Greenhouse gas emissions during the 2003 World Summit

Authors

  • W I R den Heijer Department of Mechanical Engineering Potchefstroom University for CHE
  • L J Grobler Department of Mechanical Engineering Potchefstroom University for CHE

DOI:

https://doi.org/10.17159/2413-3051/2005/v16i4a3081

Keywords:

methane, carbon dioxide, greenhouse gas, global warming, Footprint model, nitrous oxide, Johannesburg Climate legacy, World Summit on Sustainable Development

Abstract

In recent years, global warming and climate change have become international issues for both industrialized and developing countries. Increasingly we will need to understand and manage our Greenhouse Gas (GHG) risks in order to comply with national and regional policies aimed at reducing GHG emissions. It is for these reasons that it is fast becoming critical to know which processes cause GHG emissions and how much they are causing. This article will describe the link that exists between processes and GHG emissions. As a demonstration, the article will describe how these GHG emissions was generated during the 2003 World Summit on Sustainable Development (WSSD) and how a model was developed to determine what the GHG emissions were during the WSSD. The GHG study, and subsequent model development, was done in order to keep the WSSD in line with its principles for the ecologically sound management of the environment and the issue of climate change. It was proposed that the WSSD be made carbon neutral. This meant that all the GHG (and thus carbon or carbon equivalent) emission generated by actions of the WSSD be offset over a period of time. In order to offset the GHG emissions of the WSSD it was essential to have a good assessment of the amount of emissions that was generated during the Summit. An emission Footprint model was developed, based on information obtained throughout the Summit. The method used a number of resources to determine the emissions resulting from delegate air travel to and from the host city, road travel to and from Summit venues, energy consumption at hotels and venues and waste generation amongst others. This paper will provide the critical factors that influenced and contributed towards the model. The results of the model will also be provided and discussed.

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References

Den Heijer, W.L.R., Grobler, L.J. 2002. Johannesburg Climate Legacy: WSSD Footprint Development, Report submitted to IIEC-Africa. September 2002.

Eskom 2001. Eskom Environmental Data: Statistics and Acronyms. Eskom Environmental Report. 2001. Online at www.eskom.co.za.

Ministry of Environmental Affairs and Tourism 2002. Quantifying the impact of the World Summit on Sustainable Development (WSSD) on the South African economy. www.environment.gov.za/News Media/MedStat/2002sept14/report_14092002.htm.

UNEP [United Nations Environmental Programme] 1997. The Kyoto Protocol to the United Nations Framework Convention on Climate Change. Geneva. United Nations Environmental Programme.

USEPA [United States Environmental Protection Agency] 1999. Methane Emissions 1990-2020: Inventories, projections, and opportunities for reductions.

WBC/WRI [World Business Council for Sustainable Development / World Resources Institute] 2001. The Greenhouse Gas Protocol: a corporate accounting and reporting standard. September 2001. Switzerland.

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Published

2005-11-01

How to Cite

Greenhouse gas emissions during the 2003 World Summit. (2005). Journal of Energy in Southern Africa, 16(4), 48-54. https://doi.org/10.17159/2413-3051/2005/v16i4a3081