Ghana: Energy Minister Nominee To Be Grilled By Parliament On February 15The statement continued, “The Nigeria Distribution Sector Recovery Program (DISREP) will help improve service quality, as well as the financial and technical performance of distribution companies by providing financing based on performance and reduction of losses. This project complements the support provided under the Power Sector Recovery Operation (PSRO) approved in June 2020. Specifically, it will ensure that distribution companies make necessary investments to rehabilitate networks, install electric meters for more accurate customer billing and to improve quality of service for those already connected to the grid. It will also help strengthen the financial and technical management of DISCOs to improve the transparency and accountability of the distribution sector.” According to the World Bank task team leader for the project, Nataliya Kulichenko, “The program will only be eligible to those DISCOs that transparently declare their performance reports to public with the actual flow of funds based on strict verification of achieved performance targets by an independent third party. The program would also make meters available at affordable prices to all consumers in Nigeria, a long pending demand of Nigerians.” The statement added that “the program will reduce the CO2 emissions of the Nigerian power sector by reducing technical losses, increasing energy efficiency, replacing diesel and biomass with grid-electricity, and investing more in on- and off-grid renewable energy. DISREP supports the development of regulatory guidance on climate-resilient infrastructure and facilitates the inclusion of climate risks in decision making.” Source: www.energynewsafrica.com
Nigeria: World Bank Approves $500m To Improve Electricity Access
The World Bank has approved $500m to help boost access to electricity in Nigeria and improve the performance of the electricity distribution companies in the country.
According to the bank, financial support would be provided to private distribution companies only on achievement of results in terms of access connections, improved financial management and network expansion.
The World Bank noted in a statement that, “85 million Nigerians don’t have access to grid electricity. This represents 43% per cent of the country’s population and makes Nigeria the country with the largest energy access deficit in the world. The lack of reliable power is a significant constraint for citizens and businesses, resulting on annual economic losses estimated at $26.2 billion (₦10.1 trillion) which is equivalent to about two per cent of GDP. According to the 2020 World Bank Doing Business report, Nigeria ranks 171 out of 190 countries in getting electricity and electricity access is seen as one of the major constraints for the private sector.”
The statement quoted World Bank Country Director, Shubham Chaudhuri as saying, “Improving access and reliability of power is key to reduce poverty and unlocking economic growth in the aftermath of the global COVID-19 pandemic.
“The operation will help improve the financial viability of the DISCOs and increase revenues for the whole Nigerian power sector, which is critical to save scarce fiscal resources and create jobs by increasing the productivity of private and public enterprises”.
Ghana: Electricity From Wind And Solar More Economical Than Nuclear – IES Analysis
Institute for Energy Security’s (IES’) review of data from the U.S. Energy Information Administration (EIA) and financial advisory and asset management firm Lazard, have revealed that generating electricity from wind and solar is more economical than nuclear.
The potential savings attained by generating a set quantity of electricity from renewables as a substitute for nuclear power is revealed as close to 288 percent for wind and utility-scale solar photovoltaic (PV).
IES’ trend analysis based on Lazard’s Levelized Cost of Energy (LCOE) between 2010 and 2019 reveal that new unsubsidized wind and solar power were cheaper than some already running resources like coal, nuclear, and some gas.
The cost decline is rendering solar PV and wind increasingly attractive resource relative to conventional generation technologies with similar generation profiles. The modeling shows that solar power on its own can beat Gas Peaker plants on their own, without storage, in most any market.
The U.S. Energy Information Administration (EIA) defines LCOE as the average revenue per unit of electricity generated that would be required to recover the costs of building and operating a generating plant over its assumed lifetime. It is often cited as a convenient summary measure of the overall competiveness of different generating technologies. Key inputs to calculating LCOE include capital costs, fuel costs, fixed and variable operations and maintenance (O&M) costs.
Lazard’s LCOE comparison for various generation technologies on a Dollar per megawatt-hour ($/MWh) basis, is sensitive to factors such as U.S. federal tax subsidies, fuel prices and costs of capital.
It must be noted that a key consideration for utility-scale generation technologies is the impact of the availability and cost of capital on LCOE values; reflecting essentially the return on, and of, the capital investment required to build them.
While capital costs for a number of “Alternative Energy” generation technologies are currently in excess of some conventional generation technologies, declining costs for many Alternative Energy generation technologies, coupled with uncertain long-term fuel costs for conventional generation technologies, are working to close formerly wide gaps in LCOE values. Lazard’s unsubsidized LCOE analysis has shown significant historical cost declines for utility-scale “Alternative Energy” generation technologies driven by, among other factors, decreasing supply chain costs, improving technologies and increased competition.
The 2019 report showed that at a high level, both solar and wind power have shown continued price declines, to outpace coal, nuclear, and some gas-fired power plants. The dramatic historical LCOE decline of wind and utility-scale solar PV is in light of material declines in the pricing of system components (turbines, panels, inverters, etc.) and improvements in efficiency, among other factors.
