Wood

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Bioenergy > Biofuel > Solid biofuels > Wood

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Wood (also known as woody biomass) is a traditional solid biofuel. It has been used for heating and cooking for thousands of years. With the advent of cellulosic ethanol technologies, wood also has the potential to be an ethanol feedstock. Wood can also be used as a feedstock for biorefineries, which can produce a wide variety of chemicals, fuels and other materials.

Contents 1 Types of Wood Biofuels 2 Other products 3 Events 4 News 5 Resources 6 Organizations

Types of Wood Biofuels

• Wood
  • Firewood - probably the simplest use of wood as a bioenergy source. Firewood is a cheap and abundant source of energy used all over the world as a primary source of energy for cooking and heating.
  • Wood chips
  • Wood energy
  • Wood fuels/woodfuel
  • Wood gas
  • Wood heating
  • Wood pellets
  • Wood pulp
  • Wood residues/Wood waste - Forest thinnings/Tree thinnings
• Charcoal (agrichar, biochar)
• Trees
  • Genetically modified trees
  • Trees for biomass energy (including cellulosic ethanol production): hazelnut, poplar (aspen, cottonwood), willow

Other products

• Wood can be used as a feedstock for biorefineries, production facilities that can produce chemicals and other products, in addition to bioethanol.

Events

2011

• 14-16 March 2011, Atlanta, Georgia, USA: BioPro Expo 2011. (Themes: biomass, biorefineries, markets, technology, waste, wood)

• 24-27 March 2011, Besançon, France: Salon Bois Energie 2011. (Themes: biomass, forests, pellets, wood)

2010

• 24-26 August 2010, Atlanta, Georgia, USA: BioPro Expo 2010. (Themes: agriculture, biomass, farm, food processing residue, forest, municipal solid waste, wood waste)

• 31 August-4 September 2010, Tampere and Jämsä, Finland: Forest Bioenergy. (Themes: combined heat and power, cogeneration, wood)

See the archive of past wood-related events.

News

2010

• Alaska Airlines, Boeing, & Airports Partner on Biofuels, 14 July 2010 by Bill DiBenedetto: "Their endeavor, called the “Sustainable Aviation Fuel Northwest” project, is the first regional assessment of its kind in the U.S., according to a joint announcement from the group this week."
  • "The assessment will examine all phases of developing a sustainable biofuel industry, including biomass production and harvest, refining, transport infrastructure and actual use by airlines. It will include an analysis of potential biomass sources that are indigenous to the Pacific Northwest, including algae, agriculturally based oilseeds such as camelina, wood byproducts and others. The project is jointly funded by the participating parties and is expected to be completed in about six months."
  • "Boeing Commercial Airplanes CEO Jim Albaugh added, 'Developing a sustainable aviation fuel supply now is a top priority both to ensure continued economic growth and prosperity at regional levels and to support the broader aim of achieving carbon-neutral growth across the industry by 2020.'"
  • "The assessment process will be managed by Climate Solutions, an Olympia, WA, environmental nonprofit organization, which will align the effort to sustainability criteria developed by the Roundtable on Sustainable Biofuels. The project’s objective is to identify potential pathways and necessary actions to make aviation biofuel commercially available to airline operators serving the region."[1]

• New Rules May Cloud the Outlook for Biomass, 9 July 2010 by New York Times: "An energy technology that has long been viewed as a clean and climate-friendly alternative to fossil fuels is facing tough new regulatory hurdles that could ultimately hamper its ability to compete with renewable power sources like wind and solar."
  • "[A] long-simmering debate in Massachusetts questioning the environmental benefits of biomass has culminated in new rules that will limit what sorts of projects will qualify for renewable energy incentives there....The new proposals would, among other things, require the projects to provide 'significant near-term greenhouse gas dividends.'"[2]

• The Rainforest Alliance Releases New Verification Mark to Recognize Achievements in Sustainability, 23 June 2010 by Environmental News Network: "The Rainforest Alliance today released its new verification mark to recognize businesses and projects that have achieved significant and measurable sustainability milestones. The new mark is awarded to forest carbon projects and tourism and certain forestry enterprises that meet standards developed by the Rainforest Alliance itself or by other organizations with which the Rainforest Alliance is aligned."
  • A key issue is "verification of the legality of wood sources, which is particularly important since illegal logging throughout the world continues to undermine efforts to promote social equity, environmental conservation and sustainable economic growth in many nations."[3]

• Study Finds Opportunities for Policymakers to Protect Nation's Forests While Meeting Renewable Energy Needs, 22 June 2010 by Pinchot Institute for Conservation and the H. John Heinz III Center for Science, Economics and the Environment: "Policy goals for renewable biofuels and bioenergy could be achieved, but U.S. policymakers must take steps to protect the sustainability of the nation’s forests in the face of these increased demands..."
  • "Two major national priorities— achieving greater energy security through increased domestic energy production and mitigating climate change —have converged to create rapidly expanding demands on U.S. forests for wood-based bioenergy. To protect our forests, careful consideration and forethought is needed, however, to ensure that the increases in wood harvesting do not lead to unintended consequences for biological diversity, water quality, and other forest ecosystem values."
  • "The report concludes that with planning and foresight, the U.S. can meet both important policy goals of expanding the use of renewable energy and ensuring the sustainable use of the nation’s sustainable forest resources."[4]
    • Download the full report: Forest Sustainability in the Development of Wood Bioenergy in the U.S.

