News

As the world marks International Day for the Protection of the Ozone Layer, we highlight the work of Christelle Arielle Mbouteu Megaptche, a Regional Scholarship and Innovation Fund (Rsif) scholar, recognised for her contributions to sustainability at COP28 in Dubai. The 28-year-old Cameroonian is pursuing a Ph.D. in renewable energy at the University of Nairobi, with a research placement at the Korea Institute of Energy Research. RSIF is the flagship program of the Partnership for Skills in Applied Sciences, Engineering, and Technology (PASET), an Africa-led, World Bank-affiliated initiative.

Christelle’s work involves developing hydrogen fuels as a renewable energy for pioneering automobiles and transforming the transport sector in Cameroon to be sustainable. Her focus on hydrogen as a renewal energy source reduces carbon emissions. The buildup of Carbon dioxide in the atmosphere causes warming of the earth, and a cooling effect in the stratosphere where ozone is found. According to scholars, this cooling effect of the stratosphere increases the depletion of the ozone layer.

Reducing carbon emissions

Carbon emissions from fossil fuels use lead to warming of the earth as she explains, “reliance on non-sustainable energy sources like fossil fuels contributes to ozone depletion.” Therefore, developing more sustainable solutions like hydrogen fuels reduces carbon emissions.  Her journey into sustainability began four years ago when she learned about Rsif’s mission to build a skilled workforce in Science Technology Engineering and Mathematics (STEM), especially among women.

“Applying was the best decision of my life,” Christelle said. “The funding allowed me to develop my master’s research on clean, affordable, and reliable electricity in developing countries. Rsif opened doors for collaborations with African and global institutions like the Korea Institute of Energy Research. I have worked on cutting-edge projects in carbon neutrality and gained invaluable professional skills.”

One of the challenges Christelle faced pursuing a Ph.D. in Cameroon was the lack of financial support. “Rsif not only provided the funding I needed but also access to high-tech equipment and software crucial to my research. I’ve presented at local and international conferences and collaborated with leading researchers, and publishing in high-impact journals has boosted my work’s credibility,” she stated.

Christelle’s research addresses the critical issue of Africa’s high carbon intensity in energy production. Despite being the fourth-largest greenhouse gas emitter globally, only 24.37 per cent of Africa’s energy comes from low-carbon sources.

Ozone depletion

“Cameroon’s transport sector is its largest source of CO2 emissions,” she noted. “While at the Korea Institute of Energy Research, I developed a power-to-mobility model using hydrogen to decarbonize transportation. Several studies have pointed out that transportation is a major source of greenhouse gas emissions which can indirectly affect ozone depletion. Therefore, Christelle’s efforts in the long run aims to contribute to the reduction of the greenhouse gas emissions while supporting Cameroon’s energy transition which aligns with the global efforts of climate change mitigation to protect the ozone layer.

“I aim to contribute data-driven insights for policymakers to develop climate solutions,” she said. “It’s crucial that my research translates into real-world impact, addressing climate change through practical policies.”

Christelle’s work addresses two key challenges facing Africa: lack of access to power and climate change. The energy sector is a significant contributor to climate change which can exacerbate ozone depletion.  Her innovative solutions like designing three mini grids to meet the energy needs of 18,000 people in Garoua, Cameroon are designed to provide clean, affordable, and reliable electricity across sectors like healthcare and transportation industry.  This contributes to stabilizing the climate, which is essential for the recovery and maintenance of the ozone layer.

“I’m contributing knowledge that can influence socio-economic growth and strengthen local research capacities,” she said. “By publishing in international journals, attending conferences, and collaborating with institutions, I’m helping place African science at the forefront.”

Looking ahead, Christelle believes Africa’s future in climate research lies in sectors like food security, renewable energy, and materials engineering. Protecting the ozone layer is essential for ensuring food security through stable agricultural production, while advancements in material engineering can promote sustainable practices that enhance food security and mitigate environmental impacts.  “Rsif is supporting young scholars like me to tackle these critical areas.”

She concluded with a message for young African researchers: “Focus on solving relevant issues within your community, ground your work in science and technology, and engage with local stakeholders to ensure your research makes a difference. Stay resilient, because climate action to reduce ozone depletion require long-term commitment.”