The IES analysis employs selected historical mean unsubsidized LCOE values from Lazard Annual reports. The mean LCOE reflects the average of the high and low LCOE for each respective technology in each respective year.
Lazard’s data suggests an unsubsidized utility scale solar power plant is going to generate electricity at a cost between 3.6 and 4.4 cents per kilowatt-hour (¢/kWh), with mean value of 4.0 ¢/kWh. This price has fallen by approximately 84 percent between 2010 and 2019. Over the period, utility scale solar power has experienced an average of 25 percent decline in cost per year. That decline fell to 13 percent over the last 5 years, and 7 percent between 2018 and 2019.
With wind, Lazard’s report indicates that it can generate power at a cost between 2.8 and 5.4 cents per Kwh, as it has fallen by roughly 67 percent between 2010 and 2019. Over the decade, unsubsidized wind power has seen an average of 11 percent decline in cost per year, a 7 percent fall per year over the last 5 years.
On the part of nuclear, Lazard’s report suggests it can generate unsubsidized power at rate between 11.8 and 19.2 cents per kilowatt-hour (¢/kWh), with mean value of 15.5 ¢/kWh. That between 2010 and 2019, the cost per megawatt-hour of nuclear has risen by 61 percent. Over the period, the cost of nuclear power has experienced an average increase of 5.7 percent per year. That increase, rose to 7.12 percent over the last 5 years, with the largest cost rise recorded as 27 percent between 2016 and 2017.
From the data analyzed, it is evident that the expected market value of electricity generated by nuclear power is greater than that of renewables, and this difference according to the National Renewable Energy Laboratory (NREL), will continue to increase through to 2050.
The body on the other hand, projects utility solar PV and onshore wind cost to decline 60 percent and 30 percent respectively by 2050, from 2018 levels, assuming continued industry growth, and technological breakthroughs could cut costs up to 80 percent by 2050.
Among the three options reviewed, nuclear power is right at the top, with total costs in 2019 of US$155 per megawatt-hour ($/MWh), most of which involves capital construction costs. On the low ends are solar and wind power at US$40 and US$41 per MWh respectively.
The potential savings attained by generating a set quantity of electricity from renewables as a substitute for nuclear power is revealed as close to 288 percent for wind and utility-scale solar PV. Even without accounting for current subsidies, the cost of renewable energy have shown to be considerably lower than the marginal cost of conventional energy technologies such as coal and nuclear.
The IES analysis also does not take into account potential social and environmental externalities or reliability-related considerations. These includes but not limited to air-borne pollutants, nuclear waste disposal, and climate change. It is also does not take into consideration issues such as dispatch elements (e.g. baseload/intermediate load/peak), and location (e.g. centralized/distributed).
While utility-scale solar and wind power generation technologies are already cost-competitive with conventional generation technologies such as coal and nuclear, a key factor regarding the long-term competitiveness of these alternative energy generation technologies is the ability of technological development and increased production volumes to materially lower their operating expenses and capital costs, in the years ahead.
Source: Fritz Moses, Elizabeth Sam, & Abisola Ganiyu
Ghana: AIS Students Who Tested Positive For Covid-19 Are Stable-VRA
Ghana’s state largest generation company Volta River Authority (VRA) is urging parents of the Akosombo International School to remain calm, assuring that health professionals have been adequately equipped to handle the recent Covid-19 cases in the school.
The power generation company owns the Akosombo International School in Eastern Region of the Republic of Ghana.
Media reports suggested that a student of the school tested positive for coronavirus prompting management to undertake mass testing of the students.
Reports went on to suggest that out of the number of students who were screened 42 of them were positive.
In a statement issued by Corporate Affairs and External Relations Unit of VRA , it said: “All who have so far tested positive are stable and without symptoms but in isolation for further management and treatment by VRA hospital staff.
The statement noted that parents of the students have been duly informed about the development.
“We urged parents and the general public to remain calm as our health professionals are adequately equipped to handle the cases,” the statement said.
Source: www.energynewsafrica.com
Tullow Taps Maersk Venturer For Long-Term Ghana Campaign
Maersk Drilling has received a conditional letter of award from Tullow Ghana Ltd. for the provision of the ultra-deepwater drillship Maersk Venturer and additional services for a development drilling campaign at the TEN and Jubilee field offshore Ghana.
The duration of the final contract is around four years with expected commencement in Q2 2021.
The estimated value of the final contract is approx. USD $370 million, excluding the value of the additional services provided and performance bonuses. The operation will be supported by local partner Rigworld.
The final contract has a progressive day rate structure for the full duration of the contract. However, after the initial period of 18 months, the contract has a provision to shift to a market-linked day rate structure.
