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Road Transport Energy Consumption and Vehicular Emissions in Lagos, Nigeria

Author

Listed:
  • Monica Maduekwe

    (Praia, Cabo Verde)

  • Uduak Akpan

    (SPIDER Solutions, Akwa Ibom State, Nigeria)

  • Salisu Isihak

    (Rural Electrification Agency, Abuja, Nigeria)

Abstract
The “Avoid†, “Shift†and “Improve†(A-S-I) approach is an effective method for transforming an unsustainable transport system to a sustainable one. This study intends to examine the possible impact of the A-S-I policy measures in transforming the transportation system in Lagos - the most populous city and the commercial capital of Nigeria. The study employs the Long Range Energy Alternative Planning (LEAP) model to project future energy demand and greenhouse gas emissions to determine the most effective A-S-I option for the city. We construct a business-as-usual scenario for Lagos as well as sustainable road transport alternative policy scenarios. The results show that Lagos’ biggest obstacle to achieving its emission reduction target is the presence of very old vehicles on its roads. Our analysis shows that emission reduction in the road transport sector in Lagos is sensitive to vehicle survivability rate (i.e. the fraction of vehicles of a certain age still driven). We conclude that unless the age limit of vehicles in Lagos reduces from 40 years to 22 years, vehicle growth rate from 5% to 2% and mileage by 2% per year from 2020- 2032, Lagos may not achieve the target 50% emission reduction by 2032.

Suggested Citation

  • Monica Maduekwe & Uduak Akpan & Salisu Isihak, 2020. "Road Transport Energy Consumption and Vehicular Emissions in Lagos, Nigeria," Research Africa Network Working Papers 20/055, Research Africa Network (RAN).
    • Handle: RePEc:abh:wpaper:20/055
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    References listed on IDEAS

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    Cited by:

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    3. Olasupo O. Ajayi & Antoine B. Bagula & Hloniphani C. Maluleke & Isaac A. Odun-Ayo, 2021. "Transport Inequalities and the Adoption of Intelligent Transportation Systems in Africa: A Research Landscape," Sustainability, MDPI, vol. 13(22), pages 1-29, November.
    4. Donald Ukpanyang & Julio Terrados-Cepeda, 2022. "Decarbonizing Vehicle Transportation with Hydrogen from Biomass Gasification: An Assessment in the Nigerian Urban Environment," Energies, MDPI, vol. 15(9), pages 1-23, April.
    5. Zhan, Jinyan & Wang, Chao & Wang, Huihui & Zhang, Fan & Li, Zhihui, 2024. "Pathways to achieve carbon emission peak and carbon neutrality by 2060: A case study in the Beijing-Tianjin-Hebei region, China," Renewable and Sustainable Energy Reviews, Elsevier, vol. 189(PB).
    6. Cai, Liya & Luo, Ji & Wang, Minghui & Guo, Jianfeng & Duan, Jinglin & Li, Jingtao & Li, Shuo & Liu, Liting & Ren, Dangpei, 2023. "Pathways for municipalities to achieve carbon emission peak and carbon neutrality: A study based on the LEAP model," Energy, Elsevier, vol. 262(PB).
    7. Zhao, Jingjing & Heydari, Shahram & Forrest, Michael & Stevens, Alan & Preston, John, 2023. "Investigating correlates of personal and freight road transport energy consumption: A case study of England," Journal of Transport Geography, Elsevier, vol. 112(C).
    8. Salony Rajbhandari & Shubha Laxmi Shrestha & Ramchandra Bhandari & Ajay Kumar Jha & Hari Bahadur Darlami, 2024. "Contribution to the Net-Zero Emissions Target from the Transport Sector through Electric Mobility—A Case of Kathmandu Valley," Sustainability, MDPI, vol. 16(3), pages 1-23, January.
    9. Chiriboga, Gonzalo & Chamba, Rommel & Garcia, Andrés & Heredia-Fonseca, Roberto & Montero- Calderón, Carolina & Carvajal C, Ghem, 2023. "Useful energy is a meaningful approach to building the decarbonization: A case of study of the Ecuadorian transport sector," Transport Policy, Elsevier, vol. 132(C), pages 76-87.
    10. El-Sayed, Ahmed Hassan A. & Khalil, Adel & Yehia, Mohamed, 2023. "Modeling alternative scenarios for Egypt 2050 energy mix based on LEAP analysis," Energy, Elsevier, vol. 266(C).

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    Keywords

    Road transport; energy consumption; greenhouse gas emissions; LEAP; Lagos; Nigeria;
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