ethanol supply chain and industry overview: more harm than...
TRANSCRIPT
Ethanol Supply Chain and Industry Overview: More Harm Than Good?
Authors: Sarah L Bruce
Advisor: Alexis Hickman Bateman, Edgar Blanco
Sponsor: Yossi Sheffi
MIT SCM ResearchFest May 23-24, 2012
Ethanol Topics
• What is Ethanol?
• Thesis Objective
• Goals of Ethanol
• Key US Legislation
• Unique Ethanol Properties
• Unintended Consequences
• Ethanol Supply Chain
• Ethanol Environmental Effects
• Conclusion
May 23-24, 2012 MIT SCM ResearchFest 2
May 23-24, 2012 MIT SCM ResearchFest 3
May 23-24, 2012 MIT SCM ResearchFest 4
Thesis Objective
• To determine if ethanol nets society more harm than good, based on the aggregation of a number of studies
May 23-24, 2012 MIT SCM ResearchFest 5
Ethanol Goals
• Reduce Greenhouse Gas (GHG) emissions
• Eliminate dependence on foreign oil
• Reduce fossil fuel consumption
May 23-24, 2012 MIT SCM ResearchFest 6
Renewable Fuel Standard 2007 (RFS2)
• Mandates 36 bgal of biofuel by 2022
• 4 of those biodiesel
• 99 bgal gasoline used for transportation 2009 approximately 32% of transport fuel ethanol 2022
• RFS2 caps corn ethanol at 15 bgal (by 2015)
• Rest (22 bgal) must be fulfilled by Advanced Biofuels
May 23-24, 2012 MIT SCM ResearchFest 7
Ethanol Properties
• Corrosive
• Absorbs water
• Lower energy content
• Higher octane
Leads to “Blend Wall”
Higher than 10 percent ethanol (E10) creates difficulty transporting and in engines
May 23-24, 2012 MIT SCM ResearchFest 8
Transport: Farm to Ethanol Plant
• Bulky feedstocks mean ethanol plant needs to be close to harvest site.
• From Ethanol plant must travel to Blender terminal to be mixed with gasoline
May 23-24, 2012 MIT SCM ResearchFest 9
Ethanol Production and Distribution Gasoline Consumption & Distribution
Transport: Ethanol Plant to Blender
• Pipeline constraints
• Demand on Rail Capacity increases significantly
• Infrastructure upgrades needed if ethanol blends over E10, which will be case this year
• US needs about $2.6 billion in transportation investment to meet demand
May 23-24, 2012 MIT SCM ResearchFest 10
Transport: Blender to Refueling Station
• Stations must upgrade components
• 156,065 refueling stations in US in 2013
• 2,339 ethanol refueling stations in US in 2013
• For ten percent availability: $1.6 billion capital investment. For presence at all gas stations: $18 bill
May 23-24, 2012 MIT SCM ResearchFest 11
End Use: Consumers and Cars
• 8 million Flex Fuel Vehicles on road in US
• Study showed consumers learn about decrease in energy content with E85 (85% ethanol) which results in a plateau in demand.
• Ethanol prices less than gasoline but not low enough to account for decrease in energy content.
• E85 represents very small portion of demand
May 23-24, 2012 MIT SCM ResearchFest 12
Summary of Supply Chain
• Given RFS2 mandates ethanol is about 32% of fuel in 2022.
• Total of at least $4.2 billion capital needed by private and government funds to upgrade infrastructure
• Results in much higher blends than E10, like E30. Given past consumer patterns they may not want.
May 23-24, 2012 MIT SCM ResearchFest 13
Unintended Consequences
Food versus Fuel
Land Use Changes
Direct and Indirect
May 23-24, 2012 MIT SCM ResearchFest 14
Food versus Fuel
• 10% of corn crop “Sweet corn” for human consumption. “Field corn” used for livestock feed or ethanol.
• In 2012 40% of corn crop went to ethanol production which produced 13.8 bgals of ethanol.
• 33% of ethanol production goes to distiller’s grain which is also used for livestock feed.
• 48% of corn crop still avail for feedstock
May 23-24, 2012 MIT SCM ResearchFest 15
Land Use Changes US crop yields have increased
May 23-24, 2012 MIT SCM ResearchFest 16
Land Use Change
• 52 countries with biofuel mandates over 60 bgals by 2022.
• US has nearly reached maximum amount of corn-based ethanol with current amount of land.
• Additional ethanol to come from cellulosic, sugarcane or other advanced biofuels.
• Cellulosic technology is slow to ramp up.
May 23-24, 2012 MIT SCM ResearchFest 17
Ethanol Environmental Impact
• Assessed using Lifecycle analysis
• Greenhouse Gas Emissions
• Iowa study showed some methods of ethanol manufacture results in 22% less ghg emissions than gasoline, but more gasoline if include global land use change.
May 23-24, 2012 MIT SCM ResearchFest 18
Lifecycle Greenhouse Gas Emissions
May 23-24, 2012 MIT SCM ResearchFest 19
Emissions GREET BESS* BESS** BESS***
CA GREET
Low
CA GREET
High
Crop Production 44 29 35 34
Biorefinery 43 30 31 25
Coproduct Credit -17 -16 -19 -22
Denaturant - - - -
Land Use Change - - - - 30 30
GWI 70 45 48 38 74.7 120.99
Gasoline 92 92 92 92 99.18 99.18
GHG Reduction -24% -51% -48% -59% -25% 22%1units in g CO2-eq/MJ combusted fuel
*MidWest, New Natural Gas
**Nebraska, Natural Gas
***Nebraska & N. Gas with wet distiller's grains only
Conclusion
• Ethanol’s benefit to society is not a binary decision, good or bad.
• Criteria for judgment is not solely environmental.
• Should not be 100% of transportation fuel solution.
• Ethanol industry is very competitive.
May 23-24, 2012 MIT SCM ResearchFest 20
Recommendations
• Most studies and models do not account for the shipping south to Brazil for corn ethanol exports
• More capital investment for development of commercial scale cellulosic plants is needed.
• Could fuel policy be regional policy: Optimal fuel solution is likely geographically dependent.
May 23-24, 2012 MIT SCM ResearchFest 21
In Closing
Ethanol Policy and Execution of Policy must be managed and evaluated carefully. (i.e. do not cut
funding to the EPA)
Thank you for your time.
Questions?
May 23-24, 2012 MIT SCM ResearchFest 22