The final contract is conditional upon certain regulatory conditions being met. Maersk Drilling will publish an announcement upon conclusion of a final contract.
“We’re delighted to get this opportunity to secure a long-term contract for Maersk Venturer, as Tullow once again shows confidence in Maersk Drilling’s ability to deliver stable and highly efficient operations to their major development projects in Ghana. This also means that we will be able to continue our work with the Ghanaian community and local suppliers who have previously contributed to our West African operations,” says CEO of Maersk Drilling, Jørn Madsen.
Maersk Venturer is a high-specification 7th generation drillship delivered in 2014. It is currently warm-stacked in Las Palmas, Spain, after finishing a campaign in Ghana for Tullow in 2020.
Source:www.energynewsafrica.com
Saudi Arabia Raises Oil Prices To U.S. And Europe
The world’s top oil exporter, Saudi Arabia, on Thursday raised the prices of all its crude oil that will go to the United States and Europe in March while leaving unchanged the official selling prices of its crude to its key market in Asia.
The Saudi state oil giant Aramco raised the prices of all its crude grades to the U.S. by $0.10 per barrel, while the Saudi oil prices to Europe were lifted by between $1.30 and $1.40 a barrel, according to Bloomberg.
The price of the Saudi flagship Arab Light crude grade to Northwest Europe was raised by $1.40 a barrel for March compared to February and set at a discount of $0.50 a barrel against ICE Brent, Reuters reported, citing a pricing document it had seen.
Last month, a day after surprising the market with a 1-million-bpd additional production cut for February and March, the Saudis raised the official selling prices (OSPs) of their oil for Asia for February. Saudi Aramco lifted the price of the flagship Arab Light grade by $0.70 a barrel to a premium of $1 per barrel against the Middle East benchmark, the Oman/Dubai average.
This month, however, the Saudis are leaving the prices to Asia unchanged for March compared to February, after the extra production cut created a rush among refiners in Asia in January, with buyers scrambling to secure crude oil supplies from Europe.
Saudi Arabia has also reportedly announced reductions in crude oil volumes to be supplied to at least nine clients in Asia and Europe for this month. The cuts were made for shipments under long-term contracts and concern Aramco’s heavier grades, according to Bloomberg.
The extra Saudi cut looks to be working, for now, in favor of the OPEC+ producers who are desperate to see higher oil prices to patch up their budgets hit by the crash in oil prices and the economic downturn due to the pandemic. Oil prices have rallied over the past month since Saudi Arabia announced the additional 1-million-bpd cut.
Source:Oilprice.com
Ghana: Energy Sector On Autopilot -INSTEPR
The Institute for Energy Policies Research (INSTEPR), an energy think tank in the Republic of Ghana, has expressed worry over the seeming inaction in the country’s energy sector since the swearing in of President Nana Akufo-Addo for his second term in office on January 7, 2021.
According to INSTEPR, Ghana’s energy sector is now on an autopilot because of the absence of a substantive minister.
President Akufo-Addo has nominated Dr. Matthew Opoku Prempeh, Member of Parliament for South Manhyia Constituency, as Minister for Energy, pending parliamentary approval.
The ministerial nominee is expected to be vetted on Monday, February 15, 2021.
In a statement issued by INSTEPR and signed by its Executive Director, on Thursday, February 4, it noted that despite the numerous problems besetting the energy sector, there would not be a minister until the end of February.
“Ghana missed a deadline to take over the operation and maintenance of the Ameri Plant. This was because of delay in undertaking audit of the plant and an indebtedness to Ameri. There are union agitations at the Tema Oil Refinery since the beginning of the year. The refinery needs special attention by the government to determine its long-term viability. In recent weeks, most parts of the country have experienced low voltage and power outages. There are teething problems at Gridco and ECG which need immediate attention. We have just mentioned a few problems occurring in the energy sector in the month of January and the Institute believes that the lack of leadership can compound these problems to escalate,” the statement said.
“INSTEPR strongly believes that the Transition Act 845, 2012, should be amended to remove section 13(5) to replace it with the appointment of, at least, five substantive ministers for Finance, Health, Energy, Education and Agriculture. Parliament will make the necessary provisions to vet and approve these ministers designate within the first 21 days of the new parliament. This will afford any new government to have leadership in key areas of our economy,” the statement said.
Below is the full statement
THE ENERGY SECTOR ON AUTOPILOT FOR THE FIRST 100 DAYS OF THE NEW ADMINISTRATION
Ghanaians have high expectation after the swearing in of a new President on the 7th of January, to swiftly oversee all sectors of the economy. We have the first ‘100 days’ expectations and in some countries, there is a believe that the momentum of this ‘100 days’ determines the pace and success of a government.
