design of a sustainable sanitary landfill with an integrated energy generation system presenter:...
TRANSCRIPT
Design of a sustainable sanitary landfill with an integrated energy generation system
Presenter: Otieno Benard Okoth
F21/2494/2009
Supervisor: Dr. Waweru Muthumbi
IntroductionWastes are the by-products of what human beings
have used and that requires disposal and its management has been of great menace to many
municipalities. Statement of problem and problem analysis
Fig Standard newspaper (open dumpsite) (Thursday, May 5th 2011)
Overall objective To design a sustainable sanitary landfill with
an integrated energy generation system. Specific objectives
• To design a sanitary landfill.
• To determine the amount of power in MW that can be generated from the landfill.
• To determine the number of households that the generated power can serve.
STATEMENT OF SCOPETo design a sustainable sanitary landfill with an integrated energy generation system.
Site analysis and inventory• Site selection criteria
Map: jica report (2010) showing possible landfill sites within Nairobi Metropolitan Area
Google earth map showing the area with the surrounding area
Literature review
Courtesy www.sswm.info
• Gas generation• Leachate generation• 3R• Cover systems• Landfill design• Power generation from landfill• Number of households to be served• Cut-off drains
Methodology
Site determination Data collection Determination of landfill size Determination of power generation
Theoretical framework Landfill design Waste after n years = Total waste generation in n years (T) in tonnes
Power generation
Number of households
Evaluation and documentation Landfill design
• Approximate Plan Dimensions = 2616.2 m x 1308.10 m• An additional 100 m should be left all round the
landfill for the infrastructural facilities, thus the total maximum area:
= 2816.2 m ×1508.1 m
Power generation• By using an efficiency of 30% for the conversion of
the LFG when using the internal combustion engine to power;
= 6.005 MW Puente Hills-50 MW (10,000 T)
Durban- 7.5 MW (3000 T)Uruguay-1MW (145 T)
Nairobi-6.005 MW (2000 T)
Number of households= 339,380
CONCLUSION Successful design Nairobi County Government encouraged
Recommendations Pre-treatment of waste Leachate collection and treatment system remediation methods for the landfill closure of the existing Dandora dumpsite Encouraging the use of 3R Geotechnical survey study
EIA Cut-off drain Cover systems
Conclusion and drawings
References• C.Visvanathan, Mechanical Biological Pre-treatment
for Sustainable Landfill, Environmental Engineering and Management Program School of Environment, Resources and Development Asian Institute of Technology Thailand.
• C. Visvanathan, J. Tränkler, B.F.A. Basnayake, C. Chiemchaisri, K. Joseph and Z. Gonming, Landfill management in Asia -notions about future approaches to appropriate and sustainable solutions.
• Aggrey Mwesigye, Samuel B.Kucel and Adam Sebbit, opportunities for generating electricity from municipal solid waste: case of Kampala city council landfill.
• Naveen K.Vsudevan, S.Vedachalam and Dheepak Sridhar, study on various methods of landfill remediation.
• Amalendu, BaGCHI, design of landfill and Integrated Solid Waste Management; Amalendu, BaGCHI.
• Jy H Lehr and Jack Keeley, domestic, municipal and Industrial water supply and waste disposal.
• Council directive 1999/31/EC on the landfill waste, 1999
• Department of the Environment (1995) Landfill design, construction and operational practice; waste management paper 26 B.HMSO, London
• Coelho, Suani Teixeira; E-mail: [email protected] Velázquez, Silvia Maria Stortini González; E-mail: [email protected] Pecora, Vanessa; E-mail: [email protected] Abreu, Fernando Castro. E-mail: [email protected] Landfill Biogas and its Use for Energy Generation.
• Japan International Cooperation Agency, CTI Engineering International CO., LTD and NJS consultants CO., LDT. (October 2010),Preparatory survey for integrated solid waste management in Nairobi City in the Republic of Kenya, Final report volume 2 main report.
• Ramsey/Washington Counties Resource Recovery Project (November 2001), Comparison of Potential Electricity Production from RDF and LFG.
• Marie Ryan, Environmental Scientist (May 2010), Environmental Standards for Municipal Solid Waste Landfill Sites.
END
THANK YOU !!!