Energy access during and post-COVID-19 pandemic in sub-Saharan countries: the case of Ethiopia.

The global COVID-19 pandemic causes hundreds of thousands of deaths and has created a catastrophic economic and health crisis around the World. Transportation, manufacturing industries, business and people's movement came to almost a halt and sharp oil and gas prices reduction were observed. The impact of the pandemic for sub-Saharan countries like Ethiopia, which was already struggling with many economic and social welfare problems, is more evident than in other wealthy nations around the World. In Ethiopia, the general energy access rate is 44% and in healthcare facilities is only about 10%. Therefore, the response for the COVID-19 pandemic is challenging, since activities such as information sharing, communication with health centers, diagnosis and medical treatment require electricity access. This paper aims to assess the impact of the pandemic on energy access plans during and post-pandemic. The paper analyzed, the status of the current COVID-19 outbreak in Ethiopia, the energy access situation in health facilities, and the impacts of COVID-19 on energy access during and post-pandemic periods. Data related to the universal energy access plan of Ethiopia, the impact of energy access on healthcare services and the impact of the pandemic were reviewed for the assessment. The analysis indicates that the impact of the COVID-19 pandemic in Ethiopian healthcare facilities and on the overall universal energy access plan is immense and to minimize the global impact short and long-term policy responses are identified and urgently recommended. Furthermore, powering healthcare facilities with microgrids composed of solar panels and battery storage systems could be one cost-effective and sustainable solution for the speedy and effective response of the pandemic challenges.

Complex dynamics in sustaining clean cooking and food access through a pandemic: A COVID-19 impact study in peri-urban Cameroon.

Access to clean energy for cooking is central to achieving Sustainable Development Goal 7. Latest predictions suggest that this goal will not be met by 2030, with further setbacks due to the COVID-19 pandemic. We investigated the impacts of COVID-19 restrictions on household cooking fuel, practices and dietary behaviours in a peri-urban community in Central Cameroon. Using surveys (n = 333) and qualitative semi-structured interviews (n = 12), we found negative financial impacts and high levels of food insecurity, with 83 % and 56 % of households reporting reduced income and insufficient food, respectively. Households reduced food intake and cooking frequency and relied more heavily on local sources (e.g., farmland) to feed their families. Changes in primary cooking fuel were less pronounced and fuel choice was inherently linked to cooking behaviours, with some households utilising LPG more often for simple tasks, such as reheating food. Local systems were key in sustaining food and fuel access and households demonstrated resilience by employing numerous mechanisms to overcome challenges. Our findings underline the vulnerability of households in maintaining sufficient food intake and sustaining clean cooking, highlighting how policy needs to take a nuanced approach considering food-energy dynamics and strengthening local systems to ensure access to clean energy is resistant to system shocks.

Widening inequities in clean cooking fuel use and food security: compounding effects of COVID-19 restrictions and VAT on LPG in a Kenyan informal urban settlement

Universal access to cleaner cooking fuels (including liquefied petroleum gas (LPG)) is a key target of Sustainable Development Goal 7. Currently, approximately 40 million Kenyans rely on polluting cooking fuels (e.g. charcoal, wood). While the Kenyan government aims to rapidly scale up use of LPG for cooking by 2030, COVID-19 restrictions and a 16% value added tax (VAT) re-introduced on LPG in 2021 have likely hampered progress in LPG uptake. We aimed to quantify the effect of these economic shocks on food and energy security in Langas informal urban settlement in western Kenya. We further evaluated whether households most adversely affected by COVID-19 restrictions were more likely to be socioeconomically impacted by the VAT re-imposition. A cross-sectional survey (n = 1542) assessed changes in cooking fuel patterns, food security and livelihoods of primary cooks due to these two economic shocks. While under COVID-19 restrictions, 75% (n = 1147) of participants reported income declines and 18% (n = 164) of participants using LPG (n = 922) switched their primary cooking fuel to charcoal, wood or kerosene. Households reporting lower income while under COVID-19 restrictions had 5.3 times (95% CI:[3.8,7.4]) the odds of experiencing food insecurity as those with no change in income. Unemployment and food insecurity under COVID-19 restrictions were substantially higher among informal sector workers (70% and 60%, respectively) compared with business/government employees (45% and 37%, respectively). Following the VAT re-introduction, 44% (n = 356) of households using LPG consumed less, and 34% (n = 276) cooked more frequently with polluting fuels. Individuals switching away from LPG under COVID-19 restrictions had 3.0 times (95% CI:[2.1,4.3]) the odds of reducing their LPG consumption due to the VAT re-introduction as those maintaining use of LPG. COVID-19 restrictions and the VAT re-introduction disproportionately negatively affected informal sector workers’ livelihoods. A zero-rating of VAT on LPG can help alleviate deepened inequities in LPG access in Kenya.

