in South Africa between 1985 to 2021. The study shows a long-run relationship between renewable energy and economic factors such as gross domestic product, energy imports, and exchange rate, while gross capital formation and average electricity prices indirectly impact renewable energy consumption. Moreover, there exists a unidirectional influence between gross domestic product and real effective exchange rate to renewable energy consumption. The study suggests that more investment in renewable infrastructures and technology would improve renewable energy consumption in South Africa. The long-run result between environmental factors and renewable energy shows that fossil fuels, deforestation, and carbon dioxide emission indirectly influence renewable energy, while energy depletion increases as renewable energy consumption increases. Meanwhile, a unidirectional causality runs from renewable energy consumption to fossil fuels and carbon dioxide emissions. This suggests that renewable energy consumption would improve environmental quality in South Africa.On the relationship between social factors and renewable energy consumption, the long-run result shows that educational spending and employment rate positively increases renewable energy consumption, while per capita income and urban growth is yet to positively influence renewable energy. Moreover, a bidirectional causal relationship exists between employment rate and renewable energy consumption. This suggests that renewable energy would create job opportunity or the other way round vice versa in South Africa. There is a positive relationship between environmental degradation and economic growth between quantile 10th to 75th, with a quick negative turning seen higher, at quantile 90th. The growth of per capita income also shows a positive relationship at the lower quantile, while an inverse relationship was seen at the higher quantile of 50th to 99th. Non-renewable energy shows a significant and positive relationship to carbon dioxide emission across the quantile curve, while renewable energy shows an inverse relationship to carbon dioxide emissions across the quantile curve; and a quick turn from 25th quantile showing that urban growth does not positively influence renewable energy. This suggests that non-renewable energy use damages the environment, while renewable energy consumption improves the quality of the environment in South Africa. The study recommends that a direct alteration of renewable energy consumption by government is a necessary condition to diffuse clean energy technology across the country. Also, increasing investment in renewable energy infrastructure through public, private and government participation is a necessary move to actualise the achievement of self-sufficiency in the renewable energy sector. Furthermore, since research is an engine room for technological innovation, government should prioritise learning in the form of research, formal and informal training, and short-term courses to equip citizens with the necessary renewable technology skills. It is hoped that the findings of this study would be beneficial to the policymakers in South Africa and also any country where renewable energy consumption is yet to be explored. , Thesis (PhD) -- Faculty of Business and Economic Sciences, School of Economics, Development and Tourism, 2023
- Full Text:
- Date Issued: 2023-12
- Authors: Adeniyi, Bamidele Ojo
- Date: 2023-12
- Subjects: Renewable energy sources -- South Africa , Power resources -- South Africa , Sustainable development -- Research -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/65503 , vital:74163
- Description: The South African energy system to date has been dominated by the high consumption of fossil fuels and the resultant greenhouse gas emissions. Aside from this, the country has continued to witness incessant power outages, a shortfall in electricity supply, and high electricity prices due to the ageing infrastructure of coal-powered plant. Meanwhile, the United Nations’s Sustainable Development Agenda mandates countries to ensure a sustainable environment by embracing affordable and clean energy in order to mitigate unfavourable climate action by 2030. The attainment of most Sustainable Development Goals depends on renewable energy development which includes solar, wind, hydro, geothermal and biomass energy among others. Therefore, an empirical study of the socio-economic and environmental determinants of renewable energy consumption in South Africa is imperative. Based on Environmental Kuznetz curve and Khan’s sustainable development theories, this study employed the Autoregressive Distributed Lag (ARDL) and Vector Autoregressive (VAR) causality methods to analyse the long-run relationship between economic, environmental and social determinants of renewable energy. The quantile regression method examined the relationship between environmental degradation and economic growth in South Africa between 1985 to 2021. The study shows a long-run relationship between renewable energy and economic factors such as gross domestic product, energy imports, and exchange rate, while gross capital formation and average electricity prices indirectly impact renewable energy consumption. Moreover, there exists a unidirectional influence between gross domestic product and real effective exchange rate to renewable energy consumption. The study suggests that more investment in renewable infrastructures and technology would improve renewable energy consumption in South Africa. The long-run result between environmental factors and renewable energy shows that fossil fuels, deforestation, and carbon dioxide emission indirectly influence renewable energy, while energy depletion increases as renewable energy consumption increases. Meanwhile, a unidirectional causality runs from renewable energy consumption to fossil fuels and carbon dioxide emissions. This suggests that renewable energy consumption would improve environmental quality in South Africa.On the relationship between social factors and renewable energy consumption, the long-run result shows that educational spending and employment rate positively increases renewable energy consumption, while per capita income and urban growth is yet to positively influence renewable energy. Moreover, a bidirectional causal relationship exists between employment rate and renewable energy consumption. This suggests that renewable energy would create job opportunity or the other way round vice versa in South Africa. There is a positive relationship between environmental degradation and economic growth between quantile 10th to 75th, with a quick negative turning seen higher, at quantile 90th. The growth of per capita income also shows a positive relationship at the lower quantile, while an inverse relationship was seen at the higher quantile of 50th to 99th. Non-renewable energy shows a significant and positive relationship to carbon dioxide emission across the quantile curve, while renewable energy shows an inverse relationship to carbon dioxide emissions across the quantile curve; and a quick turn from 25th quantile showing that urban growth does not positively influence renewable energy. This suggests that non-renewable energy use damages the environment, while renewable energy consumption improves the quality of the environment in South Africa. The study recommends that a direct alteration of renewable energy consumption by government is a necessary condition to diffuse clean energy technology across the country. Also, increasing investment in renewable energy infrastructure through public, private and government participation is a necessary move to actualise the achievement of self-sufficiency in the renewable energy sector. Furthermore, since research is an engine room for technological innovation, government should prioritise learning in the form of research, formal and informal training, and short-term courses to equip citizens with the necessary renewable technology skills. It is hoped that the findings of this study would be beneficial to the policymakers in South Africa and also any country where renewable energy consumption is yet to be explored. , Thesis (PhD) -- Faculty of Business and Economic Sciences, School of Economics, Development and Tourism, 2023
