An estimation of emissions from domestic biofuel combustion over southern Africa

• Main Author: Mulaudzi, Silas Khakhathi
• Format: Others
• Language: en
• Published: 2007
• Subjects: biomass burning; biofuel emmisions; trace gases; fuel wood; charcoal; maize residues
• Online Access: http://hdl.handle.net/10539/2074

Student Number : 0306319G - MSc Research Report - School of Geography, Archaeology and Environmental Studies - Faculty of Science === Combustion of fuel wood, charcoal and non-woody biofuels is a daily practice for about half of the world’s population. Combustion of biofuel is a major source of trace gases, with domestic biomass burning contributing about 17% carbon dioxide (CO2), 13% carbon monoxide (CO) and 6% nitrous oxide (N2O) to the global budget. In Africa, where there is a growing population, domestic biofuel emissions are a particularly important source of trace gases. The most important source of biomass fuels in Africa is wood fuel (wood and charcoal), crop residues and animal dung. In this project, the amount of domestic biofuel used in rural households across southern Africa was measured daily over a nine month period. This data was used to estimate the trace gas production from domestic fires throughout Southern Africa. Results indicate that RSA contributed the most trace gases to the regional budget (9.12 Tg C yr-1 of CO2, 0.89 Tg C yr-1 of CO, 10.77 Gg N yr-1 of NO and 30.25 Gg C yr-1 of CH4) and Botswana the least (0.25 Tg yr-1 of CO2, 0.02 Tg yr-1 of CO, 0.29 Gg yr-1 of NO and 0.83 Gg yr-1 of CH4). Fuel wood is the dominant fuel type used in all southern African countries, whereas charcoal was used in RSA, Mozambique and Zambia and maize residues in Malawi only. CO2 was the gas emitted in the largest quantities, with fuel wood and charcoal in RSA contributing the most (8.71 Tg yr-1 and 0.41 Tg yr-1 respectively), while CO2 from maize residue was highest in Malawi (0.82 Tg yr-1). More trace gases were emitted in the dry season than wet season particularly in Malawi and Mozambique. For the entire region the annual CO2, CO, NO and CH4 emissions produced 23.0 Tg C, 2.2 Tg C, 29.4 Gg N and 81.4 Gg C, respectively.