Application of AIM/Enduse to Vietnam: A Study on Effects of CO2 Emission Reduction Targets

  • Ram M. Shrestha
  • Le Thanh Tung

Abstract

This study examines the effects of imposing CO2 emission: reduction targets on the least cost energy resource requirements as well as emissions of CO2, SO2 and NO2 from different economic sectors of Vietnam in 2020 using the AIM/Enduse model. The results show that in 2020 total primary energy requirement in the reference scenario would be 2,170 PJ as compared to 866 PJ in 2000. About 13.5 billion m3 of natural gas would be required in the reference scenario in 2020 while hydropower capacity needed would be about 5,000 MW. The study also shows that the least cost energy mix for meeting emission reduction targets of 5% to 15% in 2020 would require the use of additional 3.6 to 3.9 billion m3 of natural gas over and above the quantity of gas needed in the reference scenario. The incremental cost of reducing CO2 emission by 5 to 15% of the reference scenario emission would be in the range of US$ 9.2 to US$ 58.3 per ton of CO2.

Keywords

ER15 Case Transport Sector Reference Scenario Average Annual Growth Rate Asian Development Bank 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Asian Development Bank (ADB) (1998) ALGAS: Asian Least-cost Greenhouse Gas Abatement Strategy: Vietnam, ADB, Manila, PhilippinesGoogle Scholar
  2. COSMO Oil Co., Ltd. and COSMO Engineering Co, Ltd (1999) The study on Energy Efficiency Improvement for Boiler and Co-generation System in Vietnam, Hanoi, VietnamGoogle Scholar
  3. General Statistical Office (2000) Statistical Year Book, Statistical Publishing House, Hanoi, VietnamGoogle Scholar
  4. International Energy Agency (IEA) (1998) Regional Trend in Energy Efficient: Coal-Fired Power Generation Technologies, http://www.iea.org.pubs/studies/files/regional/default.htm
  5. Hanoi University of Technology (HUT) (2000), Database in energy produce situation from 1985 to 1999, HUT, Hanoi, VietnamGoogle Scholar
  6. Institute of Energy (IOE) (2000), the Fifth Master Plan on Electricity Power Development in Vietnam, Hanoi, VietnamGoogle Scholar
  7. Institute of Energy (IOE) (1999) Energy demand forecasting period 2000-2020, Hanoi, VietnamGoogle Scholar
  8. Ministry of Planning and Investment (MPI) (2001) Social-economics growth rate forecast for the period 2000-2020, Hanoi, VietnamGoogle Scholar
  9. Ministry of Science, Technology and Environment (MOSTE) (1997) Energy saving and efficiency use in Vietnam, MOSTE, HanoiGoogle Scholar
  10. Minh PSB (2000) Identifying clean development mechanism projects and assessments of their greenhouse gases mitigation potential from long-term energy planning perspective in Vietnam, Unpublished M.Eng. Thesis, Asian Institute of Technology, Bangkok, ThailandGoogle Scholar
  11. Petrovietnam (2002) The Potential for Natural Gas Development in Vietnam, Petrovietnam Monthly Magazine No. 1. pp26–36Google Scholar
  12. Petrovietnam (2001a) Petrovietnam’s downstream activities, Petrovietnam Review, Vol. 3, pp42–44Google Scholar
  13. Petrovietnam (2001b) Oil and gas industry in the world, Petrovietnam Monthly Magazine No. 3, pp26–35Google Scholar
  14. Shrestha RM, Biswas WK, Shrestha R (1998) The implication of efficient electrical appliances for CO2 mitigation and power generation: the case of Nepal. International Journal of Environment and Pollution, 9(2/3):237–252Google Scholar
  15. Vietnam General Coal Company (1998) General Scheme and Strategy for Coal Development up to 2010, Hanoi, VietnamGoogle Scholar

Copyright information

© Springer Japan 2003

Authors and Affiliations

  • Ram M. Shrestha
    • 1
  • Le Thanh Tung
    • 1
  1. 1.Asian Institute of TechnologyKlong LuangThailand

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