advanced biofuels a truly sustainable renewable future · ethanol is a biofuel. corn-based ethanol...

Advanced Biofuels

A Truly

Sustainable

Renewable Future

Advanced Biofuels USA

www.AdvancedBiofuelsUSA.org

1 Copyright 2010Advanced Biofuels USA

What Are Advanced Biofuels?

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Why are they important? What are they used for?

How are they made? Can we buy them NOW?

What Are Advanced Biofuels?

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Why are they important? What are they used for?

How are they made? Can we buy them NOW?

Why Replacing Oil With Advanced Transportation Biofuels is Important

16 Million Barrels of oil imported each day by US

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90% oil used as transportation fuel

rest to produce

plastics & related products

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Peak Oil

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Peak Oil

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Before oil runs out, it becomes more difficult and dangerous to extract.

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Before oil runs out, it becomes more difficult and dangerous to extract.

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Ethanol is a biofuel.

Corn-based ethanol is one of

the few currently commercially

available biofuels you can buy

for vehicles today.

• And the ethanol molecule is many other

things too. Can you name some?

• Wine

• Beer

• Whiskey

• Moonshine

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Virtually no oil is used to produce electricity in the US.

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Windmills and solar can produce electricity but cannot power jet airplanes.

Principles of Sustainability

Economic Environmental Social

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What Are Advanced Biofuels?

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Why are they important? What are they used for?

How are they made? Can we buy them NOW?

What Are Advanced Biofuels Used For?

Today

• Fueling Cars and Trucks

• Fueling Aircraft

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What Will Advanced Biofuels Be Used For Tomorrow?

• High octane “Designer” fuels for high mileage vehicles

• Hydrogen Carriers for Fuel Cells

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What Will Advanced Biofuels Be Used For Tomorrow?

• Military Aviation Fuels

• Military Marine Fuels

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What Are Advanced Biofuels?

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Why are they important? What are they used for?

How are they made? Can we buy them NOW?

What Are Advanced Biofuels?

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How are they made?

Feedstock Logistics

Technology

Feedstocks: Identify Potential Energy Crops

• Grasses

• Trees and Forest Waste

• Agricultural Residues

• Algae

• Food Processing Residues

• Energy Crops

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Examples of Potential Feedstocks or Energy Crops

• Algae

• Corn stover

• Corn cobs

• Energy cane

• Sorghum

• Forestry waste

• Municipal waste

• Sawdust

• Chicken manure

• Agricultural residues

Copyright 2010Advanced Biofuels USA

• Grasses such as

Switchgrass

Miscanthus

• Sugar beets

• Coffee grounds

• Jatropha

• Camelina

• Paper/pulp mill waste

• Halophytes…

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Examples of potential crops/plants which can be used

for production of biofuels

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Sunflower or Jerusalem Artichoke

Examples of potential crops/plants which can be used

for production of biofuels

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Sweet Sorghum

Examples of potential crops/plants which can be used

for production of biofuels

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Canola

Examples of potential crops/plants which can be used

for production of biofuels

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Arundo or Giant Reed

Examples of potential crops/plants which can be used

for production of biofuels

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Corn Stover, Cobs

Examples of potential crops/plants which can be used

for production of biofuels

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Sugar Beet

Examples of potential crops/plants which can be used

for production of biofuels

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Sugar Beet

Examples of potential crops/plants which can be used

for production of biofuels

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Switchgrass

Examples of potential crops/plants which can be used

for production of biofuels

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Examples of potential other things which can be used for

production of biofuels

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Sorted Municipal Solid Waste

Examples of potential other things which can be used for

production of biofuels

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Examples of potential other things which can be used for

production of biofuels

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Algae

What bioenergy crops might grow where you live?

How can you find out? • Ask your

• local Agricultural Extension Service

• local Farm Bureau members

• State Land Grant University

• Talk to advisors of local 4-H or FFA organizations

• Contact your local Agricultural Economic Development Office

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Maybe bioenergy crops are not suitable for your area. What are other advanced

biofuels feedstocks?

• Is Forestry big in your area?

• Does your area process agricultural

products leaving waste when food

production is completed?

• What about biomass that is now

dumped into your landfill?

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Processes

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• Fermentation

• Plant extraction

• Transesterification

• Hydrolysis

• Enzymatic Catalysis

Biochemical

Thermochemical

•Gasification

•Plasma arc gasification

•Pyrolysis

•Thermochemical conversion of sugars

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Gasification

Pyrolysis

Deconstruction

Heat

Heat

Low heat

Syngas

Biocrude

sugar in water

Fischer-Tropsch Synthesis or Fermentation

Hydro treating

Aqueous phase forming

Jet fuel

Transportation Fuel Plastics

Diesel

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Plant Biomass: poplar,switchgrass, corn stover, woody biomass; sorted municipal solid waste and others

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Catalytic Process

Principles of Sustainability

Economic Environmental Social

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How Will We Economically Produce and Transport

Feedstock to Biorefineries? And Fuel to Customers?