- Full Text:
- Date Issued: 2023-12
The regulation of renewable ocean energy
- Authors: Kekana, Lerato Caroline
- Date: 2021-04
- Subjects: Gqeberha (South Africa) , Eastern Cape (South Africa) , Renewable energy sources -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/51211 , vital:43217
- Description: Energy is one of the vital natural resources that contribute towards an improvement in social and economic development. Environmental issues such as climate change have resulted in the exploitation of renewable energy gaining momentum. Renewable ocean energy is one of the renewable sources that have the potential to assist South Africa to achieve its energy policy goals, which include economic development and the management of energy-related environmental and health impacts. The exploitation and exploration of renewable ocean energy in South Africa raise legal concerns. These concerns are the lack of appropriate legal and regulatory frameworks and the possible conflicts among users in the marine environment that may occur as a result of the exploitation and exploration of renewable ocean energy. This dissertation, therefore, addresses these concerns by providing a critical assessment of the regulation of renewable ocean energy in South Africa. Firstly, it provides an introduction and legal background of renewable ocean energy. It proceeds by critically assessing the international requirements with which South Africa needs to comply regarding renewable ocean energy. Following that, the dissertation provides an analysis of the environment and energy legislation and the extent to which they regulate renewable ocean energy. Lastly, taking into account other existing and future activities in the marine environment, there is a discussion of the marine spatial planning (MSP) and other regulatory measures in so far as they relate to the resolution of the conflict in the context of renewable ocean energy. The conclusion is that the existing legislation does not appropriately regulate renewable ocean energy. As a result, the dissertation proposes how the existing legislation may adequately include renewable ocean energy. Furthermore, it makes recommendations. , Thesis (LLM) -- Faculty of Law, Public Law, 2021
- Full Text: false
- Date Issued: 2021-04
- Authors: Kekana, Lerato Caroline
- Date: 2021-04
- Subjects: Gqeberha (South Africa) , Eastern Cape (South Africa) , Renewable energy sources -- South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/51211 , vital:43217
- Description: Energy is one of the vital natural resources that contribute towards an improvement in social and economic development. Environmental issues such as climate change have resulted in the exploitation of renewable energy gaining momentum. Renewable ocean energy is one of the renewable sources that have the potential to assist South Africa to achieve its energy policy goals, which include economic development and the management of energy-related environmental and health impacts. The exploitation and exploration of renewable ocean energy in South Africa raise legal concerns. These concerns are the lack of appropriate legal and regulatory frameworks and the possible conflicts among users in the marine environment that may occur as a result of the exploitation and exploration of renewable ocean energy. This dissertation, therefore, addresses these concerns by providing a critical assessment of the regulation of renewable ocean energy in South Africa. Firstly, it provides an introduction and legal background of renewable ocean energy. It proceeds by critically assessing the international requirements with which South Africa needs to comply regarding renewable ocean energy. Following that, the dissertation provides an analysis of the environment and energy legislation and the extent to which they regulate renewable ocean energy. Lastly, taking into account other existing and future activities in the marine environment, there is a discussion of the marine spatial planning (MSP) and other regulatory measures in so far as they relate to the resolution of the conflict in the context of renewable ocean energy. The conclusion is that the existing legislation does not appropriately regulate renewable ocean energy. As a result, the dissertation proposes how the existing legislation may adequately include renewable ocean energy. Furthermore, it makes recommendations. , Thesis (LLM) -- Faculty of Law, Public Law, 2021
- Full Text: false
- Date Issued: 2021-04
Measuring the elasticity of electricity demand in South Africa: implications for future demand and supply
- Authors: Kosiorek, Sebastian
- Date: 2018
- Subjects: Electric power consumption -- South Africa , Electric power distribution -- South Africa , Electric power production -- South Africa , Electric power failures -- South Africa , Electric utilities -- Law and legislation -- South Africa , Autoregression (Statistics) , Renewable energy sources -- South Africa , Energy policy -- South Africa , Integrated Resource Plan
- Language: English
- Type: text , Thesis , Masters , MCom
- Identifier: http://hdl.handle.net/10962/62472 , vital:28196
- Description: A key economic issue for government is the ability to effectively match electricity supply to electricity demand, because of the substantial economic losses in the case of where there is too little supply, or the waste of scarce resources where there is too much supply. In the case of South Africa, this issue, the importance of which was highlighted by the power shortages and associated “rolling blackouts” experience in 2008, has led to the creation of the Integrated Resource Plan (IRP) as a means to decide how energy policy will be developed. Recently, however, the IRP 2010 and its subsequent 2013 and 2016 (draft) updates have been criticised as being too optimistic in regards to their projections of economic growth and electricity demand, making the recommendations in these documents to be flawed. Using monthly data from January 1990 to May 2017, together with Autoregressive Distributed Lag (ARDL) bounds testing for cointegration, this paper measures changes in the elasticity of electricity demand as a result of the massive price hikes over the past decade. Thereafter, the implications of changed electricity as well as possibly lower Gross Domestic Product (GDP) growth in the future for forecasts of possible future demand for electricity are examined. From these revised forecasts, it is possible to make appropriate recommendations in regards to electricity supply policy for South Africa including what possible energy mix is needed as well as the requirements for creating new supply to meet possible future demand. It is concluded that future electricity demand is likely to be much lower than forecast in the IRP 2010 and IRP 2013 documents. The degree of uncertainty in electricity demand growth suggests that large-scale increases in supply capacity taking years to construct, such as coal or nuclear, should be avoided. Small, incremental increases in supply that are able to come on stream swiftly, such as gas, solar and wind power, are likely to be more appropriate for meeting South Africa’s future needs.
