Electrical energy transition in the context of Ghana

Background: In Ghana, energy transition as a research theme is new. It is unclear whether energy transition has occurred or not, and if so, in what form. This study sought to find out whether this transition has occurred in Ghana’s electrical energy sector and how using indicators deduced from literature, such as change in energy source type, change in energy ownership and management, and transition to greener vehicular transportation. Methods: Information on Ghana’s electrical energy transition was obtained from thematic content analysis of Ghana’s renewable energy policy documents, energy sector reports, newspaper articles and information on the web‐ sites of Ghana’s energy sector institutions such as the Volta River Authority, Ghana Grid Company Limited, Electricity Company of Ghana and the Northern Electricity Distribution Company. Results: In this study, it was demonstrated that two structural changes have occurred in Ghana’s electrical energy sector: (1) Transition from an exclusively hydro energy to a hydro‐thermal mix, with thermal energy constituting about 69% of the 2020 generation mix; and (2) Transition from an exclusively state supplied energy to a state‐private supply mix, with about 56% of the 2020 supply coming from private companies. These changes were motivated by the need to expand the energy supply in response to an increasing demand of 10–15% per year. The study also indicated that renewable energy had attracted attention in policy, with policy targets such as 10% renewable energy in the energy mix by 2030 and provision of renewable energy to 1000 off‐grid communities by 2030. However, renewable energy currently constitutes less than 1% of the electrical energy mix. Also, there has been no change in the heavy reliance on fossil energy for vehicular transportation. Conclusions: The study concludes that energy transition in its broad sense of structural changes in a country’s electrical energy system has occurred in Ghana, however a sustainable energy transition in the sense of a transition to greener energy has not occurred. It is recommended that further studies should be conducted on why Ghana’s renewable energy agenda has so far only been an agenda in policy with very minimal implementation in practice.


Background to the study and study objective
Energy transition has emerged as an important theme within energy governance literature and practice. This is happening against a background of growing movement to green energy as the world strives to maintain greenhouse gas emissions and global warming within limits [1]. For instance in Germany, the energy transition agenda, called 'Energiewende' , has taken firm roots: supportive policies and legislation have been introduced; nuclear power plants have been shut down; the proportion of green energy in the energy mix has increased significantly; there is a localized production and distribution of energy; vehicles with higher emissions have restricted access to certain places; and diesel cars are being banned in some places [2]. In some countries, electricity is replacing fossil

Open Access
Energy, Sustainability and Society  11:47 fuels in powering vehicular transportation within and between the cities [2]. Although there is no universally accepted definition for the term "Energy Transition" [3], it has been described as an inevitable shift away from cheap, centralized, largely fossil-based energy systems [4]. The literature with regard to energy transition shows two categories of definitions for the term. The first category defines energy transition as a structural change in a country's energy system [5]. Structural change here implies a change that is significant and not ad hoc or temporal. This is exemplified by the World Energy Council Deutschland's definition of energy transition as a 'long-term structural change in energy systems' [2]. This definition is inclusive but somewhat general. It reminds us of how early modelers such as Naill (1977) [6] defined the term when it was coined. The second category defines energy transition as a transition towards greener energy [7]. This is exemplified by IRE-NA's definition of the term as a 'pathway towards transformation of the global energy sector from fossil-based to zero-carbon by the second half of this century' [8]. This definition is more specific. The term 'sustainability/ sustainable' is sometimes added to distinguish this green energy definition from the earlier somewhat more general definition. Although energy governance discussions go further to include many other aspects of energy (such as access, affordability, equity and justice) as all vital elements of a country's energy system, this article does not include these other elements in the definition of sustainable energy transition in order to maintain analytical focus. In terms of further conceptualization of the term, Edomah et al. (2020) [9] provide an insightful socio-technical typology for national energy transitions. They distinguish between 'Interim energy transition' , where there are governmental green energy policies but no public acceptance and support; 'Deliberate energy transition' where citizens/users drive sustainable energy transitions even when there are no supporting governmental policies; and 'Transformative energy transition' where sustainable energy transition is motivated by a combination of government policy and public action [9]. York and Bell (2019) also provide an insightful conceptual dichotomy between energy transition and addition [10]. This conceptualization is particularly useful in Global South contexts where low electricity access necessitates continued investments in non-renewable energy, even when these countries make investments in renewable energy; raising the question of whether expansions in green energy in such contexts constitute energy transitions or rather mere additions.
The literature contains two principal motivations for energy transition: firstly, to secure energy supply, e.g., the energy transition in the United States of America to reduce import dependency; and the energy transitions in China and South Africa for expanding the supply to meet the rising energy demand; and secondly, to respond to environmental concerns such as the climate change, e.g., the energy transition in Germany based on environmental concerns [2]. Likewise, Hauff et al. (2014) identified two drivers for energy transition [2]. The first is government policy, e.g., renewable energy targets, energy efficiency standards and associated incentives. The second are technological innovation and business strategies of energy companies, e.g., the US "shale gas revolution" based on shale gas technological innovations. Of the two drivers, government policy is recognized to be the main driver of energy transition [2,11].
In Ghana, energy transition as a research theme is new. There is no conclusive research knowledge with regards to whether energy transition has occurred or not, and in what form if it has occurred. Against this background, this overview paper provides insights into electrical energy transition in the context of Ghana. It contributes answers to the research question: How has electrical energy transition manifested in the context of Ghana?