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Small Group Discussion Question: Economic

How do we use land for Food/Fuel/Feed/Fiber and Fun?

Who gets to decide how land is used?

Locally, Nationally, Internationally

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Small Group Discussion Question: Social

How can

•Growing crops,

•Using forest products,

•Growing algae, or

•Using waste from food processing or municipal waste

Help or Hurt the Environment?

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Small Group Discussion Question: Environmental

How Will We Economically Produce and Transport

Feedstock to Biorefineries? And Fuel to Customers?

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Small Group Discussion Question: Economic

Principles of Sustainability

• Economic Environmental Social

Everyone in the value chain needs to make a living

The operation must be financially stable

The price of the product must be competitive in its market

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Minimizing the Cost of Biomass Transportation

The Transport Conundrum

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How can we gather enough Biomass to support a Cost-Efficient Biorefinery?

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Minimizing the Cost of Biomass Transportation

The Transport Conundrum • The size of current generation of ethanol production

plants is limited by the amount of crop that can be economically trucked to the plant

• Production plants can not take advantage of economies of scale

• Production plants may not operate year-round because of harvest patterns

• Production plants may not be able to switch crops to reduce costs because of longer transport distances

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Minimizing the Cost of Biomass Transportation

Breaking the Transport Conundrum

Separating biorefinery functions is an answer to the conundrum

1. Conversion of biomass to high density liquid sugars or other intermediate compounds would occur at a network of decentralized, low-capital facilities, often co-located with grain elevators

2. Intermediate liquids or “precursors” would be transported by truck or rail to existing refineries

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Minimizing the Cost of Biomass Transportation

Breaking the Transport Conundrum

3. Existing petroleum refineries or biorefineries could be retrofitted to utilize intermediates or precursors as a feedstock alternative to crude oil

4. Biofuel production would be year-round, utilizing a variety of different biomass sources harvested at different times of year

5. Multiple biofuels and other bio-chemicals would be produced at one facility, provides market response flexibility

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How can

•Growing crops,

•Using forest products,

•Growing algae, or

•Using waste from food processing or municipal waste

Help or Hurt the Environment?

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Small Group Discussion Question: Environmental

Principles of Sustainability

• Economic Environmental Social

Carbon Cycle/Climate Change

Reduce Green House Gases in

the atmosphere

Reduce our “carbon footprint”

Reduce Black carbon from

cooking fires

Reduce use of fertilizer

Reduce use of water

Grow crops that sequester carbon

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How do we use land for Food/Fuel/Feed/Fiber and Fun?

Who gets to decide how land is used?

Locally, Nationally, Internationally

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Small Group Discussion Question: Social

Principles of Sustainability • Economic Environmental Social

Government

Land ownership

Transportation

Infrastructure

Education

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Principles of Sustainability

• Economic Environmental Social

• Land Use Practices

• Decision-Making

• Form of Government

• Cultural Values and Traditions

• Economic System

• Market-Based

• Level of Government Influence

• Prestige and Aspirations

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2007 Renewable Fuels Standard Sec. 202 Energy Independence and Security Act of 2007 (Billion Gallons/Year)

0.0

5.0

10.0

15.0

20.0

25.0

30.0

35.0

40.0

2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022

Additional Advanced Biofuels

Cellulosic Biofuels

Corn Ethanol

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2007 Renewable Fuels Standard Sec. 202 Energy Independence and Security Act of 2007 (Billion Gallons/Year)

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.

Private Investors

Government

Long-term Personal Passion

Credit Markets/

Banks

Venture Capital

Valley of Death

Exit Strategy

2-3 years; 20% ROI

Federal

States

Copyright 2010Advanced Biofuels USA

Funding of “new” and “never been

done before” technologies

New Ideas?

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What Are Advanced Biofuels?

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Why are they important? What are they used for?

How are they made? Can we buy them NOW?

OR, Why can’t we buy them now?

Which Products Can You Buy NOW?

• Cellulosic Ethanol?

• Biodiesel?

• Renewable Diesel?

• “Drop-In” Biofuels?

• Co-Products?

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Advantages of renewable fuels over petroleum fuels • Renewable, non-toxic, biodegradable

• Reduces greenhouse gas emissions hydrocarbons, carbon monoxide and particulate matter)

• Produced from a variety of feedstock, grown on farms or taken from the waste stream

• Reduces reliance on non-renewable oil that pollutes environment

• Reduces foreign oil imports leading to energy independence.

• Production often includes valuable co-products such as animal feed.

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Financing

“new”&“never done before” technologies

Controversies

Policy Issues

Technical Challenges

Barriers &

Challenges

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TECHNICAL CHALLENGES

Barriers and Challenges

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Overcoming the Technical Roadblocks to Low-

Cost Advanced Biofuel Production

1. Make all components of biomass available for biofuel production (Use the appropriate parts of specific plants)

2. Improve the efficiency of biomass to biofuel conversion (Do it faster, cheaper, sustainably)

3. Minimize the cost of biomass transportation (Move more for less)

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Making Plant Biomass Available for Biofuel

Production Sugar Availability in Plant Cell

Walls

• Additional “simple” sugars are available in plant and tree cell walls, but are in more complex forms that are not readily available for biofuel production

• Plant cell walls are composed primarily of three components: cellulose, hemicellulose, and pectin

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Making Plant Biomass Available for Biofuel Production

Sugar Availability in Plant Cell Walls

• Tree and grass cell walls have an additional component, lignin.