- Full Text:
- Date Issued: 2018
- Authors: Kosiorek, Sebastian
- Date: 2018
- Subjects: Electric power consumption -- South Africa , Electric power distribution -- South Africa , Electric power production -- South Africa , Electric power failures -- South Africa , Electric utilities -- Law and legislation -- South Africa , Autoregression (Statistics) , Renewable energy sources -- South Africa , Energy policy -- South Africa , Integrated Resource Plan
- Language: English
- Type: text , Thesis , Masters , MCom
- Identifier: http://hdl.handle.net/10962/62472 , vital:28196
- Description: A key economic issue for government is the ability to effectively match electricity supply to electricity demand, because of the substantial economic losses in the case of where there is too little supply, or the waste of scarce resources where there is too much supply. In the case of South Africa, this issue, the importance of which was highlighted by the power shortages and associated “rolling blackouts” experience in 2008, has led to the creation of the Integrated Resource Plan (IRP) as a means to decide how energy policy will be developed. Recently, however, the IRP 2010 and its subsequent 2013 and 2016 (draft) updates have been criticised as being too optimistic in regards to their projections of economic growth and electricity demand, making the recommendations in these documents to be flawed. Using monthly data from January 1990 to May 2017, together with Autoregressive Distributed Lag (ARDL) bounds testing for cointegration, this paper measures changes in the elasticity of electricity demand as a result of the massive price hikes over the past decade. Thereafter, the implications of changed electricity as well as possibly lower Gross Domestic Product (GDP) growth in the future for forecasts of possible future demand for electricity are examined. From these revised forecasts, it is possible to make appropriate recommendations in regards to electricity supply policy for South Africa including what possible energy mix is needed as well as the requirements for creating new supply to meet possible future demand. It is concluded that future electricity demand is likely to be much lower than forecast in the IRP 2010 and IRP 2013 documents. The degree of uncertainty in electricity demand growth suggests that large-scale increases in supply capacity taking years to construct, such as coal or nuclear, should be avoided. Small, incremental increases in supply that are able to come on stream swiftly, such as gas, solar and wind power, are likely to be more appropriate for meeting South Africa’s future needs.
- Full Text:
- Date Issued: 2018
The role of renewable energy projects in solving South Africa’s energy crisis
- Authors: Mjoli, Anthony Lunga
- Date: 2018
- Subjects: Renewable energy sources -- South Africa , Wind power -- South Africa Solar energy
- Language: English
- Type: Thesis , Masters , MBA
- Identifier: http://hdl.handle.net/10948/32171 , vital:31972
- Description: Renewable energy has played a critical role in improving the economy of South Africa as well as the lives of the citizens. There have been a lot of advantages in using renewable energy such as increased access to electricity, job creation and increased investment. This research project sought to give insight into the effectiveness of renewable energy projects in resolving the nation’s power crises. The research problem was motivated by the power outages that took place in South Africa for close to half a decade between 2010 and 2015. The introduction of renewable energy versus nuclear energy caused wide-spread debates in the business, political and social sectors inter alias. The renewable energy sector started off as a controversial issue across South Africa, with a lot of critics regarding it as an expensive trial and era method of tackling the energy crisis. The researcher purposed to explore on the role of renewable energy projects in solving South Africa’s energy crisis. The specific objectives of the research were to investigate and evaluate how the renewable energy projects contribute to improving the energy supply; to examine the effectiveness of the renewable energy projects in improving the energy supply; and to provide a critical appraisal of the constraints faced renewable energy projects in improving the energy supply in South Africa. The role of renewable energy projects in solving South Africa’s energy crisis is a controversial issue inviting many debates within the realm of scholarship pertaining to energy development. Thus literature was reviewed to give an understanding of the realities associated with the energy status in South Africa at present in order to have an in-depth understanding of the concerns, which need to be dealt with if renewable energy is to play a vital role in the alleviation of the plight of South Africa’s energy crisis. The literature review was part of the secondary data, therefore, the focus thereof led to the adoption of an interpretive stance as the favoured research methodology. A content analysis in case study approach was therefore, used to describe the role of renewable energy projects in solving South Africa’s energy crisis. The research focused on two main renewable energy sources wind and solar energy respectively. The results show that wind energy dominates the RE sector with 3342.59MW of electricity which accounts for approximately 53% of the total production. Solar energy in its various forms accounts for approximately 46% of the total production. Biomass, small hydro and land fill gas account for less than 2% of the total production. The research showed that wind and solar energy are the main renewable energy sources that combat the energy crisis in South Africa. The researcher concluded that there no longer exists a crisis in the South African energy sector. Secondly the researcher concluded that RE has significantly contributed to the energy mix, thereby playing a crucial role in the aversion of the afore-mentioned crisis. Thirdly, the researcher concluded that while the RE sector is growing at an impressive rate, coal will remain the cheapest and dominant source of energy in the foreseeable future of South Africa up to 2050 and possibly beyond.