Indicators of energy transition
In assessing if electrical energy transition has occurred in Ghana and how, indicators of energy transition were deduced from the literature to help arrive at this conclusion. This section presents some indicators of energy transition found in the literature.
Change in energy source type This refers to the transition in the energy source type, for instance from thermal or nuclear sources to greener sources such as solar or wind energy. This is a widespread indicator found in the literature about energy transition [1,2,6,12]. It also includes a change within the same category of an energy source, e.g., a change from coal to natural gas, as both are thermal energy sources. Also admissible in this indicator category is the ongoing transition in domestic energy from biomass energy to more modern energy sources such as liquefied petroleum gas in developing countries [13,14].
Change in energy ownership and management This refers to the change in the ownership or management of a country's energy system, for instance from state to private energy or from centralized energy to localized energy or vice versa [15][16][17][18][19]. The transition from centralized energy to localized energy has been termed 'democratization of energy' [15].
Transition to greener vehicular transportation This refers to a transition to greener vehicular transportation, and takes the energy transition discussion beyond domestic and industrial energy to energy transition occurring in vehicular transportation [1,2,12,20,21]. This is important because the transportation sector is a major consumer of energy [22,23].

Methods
Information about Ghana's electrical energy transition was obtained through thematic content analysis of Ghana's renewable energy policy documents, namely the Ghana Renewable Energy Act (2011)

Ghana's electricity supply: origins and highlights
State-operated electricity supply in Ghana dates back to 1914 under the then colonial government. These were fossil-powered stations that supplied limited electricity to selected cities such as Takoradi, Koforidua, Accra, Kumasi, Tamale, Cape Coast, Winneba and Tema [24,25]. The biggest of these stations, the Tema diesel power station, had a generation capacity of 35,298 kilowatts. The first grid electricity transmission system was installed in 1963. It was a 161 kV transmission system to transmit electricity from the Tema power station to mostly Accra. The inauguration of the Akosombo hydroelectric power station in 1966 by the then independent Ghana Government marked a significant turning point in Ghana's electricity sector. This large dam project resulted in the creation of one of the world's largest man-made lakes, the Volta Lake. It is about 500 km long and covers a land area of about 8500 km 2 . The Akosombo hydropower station has a generation capacity of about 1000 megawatts (MW). At the time of its inauguration, about 60% of the electricity output was used to power the smelter of the Volta Aluminum Company Limited. The remaining provided almost all of Ghana's grid electricity. Ghana's population was then about 5 million compared to the present population of about 30 million people. Moreover, the rural population who were in the majority had not been connected to the national grid. There was even surplus energy that was exported to the neighboring countries Togo, Benin and Burkina Faso. With an increase in electricity demand as a result of the increasing population, increasing industries and expansion of grid electricity to rural areas, the power supply from the Akosombo hydroelectric power station became inadequate. The supply shortfall has been addressed over the years through addition of smaller hydroelectric stations and thermal power stations to the national grid.

