Manure – A Multi-Purpose Resource: ”Things are Changing in
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Transcript Manure – A Multi-Purpose Resource: ”Things are Changing in
Re-Defining Confined Livestock Farming:
Farm-based Renewable Energy Systems
Bruce T. Bowman
Expert Committee on Manure Management
Canadian Agri-Food Research Council
Presented to:
Rural Ontario Municipal Association (ROMA)
Toronto, Ontario
June 2, 2005
Presentation Objective
To demonstrate the central role of manure processing &
farm bio-energy systems for revitalizing rural economies
- GHG’s
- Odours
Environmental - Pathogens
Remediation - Deadstock
Nutrient
Issues
A.D.
Manure
Processing
- Conservation
- Recycling
- Nutrient
availability
Biogas
Farm
Economic
Benefits
Farm Bio-Energy
Rural Society
Benefits
Priority Issues
for Manure Management
Three priority issues to manage:
Nutrients
Odours
Pathogens
............................. but also …….
Water volumes
Carbon = Energy $$$
LARGE SCALE ONE-WAY NUTRIENT FLOWS
Recycling Nutrients & Organic Matter
Nutrient inputs
Food
Products
Manure
Cereal Production
Human
Consumption
Odour
Pathogens
Annual
Mineral
Fertilizer
Additions
Nutrients & O.M. NOT recycled
Regional nutrient excesses
Wastes
Local Farm
Landfills
Exporting
Surplus Livestock Nutrients
The need to export surplus nutrients will increase
with further intensification of livestock operations.
Conditions for exporting manure nutrients:
1. Odour-free
2. Pathogen-free
3. Dewatered (dried) for transportation
Manure processing (anaerobic digestion) can
solve these issues.
Anaerobic Digestion
A Few Facts
Mimicking fermentation in a ruminant stomach (no
oxygen).
(most digesters are mesophylic ~ 37°C – body temp.)
Closed system – no nutrient or gaseous losses (e.g. N)
- closer N:P ratio than with raw manure – better for crops
About 50% of carbon biogas (CH4 + CO2, 65:35, tr. H2S);
- Biogas used to generate electricity by co-gen units
- (nutrients in more plant available, predictable form)
(~ 25% C blown off conventional slurries by bacterial decomp.)
Anaerobic Digestion
…….. More Facts
Certain antibiotics can STOP digestion processes
Processing Time: 20 – 35 days @ 37°C
Odour Reduction: ~ 90% or more
Pathogens Reduced to:~ 1/1000 – 1/10,000 (37°C)
- Eliminate pathogens by pasteurizing (1hr @ 70°C)
Why Digest Manure?
Potential Benefits
Environmental
Economic
Reduce odours & pathogens
- flexibility to export surplus nutrients
Renewable energy generation
- energy independence
Export surplus Livestock nutrients
Conserve nutrients (N)
- reduce mineral fertilizer use
Emission reduction trading credits
Reduce gaseous emissions
- GHGs, ammonia, hydrogen sulfide
Tipping fees – food-grade wastes
- 20 – 25% energy boost
Societal
Reduce siting / zoning problems
Regain public support
Opportunity for new rural partnerships
Balancing Issues
in a Sustainable Farming Operation
1. Yield/Productivity
(economics)
Pre-1965
Societal Concerns
2. Environmental Issues
Since 1970s 2-D
Both are science-based
3. Societal Concerns
Since 1990s 3-D
Perception-based, emotional
Can over-ride other 2 factors.
Opposition difficult to reverse
once initiated
Manure Processing
Anaerobic Digestion
Low Tech
High Tech
Barriers to Adoption of
Anaerobic Digestion Technology
1.
Investment, Incentive & Payback Issues
2.
Managing Regulatory Issues
3.
Developing Reliability, Trust & Expertise
4.
Managing Complexity
Overcoming Barriers
to Adoption of
Anaerobic Digestion Technology
1. Investment, Incentive & Payback Issues
$300K - >$5M, depending on scale of operation
– Plant Life = 20 – 30 yr before reconditioning
– Payback = <7 yr (electricity, solids sales, emission credits)
– Breakeven – 110 cow dairy; 1200 hog; 25,000 poultry
(Considerably less in Europe because of “greener” policies)
Policy Issues – Need consistent policies & incentives
across 3 levels of government
- Environ. Loan Guarantees (manage risk)
- Tax Incentives for green electricity
Feasibility Assessment - How does the farmer put a
realistic value on odour & pathogen-free manure?
– changes from societal opposition to opportunities for new
partnerships.
