Citation
Balagueman, Rodrigue Ogoulonou and Assèdé, Eméline Sêssi Pélagie and Agassounon, Bill Mahougnon and Moumouni-Moussa, Ismail and Effah, Bernard and Honoré Biaou, Samadori Sorotori (2023) Assessment of forestry residues potential for off-grid electrification in the Republic of Benin (West Africa). International Journal of Biomass & Renewables (Malaysia), 12. pp. 25-34. ISSN 2289-1692
Abstract
This study assessed the potential of forestry residues for off-grid electrification in the Republic of Benin while accounting for the spatial variation of residues potential and their use impact on local biodiversity. We found significant spatial variation of residues potential, with a much higher surplus residues in the north (3,599.05 tons/year) compared to the south (457.79 tons/year). This discrepancy might result from the spatial difference in geographical variables across the two regions. A maximum electricity potential of 100,259,786 kWh can be generated from the theoretical potential of residues which falls short of satisfying the estimated national off-grid electricity demand of 443,916,975 kWh. The research also highlighted the positive influence of wood processing technology and diversity of processed wood species on residues potential. The two variables may be targeted by policymakers to tailor actions for enhancing local transition towards renewable energy. Using scenarios-based projections, our study prompt the conclusion that forestry residues can be used sustainably for off-grid electrification with a minimal impact on biodiversity. Combining the surplus residues from wood processing industries with energy plantations may optimize forestry residues mobilization for off-grid electrification.
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Abstract
This study assessed the potential of forestry residues for off-grid electrification in the Republic of Benin while accounting for the spatial variation of residues potential and their use impact on local biodiversity. We found significant spatial variation of residues potential, with a much higher surplus residues in the north (3,599.05 tons/year) compared to the south (457.79 tons/year). This discrepancy might result from the spatial difference in geographical variables across the two regions. A maximum electricity potential of 100,259,786 kWh can be generated from the theoretical potential of residues which falls short of satisfying the estimated national off-grid electricity demand of 443,916,975 kWh. The research also highlighted the positive influence of wood processing technology and diversity of processed wood species on residues potential. The two variables may be targeted by policymakers to tailor actions for enhancing local transition towards renewable energy. Using scenarios-based projections, our study prompt the conclusion that forestry residues can be used sustainably for off-grid electrification with a minimal impact on biodiversity. Combining the surplus residues from wood processing industries with energy plantations may optimize forestry residues mobilization for off-grid electrification.
Additional Metadata
| Item Type: | Article |
|---|---|
| AGROVOC Term: | forestry |
| AGROVOC Term: | biomass |
| AGROVOC Term: | renewable energy |
| AGROVOC Term: | forest land use mapping |
| AGROVOC Term: | energy |
| AGROVOC Term: | sustainable development |
| Geographical Term: | South Africa |
| Depositing User: | Nor Hasnita Abdul Samat |
| Date Deposited: | 15 Nov 2025 03:31 |
| Last Modified: | 03 Feb 2026 02:18 |
| URI: | http://webagris.upm.edu.my/id/eprint/1455 |
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