Ghana's electricity supply: present situation
Off-grid electricity is presently only at the experimental stage in Ghana. The section therefore highlights the situation as pertains to grid electricity. Ghana's present electricity sector has three major actors: electricity producers, a transmitter company and distributers. The power producer category comprises both state companies and private companies. The state power producer is the Volta River Authority (VRA  Table 1).
The electricity transmitter category is a State company called Ghana Grid Company Limited (GRIDCO). It operates high voltage electricity lines that convey electrical power from the production areas to cities and towns where the power is consumed. The power distribution category is composed of two state companies: the Electricity Company of Ghana (ECG), which is responsible for electricity distribution in the southern and middle parts of Ghana, and the Northern Electricity Company Limited (NEDCO), which is responsible for electricity distribution in the northern part of Ghana. These two companies are responsible for bringing down the high voltages of the transmitted electricity to consumption voltages, distributing the power to homes and industries, and collecting revenues from the power users. There was an attempt in 2019 to privatize electricity distribution in Ghana, but controversies surrounding the privatization stalled the process.
When the present situation of Ghana's grid electricity situation is compared to situations in the past, two structural changes can be seen: (1) Transition from an exclusively hydroelectric energy to a hydro-thermal mix, with thermal energy constituting approximately 69% of 2020 production; and (2) Transition from an exclusively state supply to a state-private supply mix, with approximately 56% of supply coming from private companies as of 2020 (Table 1). These changes have been motivated by the need to expand the energy supply to meet the increasing demand of 10-15% per annum from increasing population, industries and grid expansion. Additional thermal plants and private electricity producers have mostly been brought on board during periods when the nation had run into power crisis. Ghana's unstable electricity problems started as far back as 2001. It however peaked in 2014 and 2015, partly due to prolonged dry seasons during the period resulting in decreased electricity generation from the Akosombo hydroelectricity station. In 2015, the blackouts were so severe that the term 'dumsor' , literally meaning 'power off and on' became a household term in Ghana. As quick fix, the then Government entered into a 10-year contract with the Turkish Karadeniz Energy Group for the provision of thermal electricity from two floating power ships. The agreement did not require Ghana to pay the upfront cost for the power ships but rather for the about 450 MW electricity to be fed into the national grid.
The increasing transition to thermal electricity in Ghana has been accompanied by astronomical increases in electricity prices over the years. This is well captured There is no written government policy driving the increasing transition from hydro power to thermal power. The increasing transition from state power production to private production is backed by a general government policy of public-private partnerships for infrastructure and improved public services delivery, which is enshrined in a written National Policy on Public-Private Partnerships (2011).
With respect to vehicular transportation, there has been no change in heavy reliance on fossil energy [28]. Almost all the vehicles in Ghana presently run on fossil fuels. A very small proportion have hybrid drive systems that run on both fossil fuel and electrical energy stored in traction batteries. Even then, these hybrid cars mostly depend on fossil fuel to charge the traction batteries because public electric car charging ports are not available.

Ghana's renewable energy agenda
New renewable energy has attracted attention in policy, with policy targets such as 10% of renewable energy in Ghana's energy mix by 2030 (Renewable Energy Act, 2011), and renewable energy to 1,000 off-grid communities by 2030 (Renewable Energy Master Plan, 2019). There is however limited action on the ground towards achievement of these new renewable energy targets. There are scattered solar energy projects in Ghana by both state and non-state companies. However, Ghana has not moved beyond demonstration projects on solar and other new renewable energy to large-scale adoption. New renewable energy presently accounts for less than 1% of the grid energy mix (see Table 1). Ghana's larger scale hydroelectricity projects (of over 100 MW) are not considered here, as the Ghana Renewable Energy Act (2011) considers only hydropower projects of up to a 100 MW capacity as renewable energy.

