Post on 01-Jan-2016
MUNICIPAL SOLID WASTE MANAGEMENT AND CARBON FINANCE
Carbon Finance Unit Training Session
Charles Peterson and Ahmed Mostafa
March 29, 2007
Methane avoidance projects: Composting
• Maximum amount of credits per ton of waste (100% compared to max. 50% for landfills)
• No additional investment needed
Composting process
• Composting is decomposition of waste under aerobic conditions (waste stabilized/digested in 2-3 months, compared to several yrs in sanitary landfills - anaerobic)
• The baseline is waste that would have been left to decay in the landfill and release methane to the atmosphere
• Composting is prevention of methane generation and not methane recovery
• Methane avoidance in composting process is nearly 100% compared to 30-50% in capturing and flaring
• By-product is CO2, moisture, high temperature and valuable soil conditioner (compost) that can be used for horticulture / agriculture.
Composting projectsChallenges
Technical• Biological process that needs technical expertise/know how• Well designed composting plants suitable for local conditions, waste
characteristics and climate• Siting of composting plants (should be on same premises of final
disposal site) – affects costs• More expensive compared to waste dumping/landfilling (but lower
investment, useful product, no environmental/health issues, etc.)• Creating market for compost• Consistent product quality is key to success (compost from MSW
could be contaminated with heavy metals – depends on collection/transportation methods)
• Market demand may not be adequate to cover costs (gradually establishing market – quality control)
Composting projectsChallenges (Cont.)
Financial
• Compost market & price (recent EC standards restricts use of compost from MSW for edible plants)
• Tipping fees
• Sale of recyclables & market / price
Composting projectsChallenges (cont.)
Institutional• Ownership of facility (operator, municipality?)
BOO, DBO, etc types of contracts or construction by Municipalities, and operated by private sector through concession contracts with following:- PS paid tipping fees with minimum tons/day,- Specifying minimum treatment percentage (as high as 60%) in contract, thus increasing lifetime of final disposal facilities (instead of 15-20 yrs, could be doubled and minimal precautions for leachate, LFG, resources pollution, i.e. significantly lower investment costs)
Eligibility of Composting operations
Technical:a- Municipal solid waste:• Require upstream sorting facility (represents at least 70% of capital and O&M
costs)• At least 60% organic content in mixed MSW• Type of technology / process (windrow, aerated static pile, In-vessel)• Process (capital and O&M cost) vs land requirement• Windrow technology most cost effective, but requires space, high
monitoring/quality control.b- Sludge / Market / Food waste:• No sorting process required (low capital and O&M costs)• Windrow technology among the best (space area, operator skills, etc)• Beware of chemical contaminants (source of sludge – industrial pollution)Financial• Selected Technology • Existence of compost market• Tipping fees paid for treatment• Recyclables (in case of MSW)
Technology I: windrow
Technology II: Aerated Static Pile
Technology III: In-Vessel
MSW: sorting process is essential
Sorting line
Composting process for MSW
Monitoring
Plastic processing
Cans compactor
Important issues to be discussed with project developer
Technical• Type of technology / process (affects capital, O&M costs)• Type of waste (MSW, sludge, manure, agri / organic residuals)• Capacity (depends primarily on type of waste - no less than 500 t/d
MSW, 400 t/d market/food waste for acceptable ER levels)• Process monitoring (ensuring aerobic conditions)• Quality control measures on final product (need to ensure consistent
quality for final product)Financial• Existence of compost market (if not, what's the sponsor’s strategy?)
– MSW compost ranges ($5 – $35), agri / organic compost ($50 upwards)
• Tipping fees paid for treatment or not?• Recyclables (in case of MSW)
Landfilling verses Composting of different types of wastes (500 t/d)
a: 65% organic content (requires sorting, composting and screening processes)b: 100% organic content (market / food waste)
Sanitary Landfill
MSW a Market/foodb
Total ERs upto 2015 (tCO2e)
220,000 440,000 700,000
Methane avoided (tons
CO2e/ton MSW)
0.25 0.5 0.76
Capital Cost $1 M + cost of landfill
$4-5 M $1-1.5 M
O&M cost $70,000 – 100,000 / yr
$100,000 – 200,000 / yr
$ 50,000 - 100,000 / yr
Successful Case Studies
• Option 1: DBO, BOOT, etc types of contracts– PS designs, constructs and operates for 10-15 yrs
treatment/disposal facilities– PS paid tipping fees (per tonnage) with minimum tonnage per day
on monthly basis + compost revenues + portion of CF revenues– Municipality responsible for monitoring and supervision of PS
operation– Facilities handed to municipality after concession period
• Option 2: Design and construction by Municipality– Concession contract to PS for operation (10-15 yrs)– Same cost recovery as above– Municipality responsible for monitoring and supervision of PS
operation
Overview of CFU Portfolio Composting projects
• Santiago, Chile
• Kabul, Afghanistan
• Porto Novo, Benin
• Karnataka, India
• Tashkent, Samarkand, Bukhara, Uzbekistan
• Kampala, Uganda
• Cairo, Egypt
• Jeddah, Saudi Arabia
• Kota Kinabalu, Malaysia
THANK YOU VERY MUCH
FOR MORE INFORMATION CONTACT
Charles Peterson cpeterson@worldbank.org
Ahmed Mostafa, amostafa1@worldbank.org