The energy sector with its numerous problems does not have a Minister and looking at the timetable for vetting by Parliament, we will not have one until the end of February. Even when the President appoints a caretaker as stipulated in the Transition Act 845, 2012, section 13 (5), that individual cannot take policy decisions. The Authorities, corporations and companies under the sector faces the same problem of inaction and no policy direction since their boards were dissolved as per the Chief of Staff’s letter dated 12th January 2021.
This problem is not only felt in the energy sector but across the entire government in Ghana. In the midst of this Covid-19 pandemic, the President does not have a Cabinet and a Health Minister to steer the country through these difficult times.
In the past week, Ghana missed a deadline to take over the operation and maintenance of the Ameri Plant. This was because of delay in undertaking Audit of the plant and an indebtedness to Ameri. There are Union agitation at Tema Oil Refinery since the beginning of the year. The Refinery needs special attention by government to determine the long-term viability of the Company. In recent weeks, most part of the country has experienced low voltage and power outages. There are teething problems at Gridco and ECG which needs immediate attention. We have just mentioned a few problems occurring in the energy sector in the month of January and the Institute believes that the lack of leadership can compound these problems to escalate.
INSTEPR strongly believes that the Transition Act 845, 2012 should be amended to remove section 13 (5) to replace it with the appointment of at least 5 substantive ministers for Finance, Health, Energy, Education and Agriculture. Parliament will make the necessary provisions to vet and approve these ministers designate within the first 21 days of the new parliament. This will afford any new government to have leadership in key areas of our economy.
As it stands, Ghana Incorporated will have nothing to show for in the first quarter of 2021. The private sector looks to government for stability and the uncertainty created by the current situation does not benefit Ghana. Our industry Barometer for first quarter, will now be published in the second quarter, June 2021.
Kwadwo N. Poku
Executive Director
Ghana: Energy Minister Nominee To Be Grilled By Parliament On February 15
The Ministerial Nominee for Ghana’s Energy Ministry, Dr Matthew Opoku Prempeh, is expected to appear before the country’s Appointments’ Committee of Parliament on February 15, 2021, to be vetted on his understanding of the sector.
The nominee will be vetted alongside other ministerial nominees.
Dr. Opoku Prempeh would be grilled on a wide range of issues in the energy sector covering both power and oil and gas (downstream and upstream).
Key areas where questions are likely to come from would be on Ghana’s Commitment to the Paris Agreement on Climate Change, Energy Sector Debt, Cylinder Recirculation Model on LPG, Ameri Power Deal, botched PDS deal, Ghana’s Nuclear Power Programme, the government’s commitment towards rural electrification and universal access to electricity and impact of Covid-19 on operations at the upstream.
The Appointments’ Committee has scheduled between February 10 and March 9, 2021, to vet President Akufo-Addo’s first batch of ministerial nominees.
Dr Opoku Prempeh, popularly known as Napo, is a Member of Parliament for South Manhyia Constituency in the Ashanti Region.
He is a Medical Doctor and served as a Minister for Education in the first term of H.E Nana Akufo-Addo.
Source: www.energynewsafrica.com
U.S. Oil Production On Course To Hit Record Levels In 2023
U.S. oil production fell sharply in 2020, but the Energy Information Administration is expecting it to pick back up and even set new records in just two years, it said in its much-anticipated annual energy outlook (AEO2021).
According to the EIA, U.S. oil production will surpass in 2023 its previous annual average of 12.25 million barrels per day, achieved in 2019.
In 2020, U.S. oil production had reached a high of 13.1 million bpd on average for week ending March 13. But the overall annual average for the pandemic year was much lower after oil production fell sharply in August, briefly dipping below 10 million barrels per day.
U.S. energy consumption, however, will take years to return to 2019 levels—eight years to be exact. The EIA notes, however, that “that projection is highly dependent on the pace of U.S. economic recovery.”
Electricity demand, according to the AEO2021, is expected to return to 2019 levels by 2025—again, a slower recovery than U.S. oil production, which also has export markets to draw on.
That U.S. production could return to 2019 levels is remarkable, considering that domestic consumption will take years longer to recover.
What The U.S. Political Transition Might Mean For Africa Generally And Its Oil And Gas Sector In Particular (Article)Currently, U.S. oil production, according to the EIA is averaging 10.9 million barrels per day—2.2 million bpd lower than the highs reached in March of 2020. The number of active drilling rigs is on an upward trajectory, but overall, the number of active drilling rigs is still 400 below where it was just one year ago today. Meanwhile, OPEC’s production is also down by millions of barrels per day from 2019 levels as part of its coordinated production cuts. Source: Oilprice.com
Ghana: Aker Energy’s Country Director Now CEO
Norwegian oil and gas company, Aker Energy AS has promoted its Ghana’s Country Director, Mrs. Kadijah Amoah, to the position of Chief Executive Officer.
This follows a decision by Aker Energy SA to let Aker Energy Ghana to be managed and run fully by Ghanaians.