- Full Text:
- Date Issued: 2018
- Authors: Mjoli, Anthony Lunga
- Date: 2018
- Subjects: Renewable energy sources -- South Africa , Wind power -- South Africa Solar energy
- Language: English
- Type: Thesis , Masters , MBA
- Identifier: http://hdl.handle.net/10948/32171 , vital:31972
- Description: Renewable energy has played a critical role in improving the economy of South Africa as well as the lives of the citizens. There have been a lot of advantages in using renewable energy such as increased access to electricity, job creation and increased investment. This research project sought to give insight into the effectiveness of renewable energy projects in resolving the nation’s power crises. The research problem was motivated by the power outages that took place in South Africa for close to half a decade between 2010 and 2015. The introduction of renewable energy versus nuclear energy caused wide-spread debates in the business, political and social sectors inter alias. The renewable energy sector started off as a controversial issue across South Africa, with a lot of critics regarding it as an expensive trial and era method of tackling the energy crisis. The researcher purposed to explore on the role of renewable energy projects in solving South Africa’s energy crisis. The specific objectives of the research were to investigate and evaluate how the renewable energy projects contribute to improving the energy supply; to examine the effectiveness of the renewable energy projects in improving the energy supply; and to provide a critical appraisal of the constraints faced renewable energy projects in improving the energy supply in South Africa. The role of renewable energy projects in solving South Africa’s energy crisis is a controversial issue inviting many debates within the realm of scholarship pertaining to energy development. Thus literature was reviewed to give an understanding of the realities associated with the energy status in South Africa at present in order to have an in-depth understanding of the concerns, which need to be dealt with if renewable energy is to play a vital role in the alleviation of the plight of South Africa’s energy crisis. The literature review was part of the secondary data, therefore, the focus thereof led to the adoption of an interpretive stance as the favoured research methodology. A content analysis in case study approach was therefore, used to describe the role of renewable energy projects in solving South Africa’s energy crisis. The research focused on two main renewable energy sources wind and solar energy respectively. The results show that wind energy dominates the RE sector with 3342.59MW of electricity which accounts for approximately 53% of the total production. Solar energy in its various forms accounts for approximately 46% of the total production. Biomass, small hydro and land fill gas account for less than 2% of the total production. The research showed that wind and solar energy are the main renewable energy sources that combat the energy crisis in South Africa. The researcher concluded that there no longer exists a crisis in the South African energy sector. Secondly the researcher concluded that RE has significantly contributed to the energy mix, thereby playing a crucial role in the aversion of the afore-mentioned crisis. Thirdly, the researcher concluded that while the RE sector is growing at an impressive rate, coal will remain the cheapest and dominant source of energy in the foreseeable future of South Africa up to 2050 and possibly beyond.
- Full Text:
- Date Issued: 2018
A theoretical model for successful management of revenue for beneficiary communities of renewable energy companies in South Africa
- Authors: Amansure, Ricardo Julian
- Date: 2017
- Subjects: Strategic planning -- South Africa , Social responsibility of business -- South Africa , Renewable energy sources -- South Africa
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: http://hdl.handle.net/10948/7408 , vital:21351
- Description: The Renewable Energy (RE) sector is one of the fastest growing new industries in the Republic of South Africa (RSA). The Bloomberg New Energy Finance Climate Scope Report recently ranked RSA third globally, behind China and Brazil, and first among African countries for investment in clean energy (Glickman, 2014). However, one of the main benefits to be derived from the industry, that of socio-economic and enterprise development, is not being achieved owing to unsuccessful management of revenue for beneficiary communities in the renewable energy sector in RSA. Challenges relating to good governance and long-term planning are causing significant harm to communities that are already vulnerable, and are threatening to have a negative effect on the industry’s ability to fulfil its obligation to alleviate and, ultimately, eradicate poverty in some of the poorest communities in RSA.The primary objective of this study is to develop a model for the successful management of revenue for beneficiary communities in the renewable energy sector in South Africa. The model will provide guidance for enterprises, stakeholders, industry experts and community development practitioners within the renewable energy sector towards a pro-active, effective, and relevant decision-making process to achieve success in managing revenue for beneficiary communities. To address the primary objective, a number of secondary objectives were established by developing a conceptual model comprising variables identified in a comprehensive survey of the related literature. A path diagram, based on the formulation of appropriate hypotheses, was constructed between the independent variable and subsequent intervening and dependent variables. Primary data sourced from the identified national and international population of project management practitioners were collected by means of an electronic measuring instrument. The data were analysed and tested empirically by means of Structural Equation Modelling (SEM). The determinants that were identified through a review of the literature as influencing the success of managing revenue for beneficiary communities of renewable energy companies in South Africa included: the use of outside advice, strategic financial services, strategic planning, strategic partnerships, infrastructure development and project management. In order to achieve the objective, the following research questions were formulated: What is the influence of external factors such as outside advisers and support services on the perceived success of managing revenue for beneficiary communities of renewable energy companies in South Africa? The purpose of this research, therefore, was to evaluate and recommend new methodologies to the renewable energy sector by introducing a model of perceived success in managing revenue for beneficiary communities of renewable energy companies in South Africa. The study provided new insight into managing revenue for beneficiary communities in RSA. With the renewable energy sector being one of the fastest growing sectors in the RSA, and the RSA Government being determined to link the location of renewable energy facilities to economic development, this research has given new insight into managing revenue for SED and ED. The objectives of multi-sector participation, transformational change and sustainable initiatives for beneficiary communities could ensure greater consideration and care when managing beneficiary revenue. Thereby, the opportunity presented by the RE industry for beneficiary communities can change these communities dramatically for the better. The study makes a valuable contribution to the body of knowledge about managing revenue for beneficiary communities. The proposed model has led to a better understanding of the determinants that influence the success of managing revenue for beneficiary communities, namely: distinctive benefits (a combination of two variables: outside advice and support services), financial management, developmental benefits (a combination of two variables: infrastructure development and education), human development, project management and strategic planning. The study has also opened up new avenues of research into this subject.