• Net Benefits of Biomass Power Under Scrutiny, 18 June 2010 by Tom Zeller Jr. from The New York Times: "Matthew Wolfe, an energy developer with plans to turn tree branches and other woody debris into electric power, sees himself as a positive force in the effort to wean his state off of planet-warming fossil fuels."
  • "[P]ower generated by burning wood, plants and other organic material, which makes up 50 percent of all renewable energy produced in the United States, according to federal statistics, is facing increased scrutiny and opposition."
  • "Biomass proponents say it is a simple and proved renewable technology based on natural cycles. They acknowledge that burning wood and other organic matter releases carbon dioxide into the atmosphere just as coal does, but point out that trees and plants also absorb the gas. If done carefully, and without overharvesting, they say, the damage to the climate can be offset."
  • "But opponents say achieving that sort of balance is almost impossible, and carbon-absorbing forests will ultimately be destroyed to feed a voracious biomass industry fueled inappropriately by clean-energy subsidies. They also argue that, like any incinerating operation, biomass plants generate all sorts of other pollution, including particulate matter. State and federal regulators are now puzzling over these arguments."[5]

• New Federal Policies Needed to Jump-Start Clean Advanced Biofuels Industry, 14 June 2010 by The Union of Concerned Scientists: "The federal government needs to adopt a suite of new policies to spur production in the stalled advanced biofuels industry, according to a report, The Billion Gallon Challenge, released today by the Union of Concerned Scientists (UCS).
  • "Advanced cellulosic biofuels – made from grasses, woodchips, wastes and other non-food sources – release dramatically less pollution than gasoline or corn ethanol. Reforming production tax credits for biofuels and providing new loan guarantees, investment tax credits and other financial incentives would spark investment in cellulosic biofuels, cut oil consumption, reduce global warming pollution, and ultimately save taxpayers money, the report found."
  • "Currently, cellulosic biofuels are falling far short of the mandated levels. In 2010, the standard requires fuel suppliers, largely oil companies, to purchase 100 million gallons of cellulosic biofuel, but the Environmental Protection Agency (EPA) had to lower this target to just 6.5 million gallons due to a lack of supply."[6]
    • The Billion Gallon Challenge

• Mass. study: Wood power worse polluter than coal, 10 June 2010 by Associated Press: "A new study has found that wood-burning power plants using trees and other 'biomass' from New England forests releases more greenhouse gases into the atmosphere than coal over time."
  • "The report, conducted by the Manomet Center for Conservation Sciences, concludes that the net cumulative emissions of greenhouse gases from replacing coal-fired plants with biomass would be 3 percent greater by 2050 than from using coal to generate electricity."
  • "Researchers arrived at the figure by comparing how much carbon is emitted into the atmosphere through the burning of wood — what they termed 'carbon debt' — with the amount of carbon removed from the atmosphere from the regrowth of forests, or 'carbon dividends.'"
  • "The study has broad policy implications for states like Massachusetts. And environmental groups called the study 'a wake up call.'"[7]

• Forest Guild Releases Forest Biomass Retention and Harvesting Guidelines for the Northeast, 2 June 2010 by Forest Guild: "The Forest Guild’s new Forest Biomass Retention and Harvesting Guidelines for the Northeast address questions of forest sustainability in a time of increasing interest in harvesting forest biomass for energy security, climate mitigation, and economic reasons."
  • The guidelines "are intended to augment and enhance existing Best Management Practices (BMPs) or new state-based biomass guidelines".[8]
  • Download the document, Forest Biomass Retention and Harvesting Guidelines for the Northeast (PDF file)

• PSC Approves Biomass Plant for Gainesville, 27 May 2010 by Gainesville Regional Utilities: "Plans to bring biomass energy to Gainesville took another step forward today. Commissioners from Florida’s Public Service Commission (PSC) approved GRU and American Renewables’ joint petition for the Gainesville Renewable Energy Center, a planned 100-megawatt biomass plant."
  • "Under terms of the 30-year energy contract, American Renewables will build, own and operate the biomass facility. GRU will purchase and own 100 percent of the energy produced. The plant will be fueled by a plentiful, local supply of leftover clean woody waste using urban wood waste, wood processing wastes and logging residues."[9]

• Garden Furniture Scorecard: Sustainable Buys Are Widely Available (PDF file), 25 May 2010 press release by the National Wildlife Federation: "To ensure responsible consumers can keep buying green, National Wildlife Federation has released its fourth annual garden furniture scorecard, a buyer’s guide to products that come from well managed tropical forests."
  • "National Wildlife Federation supports the Forest Stewardship Council (FSC) certification system, which offers the most rigorous system for distinguishing sustainable wood products."[10]
  • Download the Garden Furniture Scorecard 2010 (PDF file).