The company announced this in a statement issued on Tuesday, February 3, 2021.
Aker Energy holds a 50 percent participating interest in the Deepwater Tano Cape Three Points block in the Western part of the Republic of Ghana, including the Pecan development project.
Other partners are Lukoil (38%), Fueltrade (2%) and Ghana National Petroleum Corporation (10%).
In a statement issued on Tuesday, CEO of Aker Energy, AS Håvard Garseth said: “This sends a strong signal that Aker Energy is committed to becoming a fully Ghanaian operator managed and run by Ghanaian employees. Mrs. Kadijah Amoah has, as Country Director, proved her drive, intellect and passion for her native country and the company and we are looking forward to her management of this transition.”
Commenting on her elevation, Mrs. Kadijah Amoah said: “For the Ghanaian people, we need to get in control of our own destiny and it starts with mastering the development and operation of the vast energy resources we have. The 700 million barrels of undeveloped oil in our block and the adjacent AGM block have the potential to transform Ghana, not only the economy but also the competence base. The latter can also be applied over time in other sectors such as the renewables sector.”
Mr. Garseth would continue to safeguard the technical delivery of the Pecan project while supporting Mrs. Amoah’s management of the transition to become a fully-run Ghanaian operator.
“I am humbled by this honour, but also glad that Håvard and his very experienced technical team will continue to support and safeguard the technical delivery until all technical knowledge and competence has been fully transferred to my home country,” said Mrs. Kadijah Amoah.
During 2020, the technical team, comprising some of the most experienced subsea experts globally, reduced the breakeven estimate significantly through optimising the field development.
“I am very satisfied by the strong work that the teams in Accra and Oslo have carried out so far. The technical fundamentals of the new concept are strong,” says Garseth.
Source: www.energynewsafrica.com
Power Pools In African Need To Be Interconnected- Amuna
A former Chief Executive Officer of Ghana Grid Company (GRIDCo), a power transmission company in the Republic of Ghana, Ing. William Amuna is urging Africans to interconnect the various power pools within the continent to facilitate power export.
Emphasizing on the benefits to be derived from interconnecting the power pools Ing. Amuna said it will lead to more efficient supply of electricity and less cost.
He noted that East Africans have their power pool, with South Africa, North Africa and West Africa having theirs too.
Ghana: Tullow To Drill New Oil Well At Jubilee Field In Q2 2021“There is the need to pull all these power pools as that is the best way to go so that in future, somebody in South Africa can have his power plant and can export power to Ghana or Nigeria or any part of West Africa,” he said. Speaking at a symposium organised by the Federation of African Engineering Organisations (FAEO) via zoom, Ing. Amuna stressed the need for African countries to invest heavily in the power supply, saying it would lead to improved economies. Ing. Amuna, who is a technical controller at Millennium Development Authority (MiDA), an implementing agency for Ghana Power Compact II, expressed worry about how electricity produced are sometimes not consumed. This, he said places a huge task on the continent to promote and implement a sustained energy efficiency and demand side management. “Sometimes you have electricity but people don’t want to use it efficiently, ” he said. He revealed that Ghana and Burkina Faso would soon construct another interconnection line to boost power transmission. Source: www.energynewsafrica.com
ExxonMobil Swings To $20.1Billion Loss In Q4 2020 Amid ‘Most Challenging Conditions’ Ever
U.S oil super major ExxonMobil booked a $20.1 billion loss in the last quarter of 2020 compared to a profit in the same period of 2019 due to massive impairments amid the most challenging market conditions the company has ever experienced.
ExxonMobil on Tuesday announced an estimated fourth quarter 2020 loss of $20.1 billion compared to a profit of $5.7 billion in the same period of 2019.
The loss of $20.1 billion included unfavourable identified items of $20.2 billion, primarily non-cash impairments; earnings excluding identified items were $110 million.
The company’s fourth-quarter capital and exploration expenditures were $4.8 billion, bringing full-year spending to $21.4 billion, $9.8 billion lower than the prior year.
ExxonMobil’s oil-equivalent production in the fourth quarter was 3.7 million barrels per day, consistent with the third quarter of 2020. Production was reduced by government-mandated curtailments.
Excluding entitlement effects, divestments, and government mandates, liquids production increased 5 per cent, while natural gas volumes increased 2 per cent.