Overcoming Barriers
to Adoption of
Anaerobic Digestion Technology
1. Establishing Revenue Streams
Electricity Purchase Agreements
– Net Metering, Dual Metering – Peak Demand Generation
– Nova Scotia, Ontario, Saskatchewan - leading provinces
– may be sufficient to be energy independent;
delivered power ~ 2 x generating costs (ON = 12 - 15¢/kwh)
Sale of Processed Solids/ Org. Fertilizers
– excess nutrients exported – promotes nutrient re-use
Emission Trading System currently developing
- sell credits for reducing emissions
- current value of e-CO2 in Europe ~ $10/tonne
Tipping Fees for Receiving Food-Grade Wastes
– boost biogas output (20 – 30%) increases revenue
Overcoming Barriers
to Adoption of
Anaerobic Digestion Technology
2. Managing Regulatory Issues
Electrical generation – interconnects / net metering
Power Utilities starting to change policies for small renewable
energy generators (up to 500 kw)
Off-farm biomass inputs (boost biogas production)
can result in C.of A.’s – regulations being changed to allow
<20% food-grade wastes
Managing emissions / discharges
Biogas flare, fugitive GHGs, liquid discharges
Fertilizer/amendment products - quality assurance,
certification; labeling requirements
Overcoming Barriers
to Adoption of
Anaerobic Digestion Technology
3. Developing Reliability, Trust & Expertise
Small number of installed digesters in Canada
(12 – 18 in advanced design or already built)
Limited knowledgeable Canadian design/build firms
- limited track record
Demonstration Program – AAFC/NRCAN - 3 yr - Energy
Co-generation from Agricultural/Municipal Wastes (ECoAMu)
4 digesters (AB – Beef; SK – Hogs; ON – Beef; QC - Hogs)
ECoAMu Program On ManureNet
http://res2.agr.gc.ca/initiatives/manurenet/en/hems/ecoamu_main.html
Overcoming Barriers
to Adoption of
Anaerobic Digestion Technology
4. Managing Complexity
A.D. adds yet another new technology to be
managed by farmer – Time; Skill-sets
Service agreements
Co-Generation – Power Utility – electricity export
Remote monitoring & process control in realtime – practical technology now available
A Centralized Co-op Rural Energy System
Potential Components
Dewatered
Digestate
Liquid
Digestate
Co-gen
Food Grade
Organics
water
Resource Centre
Electricity
Heat
Local
Municipal
Organics
Rendering,
Deadstock
Wet Distillers Grain - 15% savings
Organic
Fertilizers
CO2
Clean Water
Co-Located
Industries
Greenhouses
(Veg., Flowers)
Fish Farm
Slaughterhouse
Bio-ethanol plant
Challenges Facing
Confined Livestock Operations
Energy
Increasing price volatility (The China factor)
Less reliable supplies (Declining fossil reserves)
Will also increase N fertilizer costs
Environment
/ Health
Increasing regulations – nutrients, pathogens
Municipal waste issues (biosolids)
Rendering / deadstock – limited uses/value
GHG emission reductions – Kyoto protocol
Increasing livestock intensities – odour
Economics
Continuing vulnerability of farm incomes
Increasing costs of compliance
Re-Inventing
Confined Livestock Farming
Future livestock operations will be structured
around bio-energy energy independence using
co-generation technologies.
Facilitates conservation and recycling of resources
(nutrients, carbon = $$$)
Income stabilization through diversification
(new revenue streams independent from commodity prices!)
- Green Electricity
- Processed manure solids
- Emission Trading Credits - Co-located integrated industries
- Tipping fees for food-quality wastes (energy boost)
Re-Inventing
Confined Livestock Farming
Reduces existing environmental issues
– Reduced odours, pathogens diminished societal concerns
– Flexibility for applying/exporting processed manure products
Strengthens rural economy utilizing more local inputs
(employment, resource inputs – biomass crops)
- Municipality can be a partner (wastes, buy energy)
- Farmer co-ops take increased control of rural businesses
ADD value to products BEFORE leaving farm gate
- Reduced transportation costs for manufacturing (bio-based)
Farm Bio-Energy Centres
As Integrators & Facilitators
GHG reductions
Deadstock
Income
Stabilization
Odours Environmental
Solutions
Pathogens
Nutrient
export &
Recycling
Farm Bio-Energy
A.D. Processing
Reduce
herbicide
use
Energy
Independence
Municipal
Organic wastes
Rural Revitalization
Heat
Electricity
Clean water
CO2
Electricity
Manure solids
Emission
credits
Tipping fees
Independen
t
of Livestock
prices
Co-located industries
Local biomass inputs
In Summary
A.D. manure processing is the key to:
Remediating environmental problems (odours, pathogens)
Improving community relations
Providing flexibility for managing surplus nutrients
Generating bio-energy (thermal, electrical) energy
independence & rural business opportunities
Economics are rapidly improving, but policies,
incentives & regulations need to be coordinated across
3 levels of gov’t to facilitate adoption of this technology.
Efforts to increase technical support and assistance are
required to foster adoption of the technology.
Resource Information on
http://res2.agr.gc.ca/initiatives/manurenet/manurenet_en.html
6,100 external web links
Several hundred digital technical/research reports
Manure Treatment
Digester Compendium
Nutrient Recovery
Ammonia Emissions
Nutrient Management
Environmental Issues
GHG Emissions
Odour Management
Land Application
Storage & Handling
Housing / Feedlots
Feeding Strategies
Codes, Acts, Regulations
Health & Safety
Links
Digital Library
Expertise
Environmental Archive
(>170 digital reports)
Micro CHP
(Combined Heating and Power)
Distributed Power Generation
Electricity + Heat generated at each residence
Small engine + generator replace furnace & water heater
85 % efficiency
Grid
Micro CHP
(Combined Heating and Power)
Distributed Power Generation
Centralized GasFired Plant
Micro CHP
100
100
57
<15
4-7
0
39
20
Useful Heat Energy
0
65
Net Useful Energy
36-39
85+
INPUT
Waste Energy
Line Losses
Electricity
Micro CHP
(Combined Heating and Power)
Advantages
Micro CHP units run on natural gas or biogas
More efficient use of resources (15% vs 60% loss)
(39 vs 85 % efficiency)
Excess electricity exported to grid (10 kw units - $$)
Blackout & Terrorist proof (totally distributed generation)
Significant GHG reductions
Almost eliminate line losses (electricity used on-site)
In Ontario – 2 million homes would produce 10,000 Mw
– equivalent to several nuclear power plants
No environmental assessments required – minor impacts
Several thousand units being tested in Europe & Japan;
USA senate holding hearings on technology potential