- Full Text:
- Date Issued: 2017
- Authors: Amansure, Ricardo Julian
- Date: 2017
- Subjects: Strategic planning -- South Africa , Social responsibility of business -- South Africa , Renewable energy sources -- South Africa
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: http://hdl.handle.net/10948/7408 , vital:21351
- Description: The Renewable Energy (RE) sector is one of the fastest growing new industries in the Republic of South Africa (RSA). The Bloomberg New Energy Finance Climate Scope Report recently ranked RSA third globally, behind China and Brazil, and first among African countries for investment in clean energy (Glickman, 2014). However, one of the main benefits to be derived from the industry, that of socio-economic and enterprise development, is not being achieved owing to unsuccessful management of revenue for beneficiary communities in the renewable energy sector in RSA. Challenges relating to good governance and long-term planning are causing significant harm to communities that are already vulnerable, and are threatening to have a negative effect on the industry’s ability to fulfil its obligation to alleviate and, ultimately, eradicate poverty in some of the poorest communities in RSA.The primary objective of this study is to develop a model for the successful management of revenue for beneficiary communities in the renewable energy sector in South Africa. The model will provide guidance for enterprises, stakeholders, industry experts and community development practitioners within the renewable energy sector towards a pro-active, effective, and relevant decision-making process to achieve success in managing revenue for beneficiary communities. To address the primary objective, a number of secondary objectives were established by developing a conceptual model comprising variables identified in a comprehensive survey of the related literature. A path diagram, based on the formulation of appropriate hypotheses, was constructed between the independent variable and subsequent intervening and dependent variables. Primary data sourced from the identified national and international population of project management practitioners were collected by means of an electronic measuring instrument. The data were analysed and tested empirically by means of Structural Equation Modelling (SEM). The determinants that were identified through a review of the literature as influencing the success of managing revenue for beneficiary communities of renewable energy companies in South Africa included: the use of outside advice, strategic financial services, strategic planning, strategic partnerships, infrastructure development and project management. In order to achieve the objective, the following research questions were formulated: What is the influence of external factors such as outside advisers and support services on the perceived success of managing revenue for beneficiary communities of renewable energy companies in South Africa? The purpose of this research, therefore, was to evaluate and recommend new methodologies to the renewable energy sector by introducing a model of perceived success in managing revenue for beneficiary communities of renewable energy companies in South Africa. The study provided new insight into managing revenue for beneficiary communities in RSA. With the renewable energy sector being one of the fastest growing sectors in the RSA, and the RSA Government being determined to link the location of renewable energy facilities to economic development, this research has given new insight into managing revenue for SED and ED. The objectives of multi-sector participation, transformational change and sustainable initiatives for beneficiary communities could ensure greater consideration and care when managing beneficiary revenue. Thereby, the opportunity presented by the RE industry for beneficiary communities can change these communities dramatically for the better. The study makes a valuable contribution to the body of knowledge about managing revenue for beneficiary communities. The proposed model has led to a better understanding of the determinants that influence the success of managing revenue for beneficiary communities, namely: distinctive benefits (a combination of two variables: outside advice and support services), financial management, developmental benefits (a combination of two variables: infrastructure development and education), human development, project management and strategic planning. The study has also opened up new avenues of research into this subject.