Chevron Reports Annual Loss Of $5.5bn On Lower Oil Prices“The past year presented the most challenging market conditions ExxonMobil has ever experienced”, said Darren W. Woods, Chairman and Chief Executive Officer. “While the effects of the pandemic significantly impacted our 2020 results, our previously executed strategic initiatives and reorganizations enabled us to respond decisively to permanently improve our cost structure, drive greater efficiencies across our businesses, and emerge a stronger company. “These improvements are expected to deliver structural expense savings of $6 billion per year by 2023, relative to 2019”. In 2020, ExxonMobil reduced annual cash operating expenses by $8 billion, of which $3 billion are structural reductions. The company expects to generate additional annual savings of $3 billion by 2023, resulting in total structural annual expense reductions of $6 billion, including savings from a global workforce reduction. ExxonMobil also announced the election of Tan Sri Wan Zulkiflee Wan Ariffin, a former Petronas president and Group CEO, to its board of directors. ExxonMobil continues discussions with other director candidates with a range of skills sets for potential addition to its board, as part of its ongoing refreshment process. With the election of Wan Zulkiflee, the ExxonMobil board will increase to 11 directors, 10 of whom are independent directors. The board expects to take further action in the near term. Source:www.energynewsafrica.com
Togo: Biothermica To Carry Out A Waste-To-Energy Project In Kloto
The Canadian company Biothermica Technologies is embarking on a project to recover energy from waste using biogas in Kloto in the Plateaux region of Togo. The project, implemented in partnership with the organisation Bioénergie Togo, is financed by the government of the Canadian province of Quebec.
The prefecture of Kloto will be at the heart of a waste management and energy recovery initiative. The project will be implemented by Biothermica Technologies, a company based in Montreal, Canada.
The company will rely on a grant of 250 million CFA francs (over €381,000) from the Government of the Canadian Province of Quebec under its
International Climate Cooperation Program (ICCP).
It is led by the Ministry of Sustainable Development, Environment and the Fight against Climate Change of the Province of Quebec in partnership with the Quebec Ministry of International Relations and La Francophonie.
Funded by the Green Climate Fund (GCF), the ICCP aims to contribute to the reduction of greenhouse gas emissions and to help the most vulnerable French-speaking countries face the impacts of climate change through technology transfer.
Setting Up A Waste Collection System
The Quebec government’s programme is primarily aimed at countries in North Africa, the Caribbean and Sub-Saharan Africa. In Togo, the waste-to-energy project will be implemented in several phases. Initially, Biothermica Technologies will set up a waste collection system in the Kloto prefecture. This component will then be entrusted to the organisation Bioénergie Togo, which will see the capacities of its members strengthened.
The Kloto prefecture will provide Biothermica Technologies with a site for burying the waste collected in the locality.
The biogas resulting from the fermentation of the organic waste will be exploited using a recovery technology to feed a power plant, the capacity of which will certainly be determined after the preliminary studies to be carried out by the project developer. Biothermica Technologies also plans to equip the site with a photovoltaic solar power plant.
Technology Transfer
“Thanks to the transfer of expertise that Biothermica will carry out, Bioénergie Togo will own the landfill site (…) of the waste. The project will also involve the active participation of several Togolese groups and the population through Bioénergie Togo. Biothermica will participate in the construction of the future biogas and solar power plant and will ensure its operation”, says the Canadian company.
It also estimates that the use of biogas will make it possible to reduce emissions by 260,000 tonnes of CO2 by 2030. Above all, the project should provide a sustainable solution to the problem of waste pollution in Kloto.
Nuclear Power: A Sensible And Sustainable Option For Africa
The decision to adopt nuclear power in South Africa was made as a result of sound strategic planning. It has turned out to have been a very good decision, writes Dr Kelvin Kemm and Knox Msebenzi.
Africa is huge, much larger than the standard Mercator map projection indicates. Africa is the size of the US, Europe, China, India and Japan combined. The African Island of Madagascar is larger than the UK. South Africa alone is the size of the whole of Western Europe.
People from Europe often cannot comprehend social discussion in which someone mentions that they drove 100km to attend a party, and then drove home afterwards. Africa is sparsely populated in comparison to first world countries. Meteorological conditions are very different, as are the fauna and flora.
A couple of centuries ago European countries were scrambling to take control of large pieces of Africa, to increase their wealth and colonial prestige. They brought their sophisticated advanced ideas and methods to Africa. This changed the developmental direction of African countries and the positive influence was absorbed. But a great deal of unhappiness and conflict also resulted when colonisers could not grasp the limitations of converting Africa into a European clone.
Famed British author, Rudyard Kipling came to South Africa at the time of war between Britain and South African settlers of Dutch descent, who had arrived some 200 years earlier. The settlers of Dutch heritage had become part of Africa by this stage and did not want to be controlled or dominated by the British. A conflict of ideology resulted which led to a destructive four-year war.
Kipling with his intellect was able to see through the messy fog of violent conflict and fell so in love with the country and its spirit that he made an annual visit for the following decade. He wrote beautiful prose about South Africa but emphasised the deep spiritual differences in terrain and general character between Africa and England. He understood the heart and soul of the country, but very many did not and still do not. Since then Europe has advanced greatly but so has Africa, but not in the same way.
