A Climate-Responsive Green Building Framework for Ghana: Integrating Mitigation and Adaptation Strategies

Authors

  • E. N. Ontoyin Institute of Local Government Studies, Accra, Ghana.
  • J. Essandoh-Yeddu Institute of Oil and Gas Studies, University of Cape Coast, Ghana.
  • E. Bamfo-Agyei Cape Coast Technical University

DOI:

https://doi.org/10.26437/ajar.v11i2.972

Keywords:

Adapting. climate change. green building. mitigating. policy

Abstract

Purpose: This research aims to develop a comprehensive framework for implementing climate-responsive green building practices in Ghana that effectively integrates mitigation and adaptation strategies. The objectives are: to develop a multi-level implementation framework that bridges policy intentions with practical applications, providing clear pathways for adopting green building practices across different building types and scales in Ghana; and to validate the proposed framework through stakeholder engagement and expert evaluation.

Design/Methodology/Approach: The research design was based on qualitative and non-probability techniques used to gather information for the study, and the sample size was 17. The interviews were conducted face-to-face or online. This study also used a narrative style to analyse the data.

Findings: The study found that despite the country's efforts, there was limited or no coordination between the various players in the Built environment and other sectors of the economy, resulting in the non-existence of a long-term national strategy for climate change adaptation and mitigation. The paper thus focuses on the need for Ghana to incorporate the Green Building concept as one of its climate change mitigation and adaptation strategies.

Research Limitation: This study is limited to how policy interventions toward climate change mitigation and adaptation can significantly help to improve energy and material use efficiency, conservation drive, and end-use wastage.

Practical Implication: Thus, developing a national strategy for green building construction has the potential benefit of helping to mitigate climate change challenges.

Social Implication:  Educating policymakers on the potential benefits of adopting the Green Building Concept and developing an effective cross-cutting communication strategy to educate the citizenry on the benefits derived from the Green Building Concept as a low-hanging fruit towards GHG mitigation.

Originality/Value: This study innovatively explores how traditional Ghanaian building techniques and materials can be incorporated into modern green building practices.

Author Biographies

E. N. Ontoyin, Institute of Local Government Studies, Accra, Ghana.

Emmanuella Naabiugma Ontoyin is a graduate of the Institute of Local Government Studies, Accra, Ghana.

J. Essandoh-Yeddu, Institute of Oil and Gas Studies, University of Cape Coast, Ghana.

Dr. Joseph Essandoh-Yeddu is a visiting lecturer at the Institute of Oil and Gas Studies, University of Cape Coast, Ghana.

E. Bamfo-Agyei, Cape Coast Technical University

He is an Associate Professor at the Department of Construction Technology and Management, Cape Coast Technical University, Ghana.

References

Adenle, A. A., Ford, J. D., Morton, J., Twomlow, S., Alverson, K., Cattaneo, A., ... &

Ebinger, J. O. (2017). Managing climate change risks in Africa: A global perspective. Ecological Economics, 141, 190-201.

Ahmadizadeh, M., Heidari, M., Thangavel, S., Khashehchi, M., Rahmanivahid, P., Singh, V.

P., & Kumar, A. (2024). Development of new materials for sustainable buildings. In Sustainable Technologies for Energy Efficient Buildings (pp. 30-48). CRC Press.

Akomea-Frimpong, I., Kukah, A. S., Jin, X., Osei-Kyei, R., & Pariafsai, F. (2022). Green

Finance for green buildings: A systematic review and conceptual foundation. Journal of Cleaner Production, 356, 131869.

Ali, E. B., Anufriev, V. P., & Amfo, B. (2021). Green economy implementation in Ghana as

A road map for a sustainable development drive: A review. Scientific African, 12, e00756.

Berry, S., & Davidson, K. (2015). Zero energy homes–are they economically viable?. Energy

Policy, 85, 12–21.

Cohen, R., Desai, K., Elias, J., & Twinn, R. (2021). Net zero carbon: Energy performance

targets for offices. Building Services Engineering Research and Technology, 42(3), 349-369.

Cui, H., Wang, R., & Wang, H. (2020). An evolutionary analysis of green finance sustainability

based on multi-agent game. Journal of Cleaner Production, 269, 121799.

Formplus, B. (2020). Correlational Research Designs: Types, Examples & Methods.

Ikram, M., Ferasso, M., Sroufe, R., & Zhang, Q. (2021). Assessing green technology indicators

for cleaner production and sustainable investments in a developing country context. Journal of Cleaner Production, 322, 129090.