- Full Text:
- Date Issued: 2017
Local content requirements and the impact on the South African renewable energy sector
- Authors: Ettmayr, Christopher
- Date: 2016
- Subjects: Renewable energy sources -- South Africa
- Language: English
- Type: Thesis , Doctoral , DCom
- Identifier: http://hdl.handle.net/10948/6149 , vital:21043
- Description: Economies aim to expand over time, which always implies the need for increased energy availability in support of this growth. Governments can use their procurement of energy generation to further enhance the benefit to their economies via certain policy tools. One such tool is Local Content Requirements (LCR) where procurement of a good dictates that a certain value has to be sourced locally. The argument for this tool is that spend is localised and manufacturing, as well as job creation, can be stimulated due to industry establishing in the host economy. However, this practice is distortionary in effect and it does not create a fair playing field for global trade. Furthermore, if the local content definition is weak, or open to manipulation, the goals of such a policy may not be achieved at all. This study looked into the local content requirements of South Africa’s Renewable Energy Independent Power Producer Procurement Programme (REIPPPP) and measured the impact of this policy on the renewable energy sector in general. It was found that, in order to implement a policy such as local content, the host economy had to have certain pre-existing conditions in order to avoid any negative welfare effects. Due to SA not holding all supportive pre-conditions for supporting local content policy, the impact and effect of LCRs has not been optimal and it has not been found to be a sustainable mechanism to continue using into the future indefinitely. The pricing of renewable energy was also found to be higher due to local content and such pricing is passed on to the energy consumer. Therefore, the net welfare impact created for South Africa is diminished in exchange for the creation of jobs and manufacturing, but due to the unsustainability and potential manipulation of the system the country is not maximising the welfare potential from the REIPPPP as it should. It was found that SA renewable energy resources do exist and the logistics infrastructure is strong, providing good potential for investment into renewable energy projects. The demand created by the REIPPPP provided a good market, but there was uncertainty in the long term planning and stability. So, from a market perspective this could be further enhanced. Government had created a sufficient platform for investment, but areas of development such as clusters, R&D and skills training would create a better support environment for LCR policy and strict monitoring of this would also be required to prevent any manipulation. The use of LCRs increases project costs and risk, which is passed onto the energy consumers, but this could be reduced if local goods were more readily available at the right price and at the right quality and quantity. Focus on clusters would once again assist in this regard as independent power producers (IPPs) and engineering procurement and construction (EPC) entities would be able to source components and goods locally in a more cost-effective manner. As the LCRs currently stand in the REIPPPP, it would seem that South Africa is making renewable energy more expensive and although it is argued that this is done for the benefit of creating a new industry and jobs, these are not sustainable and so the current LCR policy will only create short term benefits.
- Full Text:
- Date Issued: 2016
- Authors: Ettmayr, Christopher
- Date: 2016
- Subjects: Renewable energy sources -- South Africa
- Language: English
- Type: Thesis , Doctoral , DCom
- Identifier: http://hdl.handle.net/10948/6149 , vital:21043
- Description: Economies aim to expand over time, which always implies the need for increased energy availability in support of this growth. Governments can use their procurement of energy generation to further enhance the benefit to their economies via certain policy tools. One such tool is Local Content Requirements (LCR) where procurement of a good dictates that a certain value has to be sourced locally. The argument for this tool is that spend is localised and manufacturing, as well as job creation, can be stimulated due to industry establishing in the host economy. However, this practice is distortionary in effect and it does not create a fair playing field for global trade. Furthermore, if the local content definition is weak, or open to manipulation, the goals of such a policy may not be achieved at all. This study looked into the local content requirements of South Africa’s Renewable Energy Independent Power Producer Procurement Programme (REIPPPP) and measured the impact of this policy on the renewable energy sector in general. It was found that, in order to implement a policy such as local content, the host economy had to have certain pre-existing conditions in order to avoid any negative welfare effects. Due to SA not holding all supportive pre-conditions for supporting local content policy, the impact and effect of LCRs has not been optimal and it has not been found to be a sustainable mechanism to continue using into the future indefinitely. The pricing of renewable energy was also found to be higher due to local content and such pricing is passed on to the energy consumer. Therefore, the net welfare impact created for South Africa is diminished in exchange for the creation of jobs and manufacturing, but due to the unsustainability and potential manipulation of the system the country is not maximising the welfare potential from the REIPPPP as it should. It was found that SA renewable energy resources do exist and the logistics infrastructure is strong, providing good potential for investment into renewable energy projects. The demand created by the REIPPPP provided a good market, but there was uncertainty in the long term planning and stability. So, from a market perspective this could be further enhanced. Government had created a sufficient platform for investment, but areas of development such as clusters, R&D and skills training would create a better support environment for LCR policy and strict monitoring of this would also be required to prevent any manipulation. The use of LCRs increases project costs and risk, which is passed onto the energy consumers, but this could be reduced if local goods were more readily available at the right price and at the right quality and quantity. Focus on clusters would once again assist in this regard as independent power producers (IPPs) and engineering procurement and construction (EPC) entities would be able to source components and goods locally in a more cost-effective manner. As the LCRs currently stand in the REIPPPP, it would seem that South Africa is making renewable energy more expensive and although it is argued that this is done for the benefit of creating a new industry and jobs, these are not sustainable and so the current LCR policy will only create short term benefits.