People of Africa have developed locally applicable solutions to issues and challenges. First World countries must accept that their technological solutions were developed for their social and geographic conditions, not ours. Yes, we have adopted and adapted many foreign solutions, but mostly a straight transplant from the First World to Africa does not work optimally.
Frequently, completely African-developed solutions work best, and in a number of instances, ideas which originated in Europe were then dramatically modified in Africa when looked at with an African vista. These were then returned to Europe in a significantly improved form. Such cases are the development of the world GSM cellphone network; and dust filtration on locomotives, helicopters and farm machinery.
Major infrastructure development is electrification. But very high-voltage power lines of over 1,000km in length are unheard of in Europe. In South Africa, such power lines also traverse one of the highest lightning incidence areas on the planet. These realities have led to technologically advanced solutions.
The people of Africa know what is best for the people of Africa. First World countries really must refrain from using a paternalistic attitude in trying to tell Africans to ‘see sense’ and to do it ‘the right way,’ which means; ‘their way’.
In South Africa, coal has been the mainstay of electricity production for over a century, but the major coalfields are clustered in the far northeast. The port city of Cape Town is further away from the coalfields than London is from Rome. So some 40 years ago the most southerly nuclear power station in the world was built near Cape Town, to supply power from the south.
The decision to adopt nuclear power in South Africa was made as a result of sound strategic planning. It has turned out to have been a very good decision.
Nuclear is most certainly a source of sustainable clean energy. At least seven African countries have signed agreements with Russian nuclear company Rosatom to develop nuclear capability. Nuclear is highly regulated and therefore a robust nuclear regulator is required. Small Modular Reactors (SMRs) are currently being developed which are ideal for deployment in virtually any location. Large conventional nuclear can be 3,000MW in size whereas an SMR is only about 100MW in output.
Have You Read?
The term ‘modular’ refers to small sub-assemblies which can be fabricated in factories and then integrated on-site. Large nuclear typically involves much on-site fabrication, plus the challenging transportation of certain huge vessels. SMR technology makes it easier to standardise reactors, and factory construction makes it easier to apply strict quality control.
Contrary to widely circulated rhetoric; that nuclear and renewable energy (RE) are mutually exclusive, they actually complement each other very well. SMRs can vary power output at the will of the system operator. Renewable energy sources such as wind and solar depend on the variable weather. If a cloud is cast over a solar plant, nuclear power can be ramped up to replace the reduced output.
Critics of nuclear falsely say that nuclear is very inflexible. The reason why most nuclear plants are not designed for highly flexible operation is that their output does not depend on the amount of input fuel like coal, diesel or gas. So they can be designed to just run flat out, reliably. In France and Germany nuclear plants are used to vary supply as power requirements change; called ‘load-following’.
SMRs are ideal for replacing coal plants that are decommissioned, especially in South Africa. This means basically; that everything remains almost the same – no new power lines, no new roads etc. This will give new life to the prospects of the sustainability of job security for communities around the plants.
Nuclear Can Balance Renewables
Certain critics of nuclear for Africa have argued that it requires specialised skills that African countries do not have. The truth is that these skills can be developed once a decision to go nuclear has been taken. Besides, the conventional electrical or mechanical engineers can be ‘nuclearised’ by training them on specialised nuclear aspects. Everything else is the same.
The idea that a national power system can run on Renewable Energy (RE) sources is unrealistic and suicidal. A prudent approach is to find an optimal mix of technologies, taking into consideration grid stability and reliability. African countries need reliable disptachable power. This means that if there is any loss of generation somewhere in the system, the system controller can instruct other units to increase generation. With RE one gets only what the sun or wind is producing at the time.
Increasing output is out of the question. Some countries, like Germany, can afford to aspire to 100% RE because they are part of the EU Power Pool and are surrounded by a support structure like; nuclear power in France, coal in Poland, and hydro in the Scandinavian countries. Most countries in Africa cannot afford this luxury and therefore any power system has to be reliable.
Because of the inherent safety of SMR units, licensing by a nuclear regulator is relatively easy. The industry can adopt the approach taken by the aviation industry. Boeing and Airbus licence their aircraft in the countries of manufacture, but they are operated all over the world.
SMR systems can be sized for the needs of any country, and be placed close to large load centres thereby reducing the need for expensive transmission networks.
Have You Watched This Conversation On Nuclear Power In South Africa?
As electrical power demand increases it can be satisfied by small increments of one SMR at a time, which is a small stress on financial and logistical planning. SMRs reduce the risk of cost overrun as they are small amounts, and much construction is done in a controlled environment – the factory floor.
Due to their advanced safety features (including no possibility of a nuclear meltdown), SMRs can be constructed almost anywhere. The mandatory emergency planning zone is minimal. They also fit in nicely with the concept of distributed generation. Nuclear power plant costs are predominantly in their construction. Fuel costs are low. So once an SMR is in place, operational costs and fuel costs are low and are very predictable far into the future.