This is the “woody” material that gives trees great tensile strength

• Cellulose, hemicellulose, and pectin are composed of monosaccharides strung together, they are called polysaccharides

• Lignin is composed of polysaccharides and alcohols

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• Cellulose, hemicellulose, pectin, & lignin intertwine to create complex cell wall matrices

• This complex structure protects plants and trees from disease, moves nutrients, and provides for growth

• These complex structures also restrict access to the “simple sugar” components

• Current technologies to break up biomass: acid, ammonia, steam, or pressure are energy and cost intensive

Making Plant Biomass Available for Biofuel Production

Biomass Recalcitrance

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Making Plant Biomass Available for Biofuel Production

Overcoming Biomass Recalcitrance

Researchers are pursuing four different approaches to overcome biomass recalcitrance

1. Reverse engineer plant cell wall genetics to discover enzymes that will “deconstruct” cell wall matrices

2. Adapt microbial “rotting” enzymes to dissolve cell wall sugars

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Making Plant Biomass Available for Biofuel Production

Overcoming Biomass Recalcitrance

3.Breed plants and trees with cell wall structures more amenable to chemical or enzyme solubility

4.Reduce costs and energy requirements of chemical processes

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Gasification

Pyrolysis

Deconstruction

Heat

Heat

Low heat

Syngas

Biocrude

sugar in water

Fischer-Tropsch Synthesis or Fermentation

Hydro treating

Aqueous phase forming

Jet fuel

Transportation Fuels Plastics

Diesel

Copyright 2010Advanced Biofuels USA

Plant Biomass: poplar,switchgrass, corn stover, woody biomass; Sorted municipal solid waste and others

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Catalytic Process

FINANCING “NEW” AND “NEVER DONE BEFORE “

TECHNOLOGIES

Barriers and Challenges

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.

Private Investors

Government

Long-term Personal Passion

Credit Markets/

Banks

Venture Capital

Valley of Death

Exit Strategy

2-3 years; 20% ROI

Federal

States

Copyright 2010Advanced Biofuels USA

Funding of “new” and “never been

done before” technologies

New Ideas?

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CONTROVERSIES

Barriers and Challenges

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Controversies

• Food/Fiber/Feed/Fuel/Fun/Residential, Commercial, Industrial Development

• International Indirect Land Use Change Analysis

• Direct Land Use Change Analysis

• Direct and Indirect Emissions Analysis

• Land Use Competition

• Distribution Systems

• End Users

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Pros and Cons Look at different types of biofuels productions. Identify the strong points and weaknesses of each process. Some questions to ask:

What is good about this process?

+ Is it sustainable?

+ Does it use high yield, low input crops?

+ Can it be used to sustainably produce the most efficient (i.e., powerful) liquid transportation fuels?

+ Is it easy to transport?

• Feedstocks to processing plant

• Final fuel product to consumers

What challenges are being

worked on to improve this process? For example: - How easily does the process fit into

existing agricultural processing systems?

- Can the product be transported to users in existing systems?

- Can existing refineries or moth-balled industrial facilities be retro-fitted for this new process?

- How efficient is the process

- Can feedstock be obtained at a fair price to the grower/producer?

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Advanced Biofuels

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They ARE Important! They Are Used for Many Things. They Are Made in Many Ways. We can buy some of them now.

OR, We Will Buy Them in the Future.

A Few Types of Jobs Available in Advanced Biofuels Production

• Biologists

• Biologists specializing in genetic research

• Biologists specializing in plant cells

• Chemists

• Chemical engineers

• Systems engineers

• Researchers into bioenergy crop development

• Agriculture/horticulture experts

• Farmers

• Farm workers

• Industrial engineers

• Industrial architects

• Construction workers, managers

• Truck drivers

• Plant operations managers

• Fueling station operators

• Freight railroad operators, engineers, loaders, unloaders

• Equipment operators, technicians

• Farm product purchasers/traders

• Agricultural and Forestry Supervisors

• Agricultural Inspectors

• Computer Software Engineers

• Refinery Equipment Manufacturers

• And many others

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Copyright 2010Advanced Biofuels USA

In depth analysis of our current fuel options shows that there must be a better way to achieve oil independence, to transform much of the US transportation fuels to sustainable, renewable power. Advanced biofuels is one part of the answer.

The Promise of Advanced Biofuels

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What’s so Advanced about Advanced Biofuels?

Copyright 2010Advanced Biofuels USA

Find out more: www.AdvancedBiofuelsUSA.org

For a Truly Sustainable, Renewable Future

Joanne M. Ivancic, Executive Director 301-644-1395

JIvancic@AdvancedBiofuelsUSA.org

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