- Full Text:
- Date Issued: 2016
An enabling environment for independent power producers in renewable electricity
- Authors: Palmer, Vivian Julian
- Date: 2015
- Subjects: Renewable energy sources -- South Africa , Independent power producers -- South Africa
- Language: English
- Type: Thesis , Doctoral , DBA
- Identifier: http://hdl.handle.net/10948/5868 , vital:21007
- Description: The increasing demand for electricity, the rising price of energy from conventional sources and limited electricity supply are a global concern. The demand on electricity generation could be alleviated by diversifying the sources from which electricity is obtained to achieve the goals of long-term electricity supply. Diversification implies finding alternative sources of energy such as renewable energy for the production of electricity. The South African electricity system is under increased pressure to provide and maintain electricity supply to its users. Electricity production may be regarded as a key contributor to the social and economic development of South Africa. The challenges are so serious that it will gradually become increasingly difficult to extract sufficient resources to satisfy increasing electricity demand. Growth in the electricity and industrial sectors signifies profound changes in the entire energy industry. The South African power utility Eskom, supplies 94% of South Africa’s electricity but the risk of inadequate supply because of increasing electricity demand is mitigated through the employment of Independent Power Producers (IPPs) which supply to the grid. However, although a limited number of IPP entrepreneurs sell electricity to the Eskom grid, there is no enabling entrepreneurial environment in which they can thrive. There is no positive movement to inaugurate policies and processes. This has created an opportunity for Smart Grid access as a viable option to accommodate IPP entrepreneurs into the grid. Investing in renewable electricity sources may provide feasible alternatives for the electricity industry, it would alleviate pressure on current supply whilst creating an enabling entrepreneurial environment for IPP entrepreneurs and increase entrepreneurial activity. This study investigates a proposed model for an enabling entrepreneurial environment for IPPs in the RE sector that can be utilised to ensure increased entrepreneurial activity within the electricity industry. Establishing such an enabling environment would contribute positively to the alleviation of the electricity demand crisis, result in lower carbon emissions and create a sustainable, more diverse electricity generation mix. This proposed IPP industry model for an enabling entrepreneurial environment is presented to address the problems experienced at the different levels of the electricity industry. The model can be utilised to increase entrepreneurial activity while eradicating major electricity challenges at different levels in the South African electricity industry. The results indicate that that RE, in the form of solar and wind, has the potential to expand the South African electricity industry significantly. Therefore, in order to reform the South African electricity industry, stakeholders need to embrace entrepreneurship as IPP entrepreneurs. This can be done effectively by the incorporation of IPP entrepreneurs into the electricity network. However, an enabling entrepreneurial environment in which to operate must be ensured. In this study, five important variables support the establishment of an enabling entrepreneurial environment for IPP entrepreneurs. These have been identified as; Smart Grids, Entrepreneurship, Renewable electricity environment, SA policy and Stakeholder theory. An important contribution has been made towards Stakeholder Theory. This has proven to be instrumental within the RE sector of the electricity industry in South Africa, as the mentioned role players have a reciprocal role to play. Three surveys were conducted at three levels of the electricity industry, namely, at organisational, legislative and entrepreneurial levels and included Eskom Management, National Energy Regulator (NERSA) Management and Approved and Non-approved IPPs. Both qualitative and quantitative research methods were utilised in this research study. The results indicate that SA Policy is instrumental in assisting stakeholders to facilitate the IPP process and feed the power from RE generation into the network. Most respondents were positive about the role of Smart Grids in future electricity generation and their contribution towards creating an enabling entrepreneurial environment for IPP entrepreneurs. Respondents indicated that by policy decisions, greater emphasis can be placed on the results of climate change and environmental challenges. Emphasis on the incorporation of stakeholders proved imperative to this group (IPPs). The results indicated that stakeholder management is a key factor contributing to the establishment of an enabling entrepreneurial environment. The major contribution of this study is a proposed entrepreneurial model that can improve future sustainability of the electricity supply.
- Full Text:
- Date Issued: 2015
- Authors: Palmer, Vivian Julian
- Date: 2015
- Subjects: Renewable energy sources -- South Africa , Independent power producers -- South Africa
- Language: English
- Type: Thesis , Doctoral , DBA
- Identifier: http://hdl.handle.net/10948/5868 , vital:21007
- Description: The increasing demand for electricity, the rising price of energy from conventional sources and limited electricity supply are a global concern. The demand on electricity generation could be alleviated by diversifying the sources from which electricity is obtained to achieve the goals of long-term electricity supply. Diversification implies finding alternative sources of energy such as renewable energy for the production of electricity. The South African electricity system is under increased pressure to provide and maintain electricity supply to its users. Electricity production may be regarded as a key contributor to the social and economic development of South Africa. The challenges are so serious that it will gradually become increasingly difficult to extract sufficient resources to satisfy increasing electricity demand. Growth in the electricity and industrial sectors signifies profound changes in the entire energy industry. The South African power utility Eskom, supplies 94% of South Africa’s electricity but the risk of inadequate supply because of increasing electricity demand is mitigated through the employment of Independent Power Producers (IPPs) which supply to the grid. However, although a limited number of IPP entrepreneurs sell electricity to the Eskom grid, there is no enabling entrepreneurial environment in which they can thrive. There is no positive movement to inaugurate policies and processes. This has created an opportunity for Smart Grid access as a viable option to accommodate IPP entrepreneurs into the grid. Investing in renewable electricity sources may provide feasible alternatives for the electricity industry, it would alleviate pressure on current supply whilst creating an enabling entrepreneurial environment for IPP entrepreneurs and increase entrepreneurial activity. This study investigates a proposed model for an enabling entrepreneurial environment for IPPs in the RE sector that can be utilised to ensure increased entrepreneurial activity within the electricity industry. Establishing such an enabling