If Africa were to go nuclear in a large way, which seems probable, it would make sense to standardise on one particular SMR model and to have a central manufacturing facility. Staff in each country would be trained to be part of the network. Local construction ability in each country would be used to optimise benefit to each host country and to keep costs down.
Have You Read?
As with large aircraft and motor cars, a policy of standardisation to some degree, allows for mutual benefit in the exchange of expertise, experience and spare parts. An ideal High Temperature Gas Reactor for African use is the HTMR-100, designed in South Africa.
The technology uses gas cooling and high temperatures which make these units very suitable not only for power generation but also for industrial processes requiring heat. A typical application is the desalination of seawater to obtain potable water by literally boiling seawater and capturing and condensing the steam. Units placed near coastal cities can be used for water desalination.
Although South Africa possesses vast quantities of coal, most African countries do not have access to reliable supplies of fossil fuels. This includes the consideration that a coal supply, in many instances, would have to be transported overland over vast distances.
As a result, many African countries rely to a very large extent on hydropower. But much African hydro is very problematic because of unpredictable rainfall patterns, but also because dams are very wide and shallow, in comparison to dams in Nordic countries for example. So it is very challenging to maintain the pressure-head and water volume required for hydroelectricity.
All African countries are obliged to think up African solutions which fit the realities of African conditions. African countries have to have an immediate planning target of increasing electricity generation by 100%, and then, in most cases, have to double that again, and again. Such an outlook requires vision and foresight. In many instances, that means; developing very different approaches to those used in Europe.
In the case of Small Modular Reactors, the fuel is extremely small in volume and is also of robust construction. That means that it is quite feasible to transport nuclear fuel overland for thousands of kilometres. It is also entirely feasible to stockpile a fuel supply which could last for months, or years if need be.
It is also reasonable to conceive of numerous stand-alone radial power grids which are based on two or three SMRs. Such small grids may be only 10 or 20 km in diameter, but one could serve an entire industrial area. In a large African country aiming for significant development, it may well be better to plan for half a dozen independent SMR-based mini-grids, than to construct one large national grid which has to traverse very many kilometres of inhospitable terrain.
Why should the traditional image of a single national grid apply? In the US, the state of Texas has its own electricity grid, independent of the rest of the US.
African countries do not substantially connect electrical grids to each other, as many European countries do, so why should African countries not run a number of separate grids within one country, where they serve specific areas. Such an approach is ideally suited to using distributed nuclear power plants which do not need large-scale water cooling.
The more one thinks about it, the more inappropriate it is for African countries to follow the electricity development models of Europe. Yes, Africa should definitely ‘leapfrog ahead’ in energy technology, bypassing coal, gas and oil in those countries which do not have them. They should ‘leapfrog’ directly to Small Modular Reactors and furthermore collaborate closely in developmental approach.
Dr Kelvin Kemm is a nuclear physicist and is CEO of Stratek Business Strategy Consultants, a project management company based in Pretoria, South Africa. He carries out business strategy development and project planning in a wide variety of fields for diverse clients. [email protected]
Knox Msebenzi, an electrical engineer, is the Managing Director of the Nuclear Industry Association of South Africa, based in Johannesburg, South Africa. He has many years experience of the nuclear power industry. [email protected]
Source: www.energynewsafrica.com
Ghana: Two Killed, One Injured In Petrol Tanker Explosion In Wa
Two persons have been reported dead in Wa in the Upper West Region in the Republic of Ghana following a tanker explosion on Sunday.
The deceased are 24-year-old Amidu and 20-year-old Issahaku.
According to a local reporter of Accra-based Joy FM, Rafiq Salam, the deceased were welding leakages on the tanker at the Wa Magazine when the explosion happened.
One person who was passing by when the explosion occurred sustained burns on his left arm, he said.
However, the workers could not touch the tanker to pull him out because of the heat, he added.
One of the victims died at the scene while the other passed away when he was sent to the Wa Municipal Hospital.
The victim, who only sustained injuries, told the Joy News’ reporter that he had not seen an explosion of that magnitude at the Wa Magazine before.
According to him, small vehicles tend to catch fire at times, but they have always succeeded in putting them out with sand.
The workers appealed to the government for fire stations, ambulance services and a clinic to be sited at the Magazine.
They explained that these would help give emergency services to victims of the numerous accidents that occur at the industrial site.
Source: www.energynewsafrica.com
The victim, who only sustained injuries, told the Joy News’ reporter that he had not seen an explosion of that magnitude at the Wa Magazine before.
According to him, small vehicles tend to catch fire at times, but they have always succeeded in putting them out with sand.
The workers appealed to the government for fire stations, ambulance services and a clinic to be sited at the Magazine.
They explained that these would help give emergency services to victims of the numerous accidents that occur at the industrial site.
Source: www.energynewsafrica.com