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STRATEGIES FOR REDUCING GREENHOUSE GAS EMISSIONS FROM LIVESTOCK WASTES. Steven A. Nyanzi Department of Chemistry Makerere University 29 th November 2013 Seminar Room, Department of Chemistry, College of Natural Sciences, Makerere University. OVERVIEW. Background
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STRATEGIES FOR REDUCING GREENHOUSE GAS EMISSIONS FROM LIVESTOCK WASTES Steven A. Nyanzi Department of Chemistry Makerere University 29th November 2013 Seminar Room, Department of Chemistry, College of Natural Sciences, Makerere University
OVERVIEW • Background • Livestock and GHG Emissions • Approaches for reduction of NH3 Emissions • Emission reduction via urea recovery? • Harvesting & stabilizing urea in urine • Effect of Temp and pH on urea in urine • Pre-concentration with an urease inhibitor • Extraction of urea as clathrate • Characterization • Conclusion
Background on Climate Change • Over 180 Countries are signatory to United Nations Framework Convention on Climate Change (UNFCC) by early 1990s • UNFCC aims at stabilizing the conc’n of GHG in the atmosphere and reduce –ve impacts of climate change • Green House Gases (GHG) include: CO2, CH4, N2O, • Global Warming Potential (GWP): I kg CH4= 23 times CO2; I kg N2O = 310 times CO2
IPCC on NITROUS OXIDE • IPCC Guidelines for estimating N2O emissions from agricultural systems 1) Direct emissions of N2O from agric fields 2) Direct emissions of N2O in animal production systems 3) Indirect emissions of N2O derived N used in agriculture • IPCC Guidelines for National Greenhouse Gas Inventories (IPCC, 1997) excludes 2 and 3 !
Estimates of nitrous oxide emissions from agricultural systems worldwide, directly from agricultural fields (direct) from animal waste management systems (AWMS) and from indirect sources (indirect).
Livestock and GHG Emissions • Uganda has one of the fastest growing population growth rate (3.3% per annum) • Livestock = cattle, goats, sheep, pigs, chicken • Cattle pop. in Uganda is about 11.4 million • Cattle belching and fatting produce about 100 – 200 L of CH4 per cow per day • 90% of urea + other urea derivatives ((i.e., allantoin, uric acid) are excreted in animal urine • Urea, Allantoin and Uric acid break down to produce CH4, CO2 and N2O
APPROACHES FOR REDUCTION OF NH3 EMISSIONS • A) Land application of animal manure • B) Dietary manipulation of crude protein • C) Use of animal feed diets containing tannins and polyphenols • D) Use of additives to livestock wastes – • a variety of additives including urease inhibitors
Emissions Reduction via Urea Recovery ? • Urea 16th most highly produced substance • World production ~ 2.0 x108 tonnes/ year • Applications : • Fertilizer (> 90%), Liu et al (2003) • Resins (melanine-formaldehyde, etc) • Supplementary protein source • Pharmaceutical, fermenting & brewing, petroleum industry, soap production • Hydrogen carrier (Renewable Energy) ! !
Harvesting & Stabilizing Urea in Urine • Challenges in urine collection • Enzymatic degradation of urea • Production and control of stench • Local materials as urease inhibitors • Indigenous practices • Environmental benefits –Less NH3 emissions • NH3 emissions responsible FPM (d<2.5 μm) • Improved Agricultural productivity - Fertilizers
Determination of Urea in Urine • Colorimetric methods most widely used • Indirect Methods: Determine products of urea e.g., NH3 Berthelot reaction (λmax 640 nm) Macro-method but NH3 interferes • Direct Methods : Determine urea directly i.e., Fearon’s method (λmax 525 nm) Modified Fearon’s method (Nyanzi et al, 2010)
Pre-concentration • Filter to remove solids • Stabilization of urine extract at pH 9 • Pass through bleaching material • Heating extract at 96 OC for max 20 min • Heating at < 96 OC for longer • Conversion of allantoin to urea • Use of a solar drier to reduce moisture
Urea-Hydrocarbon Clathrates • Previous Applications: • Purify fatty acids from fats and vegetables • Separate straight chain from branched chain or cyclic compounds • Separate different petroleum fuel fractions • Current Application • Use urea to extract FAs from plant oils ? • Use these FAs to extract urea from urine
n-Alkane-Urea complex: (a) cross section; (b) Hydrogen bonding (Courtesy of A. E. Smith)
Conclusion • Reduction of GHG Emissions from livestock wastes is possible • Urea stabilization, enrichment and extraction have lots of potential in odour control and urea production from livestock wastes! 3.08x103 tonnes urea could be recovered everyday! • Production of urea from livestock wastes can create wealth, protect the environment & reduce ammonia emissions • Sustainability through the process (Fertilizer - Animal feeds- Animal wastes-Urea)
Acknowledgement • Organizers of this Interface • Mr. G. Wamala • Mr. Lubwama • Mr. Magada • Dr. J. Hawumba • Dr. Emmanuel Tebandeke • Mr. Hassan Kigozi Wasswa • Mr. Christopher Biteinensha (FTIR spectra)