environment would contribute positively to the alleviation of the electricity demand crisis, result in lower carbon emissions and create a sustainable, more diverse electricity generation mix. This proposed IPP industry model for an enabling entrepreneurial environment is presented to address the problems experienced at the different levels of the electricity industry. The model can be utilised to increase entrepreneurial activity while eradicating major electricity challenges at different levels in the South African electricity industry. The results indicate that that RE, in the form of solar and wind, has the potential to expand the South African electricity industry significantly. Therefore, in order to reform the South African electricity industry, stakeholders need to embrace entrepreneurship as IPP entrepreneurs. This can be done effectively by the incorporation of IPP entrepreneurs into the electricity network. However, an enabling entrepreneurial environment in which to operate must be ensured. In this study, five important variables support the establishment of an enabling entrepreneurial environment for IPP entrepreneurs. These have been identified as; Smart Grids, Entrepreneurship, Renewable electricity environment, SA policy and Stakeholder theory. An important contribution has been made towards Stakeholder Theory. This has proven to be instrumental within the RE sector of the electricity industry in South Africa, as the mentioned role players have a reciprocal role to play. Three surveys were conducted at three levels of the electricity industry, namely, at organisational, legislative and entrepreneurial levels and included Eskom Management, National Energy Regulator (NERSA) Management and Approved and Non-approved IPPs. Both qualitative and quantitative research methods were utilised in this research study. The results indicate that SA Policy is instrumental in assisting stakeholders to facilitate the IPP process and feed the power from RE generation into the network. Most respondents were positive about the role of Smart Grids in future electricity generation and their contribution towards creating an enabling entrepreneurial environment for IPP entrepreneurs. Respondents indicated that by policy decisions, greater emphasis can be placed on the results of climate change and environmental challenges. Emphasis on the incorporation of stakeholders proved imperative to this group (IPPs). The results indicated that stakeholder management is a key factor contributing to the establishment of an enabling entrepreneurial environment. The major contribution of this study is a proposed entrepreneurial model that can improve future sustainability of the electricity supply.
- Full Text:
- Date Issued: 2015
Private sector participation in renewable energy: a survey of listed companies in South Africa
- Authors: Eno, Venessa Asik Awo
- Date: 2012
- Subjects: Renewable energy sources -- South Africa , Energy policy -- South Africa , Public-private sector cooperation -- South Africa
- Language: English
- Type: Thesis , Masters , MA
- Identifier: vital:9114 , http://hdl.handle.net/10948/d1015636
- Description: Although renewable energy technology has received much attention over recent years the depletion of known fossil fuel reserves and the volatility of international fuel prices require that society looks beyond the current coal-dominated electricity generation methods. Investment in renewable energy and energy efficiency is important to reduce the negative economic, social and environmental impacts of energy production and consumption in South Africa. Currently, renewable energy contributes relatively little to primary energy and even less to the consumption of commercial energy. The challenge of transforming entire economies is enormous, especially if a country is as fossil-fuel-based and emission-intensive as South Africa. However, as it is already facing climate change impacts in an increasingly carbon constrained world; South Africa must drastically reduce its greenhouse gas emission intensity soon. The South African electricity sector is a vital part of the economy and at the same time contributes most to the emission problem. Transforming this sector is therefore urgently needed. First steps have been taken to enhance energy efficiency and promote renewable energy, but they have failed to have any large-scale effects. The two major barriers to investments in renewable energy technologies are based in the South African energy innovation system and its inherent power structures and in the economics of renewable energy technologies. Subsequently the private sector will have to play a significant role in closing the human resources gap by providing funds and expertise. Furthermore, the creation of employment opportunities and actively promoting structural change in the economy are seen, especially in industrialized countries, as goals that support the promotion of renewable energy. Moreover, with more support and assistance from the government and partnership with the private sector will be of immense help to achieve renewable energy goals.
- Full Text:
- Date Issued: 2012
- Authors: Eno, Venessa Asik Awo
- Date: 2012
- Subjects: Renewable energy sources -- South Africa , Energy policy -- South Africa , Public-private sector cooperation -- South Africa
- Language: English
- Type: Thesis , Masters , MA
- Identifier: vital:9114 , http://hdl.handle.net/10948/d1015636
- Description: Although renewable energy technology has received much attention over recent years the depletion of known fossil fuel reserves and the volatility of international fuel prices require that society looks beyond the current coal-dominated electricity generation methods. Investment in renewable energy and energy efficiency is important to reduce the negative economic, social and environmental impacts of energy production and consumption in South Africa. Currently, renewable energy contributes relatively little to primary energy and even less to the consumption of commercial energy. The challenge of transforming entire economies is enormous, especially if a country is as fossil-fuel-based and emission-intensive as South Africa. However, as it is already facing climate change impacts in an increasingly carbon constrained world; South Africa must drastically reduce its greenhouse gas emission intensity soon. The South African electricity sector is a vital part of the economy and at the same time contributes most to the emission problem. Transforming this sector is therefore urgently needed. First steps have been taken to enhance energy efficiency and promote renewable energy, but they have failed to have any large-scale effects. The two major barriers to investments in renewable energy technologies are based in the South African energy innovation system and its inherent power structures and in the economics of renewable energy technologies. Subsequently the private sector will have to play a significant role in closing the human resources gap by providing funds and expertise. Furthermore, the creation of employment opportunities and actively promoting structural change in the economy are seen, especially in industrialized countries, as goals that support the promotion of renewable energy. Moreover, with more support and assistance from the government and partnership with the private sector will be of immense help to achieve renewable energy goals.
- Full Text:
- Date Issued: 2012
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