the 2016 billion-ton report: overview and implications for ...€¦ · 21 sajf 2016 thank you!...
TRANSCRIPT
The 2016 Billion-ton
Report:
overview and
implications for
jet fuels
Laurence Eaton Research Economist Oak Ridge National LabEnvironmental Sciences Division [email protected]
September 14, 2016
Alternative Aviation Fuel Workshop
Macon, Georgia
Disclaimer: Comments presented are my own and neither constitute nor imply policy of the U.S. Department of Energy.
2 SAJF 2016
Outline
• Overview of report – Motivation for a third assessment – What is new from 2005 and 2011 assessments– High level results
• Implications for aviation biofuels – Farmgate/forest landing – Delivered
3 SAJF 2016
Biomass is largest source of domestic
renewable energy
4 SAJF 2016
Corn: 119.5
Corn: 5.6
Animal manure: 10.5
Biogenic municipal solid waste: 15.0
Landfill gas: 1.2 Fats, oils, greases: 1.9
Landfill gas: 3.8
Waste biomass: 2.9
Vegetable oils: 5.5
Waste biomass: 7.8
Wood/wood waste: 16.0
Wood/wood waste: 44.8
Wood/wood waste: 7.6
Landfill gas: 31.9
Wood/wood waste: 85.3
Fuel: 35%
Industrial: 26%
Electric: 18%
Residential: 12%
Farm use: 3% Commercial: 2% Wood pellets: 2% Wood pellets: 2%Chemicals: 2%
How biomass is currently used
1 million “bioenergy
equivalent” dry ton per day (2014)
(million tons per year)
5 SAJF 2016
Motivation
• Enormous U.S. domestic biomass potential – 2005 and 2011 reports identified > 1 billion ton annual
supply
• Understanding and quantifying biomass supply fosters commercialization to increase – Energy security, – Energy independence, and – Environmental stewardship
• Sustainable production is critical to long-term viability of technology for clean energy
2005 and 2011 reports identified > 1 billion ton annual 2005 and 2011 reports identified > 1 billion ton annual 2005 BTS
2011 BT2
2016 BT16
6 SAJF 2016
Similar potential as 2011
BT2
BT16, Base Case BT2, Baseline
BT2, High Yield BT16, High Yield
7 SAJF 2016
Why a third assessment?
• Update to latest available economic and agricultural baseline
• Expand to new feedstocks
• Examine availability of delivered feedstocks Pump (2014) documentary screenshot
8 SAJF 2016
Preamble
• Potential new feedstocks exclude policy and end use
• Prioritizes food, forage, feed, fiber, and export to ensure social sustainability
• Economic supply curve approach • Underlying conservative assumptions with
environmental sustainability considerations • Two volumes: resource assessment and
environmental sustainability effects of select scenarios
• Multi-lab/agency effort
9 SAJF 2016
What’s new in the third assessment?
• Expanded currently used analysis (previous slide)
• Assessment by feedstocks, expansion of energy crop supply and addition of algal feedstocks
• Delivered supply analysis • Volume 2 to focus on sustainability effects of
specified scenarios from Volume 1
10 SAJF 2016
Major terrestrial biomass sources, 2040
Base case scenario, 2040, $60 per dry ton or less
11 SAJF 2016
Microalgae resources analysis
• Co-location near CO2 facilities
• Freshwater and saline culture
• Open ponds/raceways
• Lined and unlined ponds
• Present and future productivities
Scenario Ethanol
plant
Coal
EGU
Natural
gas EGU
Million
tons
Prices per dry
ton
Present productivities,
freshwater
12 19 15 <46 $719–$2,030
Present productivities,
saline
10 54 21 <86 $755–$2,889
Future productivities,
freshwater
13 10 0 <23 $490–$1,327
Future productivities,
saline
11 12 0 <24 $540–$2,074
12 SAJF 2016
Schematic of biomass supply chain
14 SAJF 2016 Currently used at market prices, potential supplies up to $60/dt (2014$)
Currently used
Near-term potential
0.365 0.365 0.365 0.365 0.365 0.365 0.365
0.138 0.139 0.140 0.140 0.141 0.141 0.142
0.103 0.109 0.109 0.101 0.097 0.101 0.097
0.104 0.116 0.123 0.135 0.149 0.163 0.176 0.000 0.026
0.078 0.130
0.239
0.3240.411
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
2017 2020 2022 2025 2030 2035 2040
Bill
ion
Dry
To
ns
per
Yea
r
Energy crops
Agricultural residues
Forestland Resources
Wastes
Currently used
0.8
1.0
1.2
Bill
ion
Dry
To
ns
per
Yea
rB
illio
n D
ry T
on
s p
er Y
ear
Bill
ion
Dry
To
ns
per
Yea
r
Long-term
potential
0.40.4
0.6
0.8
0.138
0.103
0.104 0.0000.000
0.142
0.097
0.176
0.411
Scenarios to Volume 2 0.141
0.101
Scenarios to Volume 20.139
0.109
Current and
Potential, Base
Case at $60/dt
15 SAJF 2016 Currently used at market prices, potential supplies up to $60/dt (2014$)
Currently used
Near-term potential
Long-term
potential
0.365 0.365 0.365 0.365 0.365 0.365 0.365
0.138 0.139 0.140 0.140 0.141 0.141 0.142
0.103 0.109 0.109 0.101 0.097 0.101 0.097
0.105 0.123 0.135 0.152 0.174 0.189 0.200 0.000 0.035
0.110 0.192
0.380
0.559
0.736
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
2017 2020 2022 2025 2030 2035 2040
Bill
ion
Dry
Ton
s pe
r Y
ear
Energy crops
Agricultural residues
Forestland Resources
Wastes
Currently used
0.142
0.097
0.200
0.736
Scenario to Volume 2 0.141
0.101
Current and
Potential, High
Yield Ag. at $60/dt
16 SAJF 2016
Delivered Scenario Analysis
Near Term Long Term Long Term High Yield
17 SAJF 2016
2040 Delivered Analysis, Base case
18 SAJF 2016
What are the BT16’s implications for
advanced jet fuels? (1 of 2)
Adapted from Batidzirai, Smeets, and Faaij (2012), DOE-EERE (2006), and NREL (2011).
19 SAJF 2016
What are the BT16’s implications for
advanced jet fuels? (2 of 2)
• Not a “one-size-fits-all” resource assessment – Broad potential may not represent strategic potential
for single pathway
• Acreage and supply as proxy for jet fuels crops – Annual energy crops – Perennial woody and herbaceous crops
• More analysis needed to assess adoption of new cropping models (oilseeds, double cropping, etc)
• Market effects may vary for feedstocks with existing uses
20 SAJF 2016
Interactive Resources
Photo source: Knox News Sentinel
http://bioenergykdf.net/billionton
21 SAJF 2016
Thank you!
Laurence Eaton Research Economist [email protected] Acknowledgements: BT16 author team, specifically Matt Langholtz, Bryce Stokes, Maggie Davis, Anthony Turhollow, Rebecca Efroymson, Craig Brandt