Comparative Analysis of Alternative Energy Adoption among Women in Rural and Urban Areas of Imo State: Implications for Women in Science and SDG 7

This study investigated cooking fuel preferences among women in rural and urban sectors of Imo State, Nigeria. The aim of the study is to assess the use of cooking stove by women in the urban and rural areas of Imo state and to use the data obtained to check the progress toward Sustainable Development Goal (SDG) 7 in the state. Utilizing a survey research design, data were collected via questionnaires and oral interviews from 100 respondents, comprising of 50 women from World Bank Estate, Owerri (Urban) and 50 women from Ogbor Uvuru, Aboh Mbaise (Rural). The results indicated that in urban areas, 16% of respondents exclusively use Liquefied Petroleum Gas (LPG), while 12% rely on kerosene. Conversely, rural areas show a heavy dependence on biomass, with 14% using firewood exclusively, 15% employing a firewood-kerosene mix and 3% exclusively used gas in the rural area. From the findings, while urban women are transitioning toward cleaner fuels, rural women remain tethered to solid fuels due to availability, finance and cultural perceptions. The study recommends intensified environmental education from women in science and policy interventions from concerned quarters to reduce indoor air pollution and curb deforestation.

SDG 7, Alternative Energy, Energy Stacking, Biomass, Women in Science, Indoor Air pollution

1. Air Quality Life Index (AQLI). (2025). Nigeria Fact Sheet: Potential Gain in Life Expectancy. University of Chicago. [Google Scholar] [Crossref]

2. Ali, E., Yaotse, K., Obeng, E. O. B., Gyamfi, S., Osman, M. S., Adoko, T., & Narra, S. (2024). Determinants of household cooking fuel choices: Does proximity to mine site matter? Energy for Sustainable Development, 82, 101545. https://doi.org/10.1016/j.esd.2024.101545 [Google Scholar] [Crossref]

3. Alternative Energy Organization, (2019). Alternative Energy Solution for the 21st Century. www.altenergy.org [Google Scholar] [Crossref]

4. Alzeer, J. (2024). The role of energy in maintaining metabolic home deforestation: Biophysical influences on climate. Frontiers in Forests and Global Change, 5, 756115. [Google Scholar] [Crossref]

5. https://doi.org/10.3389/ffgc.2022.756115eostasis: A thermodynamic perspective. Journal of Bioenergetics and Systems Biology, 12(1), 45-58. [Google Scholar] [Crossref]

6. Azorliade, R., Adusah-Poku, F., & Kuwornu, J. K. M. (2022). “Fuel stacking and household energy transition in subsahara Africa evidence from Ghana” Energy Policy, 168, 113144 [Google Scholar] [Crossref]

7. Clean Cooking Alliance (CCA) Accelerating Clean Cooking Access: The 2025 Global Status Report. [Google Scholar] [Crossref]

8. Ember. (2026). Global electricity review 2026: The transition to clean power [Annual Report]. Retrieved from https://www.ember-climate.org/ [Google Scholar] [Crossref]

9. Feng, Y., He, F., Wang, B., & Chen, A. (2024). Global forest loss and its impact on biodiversity: A review. Nature Communications, 15(1), 1234. https://doi.org/10.1038/s41467-024-xxxxx-x [Google Scholar] [Crossref]

10. Fischer-Kowalski, M., & Schaffartzik, A. (2015). Energy availability and energy sources as determinants of societal development in a long-term perspective. MRS Energy [Google Scholar] [Crossref]

11. International Energy Agency (IEA) & World Bank. (2025). Tracking SDG 7: The Energy Progress Report 2025. [Google Scholar] [Crossref]

12. Kahunzire, R. (2019). Why clean cooking is vital for women's empowerment. World Bank Blogs. Retrieved from https://blogs.worldbank.org/energy/why-clean-cooking-vital-womens-empowerment [Google Scholar] [Crossref]

13. Lawrence, D., Coe, M., Walker, W., Estades, L., Sullivan, P., Brock, C., ... & Vandecar, K. (2022). The unseen effects of deforestation: Biophysical influences on climate. Frontiers in Forests and Global Change, 5, 756115. https://doi.org/10.3389/ffgc.2022.756115 [Google Scholar] [Crossref]

14. Masera, O. R., Saatkamp, B. D., & Kammen, D. M. (2000). From linear fuel switching to multiple cooking strategies: A critique and alternative to the energy ladder model. World Development, 28(12), 2083-2103. [Google Scholar] [Crossref]

15. Melah, B. (2015). 72% Nigerians depend solely on fuel wood for cooking. ICEED News www.iceed.org [Google Scholar] [Crossref]

16. National Bureau of Statistics (NBS). (2024). Liquefied Petroleum Gas (Cooking Gas) Price Watch.doi: 10.1186/2192-0567-2-15 [Google Scholar] [Crossref]

17. Premium Times. (2026). Nigeria Positions Clean Cooking as a Scalable Climate and Investment Opportunity. [Google Scholar] [Crossref]

18. Slater, J., & Yetano Roche, M. (2025). An Estimation of the Health and Climatic Impacts of Household Biomass Consumption across Nigeria. Energy Strategy Reviews. ( [Google Scholar] [Crossref]

19. Sustainable Energy for All (SEforALL). (2025). SDG7 Tracking Data Analysis [Google Scholar] [Crossref]

20. Vince, G. (2025). How humanity amplified life’s quest for energy. Quanta Magazine. https://www.quantamagazine.org/how-humanity-amplified-lifes-quest-for-energy-20250915/ [Google Scholar] [Crossref]

21. Vo, D. H., HO, C. M., Ngunyen, H. M., & Ngunyen, N. T., (2024). Understanding the characteristics of the household energy transition in developing country “Heliyon” 10 (4),e23977. [Google Scholar] [Crossref]

22. World Health Organization. (2026). Household air pollution and health: Global updates. Retrieved from https://www.who.int/news-room/fact-sheets/detail/household-air-pollution-and-health [Google Scholar] [Crossref]

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