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Transcript 
Forest carbon or forest bioenergy? Assessing trade‐offs in GHG mitigation
Jon McKechnie 1
Steve Colombo 2
Heather MacLean 1
1
2
University of Toronto, Department of Civil Engineering
Ontario Forest Research Institute
[email protected]
Woody Biomass Energy Research Symposium, Vermont, April 28‐30
1
Outline
• Bioenergy and forest carbon
• Framework for assessing Total GHG Emissions from forest bioenergy
• Wood pellets, Ethanol
• Standing trees, Harvest residues
• Moving forward: Improving Total GHG Emissions of ethanol produced from woody biomass
• Key messages
2
Bioenergy in the context of forest options for GHG mitigation
Minimise net Emissions to the
Atmosphere
Non-forest
Land Use
Land-use Sector
Biofuel
Fossil Fuel
Wood Products
Other Products
Forest
Ecosystems
Forest Sector
Modified from IPCC 2007, AR4 WG III, Forestry
Services used by Society
3
Framework for assessing Total GHG Emissions of forest bioenergy
44
Application of framework
Bioenergy products
• Wood pellets
• Ethanol
Biomass sources
• Standing trees
• Harvest residues
• Sourced from Great Lakes – St. Lawrence Forest Region of Ontario
5
Bioenergy pathways considered
Electricity generation
• Wood pellets at retrofit Nanticoke Generating Station: 20% co‐firing with coal; 100% pellet
• Coal‐only generation at Nanticoke
Transportation
• Ethanol (E85 blend) for use in light‐duty vehicle
• Reformulated gasoline for use in LDV
6
Forest carbon modeling approach
• Compare forest carbon storage in GLSL region under:
Harvest ‘without’ bioenergy • (traditional products only, historic harvest rate)
Harvest ‘with’ bioenergy
• (traditional products and wood pellets/ethanol)
• Difference in forest carbon is allocated to wood pellets
• Continuous production over 100 years
7
Key assumptions
Trees not harvested for bioenergy:
• Not harvested for other uses
• Age and undergo natural succession
• Subject to current rate of disturbance
Harvest residues not collected for bioenergy:
• Not collected for other uses
• Decompose in the forest
8
GHG emissions, excluding forest C
Electricity pathways
Transportation pathways
9
GHG emissions results, including forest C:
1. Pellets, EtOH initially increase GHG emissions
Life cycle emissions, excluding forest C
~90 gCO2eq/kWh
Bio‐based emissions:
~1,100 gCO2eq/kWh
Life cycle emissions
~1,000 gCO2eq/kWh
10
2. Forest carbon impacts of biomass harvest tend toward an equilibrium
Standing tree
Harvest residue
11
3. Forest carbon impacts reduce and delay GHG mitigation (pellets, displ. coal)
Standing tree
Harvest residue
12
4. Less favourable GHG balance when displacing lower‐GHG fuels (EtOH)
Standing tree
Harvest residue
McKechnie et al., (2011). Forest bioenergy or forest carbon? Assessing trade‐offs in greenhouse gas mitigation with wood‐based fuels. Environmental Science and Technology, 45, 789‐795.
13
Can the Total GHG Emissions of forest bioenergy be improved?
• Reducing the forest carbon impact of biomass provision
• Non‐forest sources (process residues, end‐of‐
life materials)
• Target specific species groups, age classes
• Forest management intensity
• Improving the GHG benefit of bioenergy
• Make ‘best use’ of bioenergy to maximize GHG displacement
• Bioenergy production decisions, co‐products
14
Improving GHG emissions mitigation of ethanol from woody biomass
• Most studies of EtOH production assume a stand‐
alone facility exporting excess electricity co‐product to the grid
• GHG balance of EtOH may be improved by considering:
• Co‐location with other processes
• Broader range of co‐products
• Process energy sources
• Ethanol production process developed by SunOpta (now Mascoma Canada)
• Assume production in US Midwest from hybrid poplar
15
1. Electricity co‐product
Excess electricity displaces US Midwest grid average
16
2. Fuel pellet co‐product
Fuel pellets displace coal in electricity generation
17
3. Steam input from co‐located process, fuel pellet co‐product
Fuel pellets displace coal in electricity generation
18
LC GHG emissions results (excluding LUC)
McKechnie et al., (2011). Impacts of co‐location, co‐
production, and process energy source on life cycle energy use and greenhouse gas emissions of lignocellulosic ethanol. Biofuels, Bioproducts & Biorefining, accepted.
19
Applying LC results to GL‐SL Region: Total GHG emissions, EtOH from standing trees
20
Applying LC results to GL‐SL Region: Total GHG emissions, EtOH from standing trees
21
Applying LC results to GL‐SL Region: Total GHG emissions, EtOH from standing trees
22
Ethanol from harvest residues
23
Insights
• Forest carbon impacts are very important
• Timing of GHG benefits is dependent on biomass source (trees vs. residues) and displaced fossil fuel (e.g., coal vs. gasoline)
• Bioenergy production and utilization decisions can significantly affect GHG emissions
• Integration with existing forest products sector or other industrial processes may improve GHG emissions balance
• Forest bioenergy can effectively reduce GHG emissions, but only if it utilizes appropriate biomass sources; targets GHG‐intensive fossil fuels
24
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