Design of a point-of-care facility for diagnosis of COVID-19 using an off-grid photovoltaic system.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic is one of the biggest public health issues in the last years. The WHO has reported more than 50,000 confirmed cases and more than 1,000,000 confirmed deaths around the world. Early diagnosis is essential for an appropriate patient care and infection control, so laboratory where molecular tests are held plays a main role. However, laboratory facilities for testing are limited in rural areas. Therefore, it is important to have an effective and practical point-of-care diagnostic system in order to be implemented in developing countries with limited energy access. The objective of this research is to develop an energetically autonomous point-of-care diagnostic system for molecular detection of SARS-CoV-2. This design consists of a retractable system with an area of 15.79 m2 and 3 well-distributed interior areas to guaranty appropriate sample processing. Our point-of-care diagnostic system can be installed at a fixed place (stationary), and it can also be transported to various strategic places (itinerant). The off-grid photovoltaic system feasibility was evaluated using the PVsyst software, presenting an installed capacity of 2.79 KWp, consisting of 4 monocrystalline photovoltaic modules, a 45 A charge regulator and 4 batteries (6 V, 453 Ah). The results showed a performance ratio of 0.522, with higher losses by the full battery (31.77%). This research determines that the proposed point-of-care diagnostic system meets all requirements to set and operate molecular techniques to diagnose infectious diseases, such as COVID-19, with good laboratory conditions, secure and eco-efficient energy, supporting the health scheme to prevent and control the spread of the virus.

Energy access and pandemic-resilient livelihoods: The role of solar energy safety nets.

Lack of energy access undermines the socio-economic conditions of households, reducing their resilience, particularly in the face of disruptive effects of the COVID-19 pandemic. Hundreds of millions of poor rural households, who live in remote and difficult-to-reach areas, are still without access to energy. Solar energy safety nets, in the form of targeted social assistance programs and off-grid technological solutions, do not only advance energy access but also develop capacities of households to prepare for, respond to, and recover from specific threats like pandemics. We discuss ongoing solar energy safety net programs in the largest off-grid solar markets of Bangladesh, India, Kenya, and Nigeria, and how such programs are affected by the COVID-19 pandemic. We find that solar energy safety net programs should be maintained and updated to emphasize their potential for building pandemic-resilient livelihoods. These programs can be supported with efforts to build local value chains and economies based on clean electricity. Well-designed solar energy safety net policies generate multiple co-benefits, including the resilience of households to pandemics.

COVID-19 and energy access: An opportunity or a challenge for the African continent?

As the COVID-19 pandemic gains ground in the African continent, it will create havoc and unprecedented health and economic crisis. The crisis has exposed the robustness and resilience of the economies and services such as health systems around the world and it is disaster in the making while the pandemic is spreading fast to the African continent. This is alarming mainly because the continent has weak health system compounded by low access to modern and reliable electricity. It is also anticipated that the crisis will be brought ample opportunities and the African governments and the people should make coordinated and concerted effort in developing conducive business environment and exploit the opportunities presented to facilitate energy access focusing on clean and renewable energy technologies. This is a big test for the continent and thus it will either brought prosperity through facilitating universal energy access by effectively utilizing the opportunities brought by the crisis or the lack of energy access will continue affecting communities the ability to improve their livelihoods.