Florida’s food waste problembiogas.ifas.ufl.edu/foodwaste/documents/2009 Florida Campus and... ·...
Transcript of Florida’s food waste problembiogas.ifas.ufl.edu/foodwaste/documents/2009 Florida Campus and... ·...
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Florida’s food waste problem 1.7 million tons reported in 2007
~5% of total municipal solid waste (MSW)
Only 1% recycled
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Florida food waste sources 80,935 food service vendors
9,789 food store producing 625,000 tons annually
Other locations: schools, prisons, processing plants, residences
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Problems with current disposal methods
Landfilling
• Land requirement• Transportation• Methane emissions• Leachate problems• Nutrient lock-up• Aesthetics
Sewage Treatment
• Overburdens treatment plant
• Energy costs• Transporting biosolids• Loss of nutrients
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Florida is running out of land
Source: 1000 Friends of Florida
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Florida’s 75% Recycling Goal Statute within the Energy, Climate Change, and
Economic Security Act of 2008
75% recycling rate by 2020
Currently recycling rate: 28%
Creative options will need to be employed to reach goal
Organics represent significant proportion of MSW
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One solution: Anaerobic Digestion Natural, microbial decomposition of organic material
Occurs naturally where anaerobic conditions occur (wetlands, ruminants)
Releases carbon from material as CO2 and methane.
Methane captured as usable biogas
Nutrients remain in liquid and solid effluent
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Benefits of AD
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Benefits of AD Sustainable energy
Sustainable nutrients
Scalable and local
Closed-loop process
Diverts food waste from landfills and aerobic treatment plants
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Sustainable Energy Biogas is gaseous by product of AD
Primarily methane (65-80%) and CO2
Can be combusted directly or refined to natural gas equivalent
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Sustainable energy Carbon neutral
Combats global warming
Captures energy from waste
No need for energy crops
Offsets fossil fuel use
Stretches energy reserves
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Sustainable energy Uses of biogas
Cooking
Heating (water/air)
Electricity
Gas lighting
Vehicle fuel
Hydrogen fuel cells
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Landfill gas vs. biogasLandfill gas
Slow, passive process
Gas contaminated with many pollutants
Transportation of waste to landfill
Good solution for existing landfill
Biogas• Fast, active process
• Gas significantly cleaner
• Energy and nutrients
• Can be produced throughout community
• Saves space in landfill
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Sustainable nutrients Effluent is a nutrient-rich organic biofertilizer
Nutrients mineralized for better plant availability
Content depends on feedstock
(e.g. high protein=high N)
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Reduces use of synthetics
Synthetics- fossil fuel derived
Reduces cost of organic fertilizer
Increased organic production
Keeps nutrients within productive cycle
Sustainable nutrients
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Closed-loop process
Biofertilizer
Nutrients
Biogas
Carbon Cycle
Waste
Biodigestion
Atmosphere
Soil
Nutrient Cycle
Carbon
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Scalable and local Applicable to small farm or large city
Biogas produced on-site or at centralized digester
Can fit into any municipal waste plan
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Anaerobic digestion vs. aerobic composting
Compost
• Bulkier material (i.e. yard waste)
• Smaller scale (neighborhood, community gardens)
• Energy infrastructure not always feasible
• Entry-point for recycling food waste
• Possible integration of both processes
Digestion
• Captures both energy and nutrients
• Faster turnover rate• Less land required• Not hindered by fats,
grease, and oils
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Role of Florida Universities “Living laboratories” for a working demonstration
Close contact between research and implementation
High volume waste stream from dining halls and cafeterias
Partnership with food vendors = cost-sharing
Education – exposure - experience
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What is needed Determining the “low-hanging fruit” for food waste
collection
Spreading public awareness
Pilot scale projects
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http://biogas.ifas.ufl.edu
Ryan GraunkeSchool of Natural Resources and Environment
University of Florida
Ann C. WilkieSoil and Water Science Department
University of Florida-IFAS