Ingrao, C., Messineo, A., Beltramo, R., Yigitcanlar, T., & Ioppolo, G. (2018). How can life

cycle thinking support sustainability of buildings? Investigating life cycle assessment applications for energy efficiency and environmental performance. Journal of Cleaner Production, 201, 556-569.

Intergovernmental Panel on Climate Change (IPCC) (2022) In: Pörtner H-O, Roberts DC,

Tignor M, Poloczanska ES, Mintenbeck K, Alegría A, Craig M, Langsdorf S, Löschke S, Möller V, Okem A, Rama B (eds) Climate change 2022: impacts, adaptation and vulnerability. Contribution of Working Group II to the sixth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge/New York, 3056 pp. https://doi.org/10.1017/9781009325844

Kom, Z., Nethengwe, N. S., Mpandeli, N. S., & Chikoore, H. (2020). Determinants of small-

scale farmers’ choice and adaptive strategies in response to climatic shocks in Vhembe District, South Africa. GeoJournal, 1-24.

Misra, A. K. (2014). Climate change and challenges of water and food security. International

Journal of Sustainable Built Environment, 3(1), 153–165.

Nordhaus, W. (2019). Climate change: The ultimate challenge for economics. American

Economic Review, 109(6), 1991-2014.

Ohene, E., Chan, A. P., & Darko, A. (2022). Review of global research advances towards Net-

Zero emissions buildings. Energy and buildings, 266, 112142.

Owusu, P. A., & Asumadu-Sarkodie, S. (2016). A review of renewable energy sources,

sustainability issues and climate change mitigation. Cogent Engineering, 3(1), 1167990.

Owusu-Manu, D. G., Babon-Ayeng, P., Kissi, E., Edwards, D. J., Okyere-Antwi, D., &

Elgohary, H. (2023). Green construction and environmental performance: an assessment framework. Smart and Sustainable Built Environment, 12(3), 565–583.

Raouf, A. M., & Al-Ghamdi, S. G. (2023). Framework to evaluate quality performance of green

building delivery: construction and operational stage. International Journal of Construction Management, 23(2), 253-267.

Riahi, K., Van Vuuren, D. P., Kriegler, E., Edmonds, J., O’neill, B. C., Fujimori, S., ... &

Tavoni, M. (2017). The shared socioeconomic pathways and their energy, land use, and greenhouse gas emissions implications: An overview. Global environmental change, 42, 153–168.

Sharifi, A. (2020). Trade-offs and conflicts between urban climate change mitigation and

adaptation measures: A literature review. Journal of Cleaner Production, 276, 122813.

Shehadi, M. (2020). Net-zero energy buildings: principles and applications. In Zero-Energy

Buildings-New Approaches and Technologies. IntechOpen.

Shehadi, M. (2018). Energy consumption optimization measures for buildings in the Midwest

regions of the USA. Buildings, 8(12), 170.

Skillington, K., Crawford, R. H., Warren-Myers, G., & Davidson, K. (2022). A review of

Existing policy for reducing embodied energy and greenhouse gas emissions of buildings. Energy Policy, 168, 112920.

Tian, W., Heo, Y., De Wilde, P., Li, Z., Yan, D., Park, C. S., ... & Augenbroe, G. (2018). A

Review of uncertainty analysis in building energy assessment. Renewable and Sustainable Energy Reviews, 93, 285-301.

Torcellini, P. & Pless, S. (2011). Defining Net-Zero Energy Buildings. Building Design and

Construction.

Weerasinghe, L. N. K., Darko, A., Chan, A. P., Blay, K. B., & Edwards, D. J. (2024). Measures,

Benefits, and challenges to retrofitting existing buildings to net zero carbon: A comprehensive review. Journal of Building Engineering, 109998.

Williams, N. J., Jaramillo, P., Taneja, J., & Ustun, T. S. (2015). Enabling the private sector

Investment in microgrid-based rural electrification in developing countries: A review. Renewable and Sustainable Energy Reviews, 52, 1268-1281.

Zhang, M., Yan, T., Wang, W., Jia, X., Wang, J., & Klemeš, J. J. (2022). Energy-saving design

and control strategy towards modern sustainable greenhouse: A review. Renewable and Sustainable Energy Reviews, 164, 112602.

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Published

2025-04-01

How to Cite

Ontoyin, E. N., Essandoh-Yeddu, J., & Bamfo-Agyei, E. (2025). A Climate-Responsive Green Building Framework for Ghana: Integrating Mitigation and Adaptation Strategies. AFRICAN JOURNAL OF APPLIED RESEARCH, 11(2), 77–93. https://doi.org/10.26437/ajar.v11i2.972

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Vol. 11 No. 2 (2025): African Journal of Applied Research

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