Discussions
Clearly, there have been structural changes in Ghana's electricity sector, in the form of a transition from hydro energy to a hydro-thermal mix with thermal presently accounting for a higher proportion of Ghana's grid electricity; and transition from an exclusively stateproduced electricity to a state-private supply mix with private companies presently accounting for a higher proportion of Ghana's electricity production. These transitions were motivated by the need to expand the energy supply to meet the increasing demand and driven by a general government policy of public-private partnerships for infrastructure and public services delivery. This Ghanaian experience of energy transition is comparable to the energy transitions in China and South Africa, where the transitions were also motivated by the need to expand supply to meet the increasing demand [2].
The increasing transition from hydroelectricity to thermal electricity is unexpected, given the comparative advantages hydroelectricity has over thermal electricity and also the somewhat global consensus on the need to move towards greener energy sources [29][30][31][32][33]. Besides the comparative environmental advantages of hydroelectricity in terms of lower carbon emissions and lower pollution to host communities, hydroelectricity is cheaper for the power consumer compared to thermal electricity [34]. This is so because hydroelectricity relies on flowing water to run the plant turbines whereas thermal electricity relies on expensive fossil fuels to run the plants. Ghana's thermal plants mostly run on light crude oil and gas (See Table 1).
For a developing country such as Ghana, environmental concerns are not always considered in the pursuit of economic and development aspirations. This can be seen in the widespread occurrence of livelihood practices such as artisanal mining of minerals and sand that continue to happen even though they cause massive environmental destruction [35][36][37][38][39]. It is nevertheless expected that the price cost to citizens shall be an important consideration in choosing between development pathway options, given the generally low levels of wages and salaries. One may therefore wonder why successive governments have over the years resorted to the more expensive thermal energy option in addressing Ghana's electricity shortfalls rather than investing in alternative cheaper renewable energy. The answer lies in Government's tendency to resort to 'quick fix' solutions in addressing societal problems. Hydroelectricity projects are highly capital intensive and take a considerable period of time to come to fruition. Since the Akosombo dam project, Ghana has constructed two additional hydroelectric dams (see Table 1). The most recent is the Bui dam, a 400-megawatt hydroelectric project completed in 2013 through the publicprivate partnership between the Ghana Government and Sino Hydro, a Chinese company [40]. The project cost 622 million USD and took over 50 years since its inception to be completed. The cost and long duration make such projects unattractive to governments with 4-year mandates and limited funds. The thermal energy option has thus been more appealing to governments over the years because it provides a quicker fix and reliable solution that enables governments to be seen by the citizenry to have provided solutions during their four-year terms, and thus earn them political points which they need to remain in power. For instance, the Government's decision to resort to floating thermal power ships to address the 2014 and 2015 power crisis could be explained by the fact that the already assembled power plants could be sailed to Ghana and connected to the national grid within weeks [41,42]. The increasing transition from state electricity production to production by private companies is not surprising. There is a general Ghana Government policy to partner private entities in the quest to deliver infrastructure and social services, necessitated by the limited state financial resources against the high public demand for infrastructure and social services [43]. Public privatepartnerships are presumed to enable governments to deliver the essential infrastructure and public services effectively. These presumed benefits have made publicprivate partnerships appealing not only in Ghana, but in many countries across the globe, particularly in developing countries [44][45][46]. There is however overwhelming evidence to the fact that public private partnerships have largely failed to deliver the presumed benefits of secured and better public services [44,[47][48][49][50]. In the Ghanaian electricity sector, the public-private partnerships have resulted in a present excess electricity generation capacity: 4657.35 MW production as against a 2020 peak demand of 2957 MW. Many stakeholders have raised concerns about the nature of contracts the state has made with the private power producers which require Ghana to pay for the excess power whether the power is used or not. It has been reported that Ghana presently pays about $450 million yearly for the unused excess power from the private producers [51]. This cost is passed on to consumers and contributes to the high cost of electricity. Even with the excess generation capacity, there have been periods of sporadic power supply caused by the government's inability to pay the private power producers and suppliers of the fossil fuels used for running the plants. The present generation overcapacity constitutes a setback to transition towards greener electrical energy in Ghana, as it will be difficult to justify further investments in electricity production when there is already generation overcapacity. The higher cost of thermal energy however provides a justification for investment in cheaper renewable energy. Considering the political cost of expensive energy and Ghana's accumulating energy sector debt of over $2 billion, it can be expected that the Government would be interested if provided with electrical power alternatives that are reliable, cheaper and deliverable within a four-year term through public-private partnership arrangements.
The heavy reliance on fossil fuels for vehicular transportation can be expected to remain the same into the foreseeable future. This is so because the charging point infrastructure required for electric cars are presently not available in the country [28]. Furthermore, there is presently little public consciousness on switching to greener vehicular transportation. Studies on vehicular transportation preferences in Ghana indicate that other factors such as income level, family status and size, comfort and distance from workplace determine people's vehicular transportation preferences [52,53]. Environmental concern is not a major consideration.

Conclusions
From the study findings and accompanying discussions, it can be concluded that energy transition in its broad sense of structural changes in a country's electrical energy system has occurred in Ghana in the form of a transition from exclusive hydro energy to a hydro-thermal mix with thermal presently accounting for a higher proportion of Ghana's grid electricity; and a transition from an exclusively state production to a state-private supply mix, where private companies presently account for the higher proportion of Ghana's electricity production. These transitions were motivated by the need to expand the energy supply to meet the increasing demand and driven by a general government policy of public-private partnerships for infrastructure and public service delivery. However, this Ghanaian situation of energy transition cannot be said to be transition towards greener energy. Thus, sustainable energy transition has not occurred in Ghana. It is recommended that further studies should be conducted on why Ghana's new renewable energy agenda has so far only been an agenda in policy with very minimal implementation in practice.