• Biomass Energy Juggernaut Threatens Human and Forest Health, 20 May 2010 blog post by George Wuerthner on NewWest.net: "The long awaited Kerry-Lieberman energy bill known as The America Power Act has, among other goodies for industry, a clause that legally defines biomass incineration as 'carbon-neutral' and 'renewable.'"
  • This "poses a real threat to our forest ecosystem, human health, and global planetary climate."
  • "Since many government entities from local cities to states now require renewable energy as part of their energy portfolios, defining wood energy as a renewable energy creates a direct economic windfall profit for the timber industry."
  • "Because of its low energy content, burning wood releases 1.5 times smokestack CO2 than burning coal to produce the same amount of energy." Also, "recent research suggests that logging disturbance of forest soils can increase carbon losses as well."[11]

• New publication explains how Europe can harvest more wood to reach its sustainable energy goals by 2020, 18 May 2010 by UNECE: "According to a new publication, if Europe is to achieve its renewable energy objective of 20% by 2020, it must step up the supply of wood from its sustainably managed forests."
  • "The publication, Good Practice Guidance on the Sustainable Mobilization of Wood in Europe [PDF file], gives an overview of measures that countries can take to mobilize their wood resources."
  • "Good Practice Guidance sets out general principles to be applied in wood mobilization, such as avoiding the loss of biodiversity and ecosystem services, and making a maximum amount of market information available to all the stakeholders."
  • "'We hope that this publication will illustrate the enormous potential that wood has for a sustainable energy future,' said Paola Deda, head of the UNECE/FAO Forestry and Timber Section. 'In the European Union today, over 50% of renewable energy sources come from wood'."
  • "In the 56-country UNECE region, industry and Governments are already acting to mobilize wood sustainably.'"
  • "According to Ms. Deda, 'the publication will particularly contribute to implementing the resolution on "Forests, wood and energy", which was adopted in 2007 by the Ministerial Conference on the Protection of Forests in Europe....It also contributes to the objective of the EU Forest Action Plan to promote the use of forest biomass for energy generation'."[12]

• Maryland researchers turn poplar trees into biofuel, 3 May 2010 by the Baltimore Sun: "Fuel derived from the hardy, fast-growing common poplar could eventually replace some of the billions of gallons of petroleum-based fuel now pumped a year," according to University of Maryland "biologist Gary Coleman and engineer Ganesh Sriram, who have partnered to help turn the woody plant into a widely used biofuel."
  • "Globally, other crops such as sugar are used to make biofuel. And more, including willow trees, algae and switchgrass, are in the race with poplars to become the next viable crop. But the government and scientists see poplars as having an edge because they naturally grow to about 70 feet in five or six years and grow just about anywhere."
  • "Poplars would use up land...but not as much as corn and not in place of food crops, said Sriram, a professor of chemical and biomolecular engineering".[13]

• Path to Sustainable Bioenergy in United States Will Require a New Roadmap, 30 March 2010, by Jordan Lubetkin at NWF: "The vast potential of plant-based energy sources to create jobs, curb global warming and protect wildlife could be a reality in the United States—but not without changes in federal policies that have created an unsustainable first generation of biofuels, according to a new report released today by the National Wildlife Federation."
  • "The report sets out several visions for what a sustainable bioenergy future might look like, highlighting successful biomass businesses that are producing energy for schools, colleges, hospitals, and prisons using native grasses, wood waste, and even forest debris from Hurricane Rita."
  • "Biomass already produces 15 times more renewable energy for the United States than wind and solar combined -- mostly from wood waste used at paper mills. It holds the promise for creating heat, electricity and fuel from a variety of sources."[14]
    • Read the full report: Growing a Green Energy Future: A Primer and Vision for Sustainable Biomass Energy (PDF)

• Nation's Forests Can Meet Demands for Energy, Bioproducts and Traditional Uses, 12 March 2010 blog post by 25x’25: "25x’25 has created a Wood-to-Energy Work Group that is bringing together major forestry, conservation and industry stakeholders in a series of roundtable discussions around current and future uses of wood. The goal of these discussions is the development of consensus recommendations on how best to increase and expand the role and contribution of the nation’s private and public forest lands to national energy needs while continuing to provide wood for traditional uses."
  • "[A] significant finding was that without major change in public land management policy, public lands will likely not contribute in any significant way as a source of supply for traditional wood product or biomass for energy. This shortfall in supply potential is particularly unfortunate given the potential gains in forest health, fire reduction and productivity on the public lands and the economic benefits to rural communities that could result from the wider use of their resources."
  • "[T]he participants agreed that if woody biomass is to contribute more to the nation’s energy future while also supplying all traditional uses, there must be more investment and expansion of short rotation woody crop production on marginal crop and pasture lands, including the use of genetically improved trees."[15]

• Boat-Eating Bug May Hold Key for Future of Biofuels, 9 March 2010 by Gas2.0: "New research out of the University of York in Britain is unraveling some mysteries of the common wood-eating gribble that could provide the key to cheaply turning abundant wood and straw fiber into biofuel."
  • "For centuries the gribble has been known to the seafaring world mainly for eating holes in their ships, docks and piers — causing untold amounts of damage. But the bug’s uncanny knack for digesting raw wood holds the promise of enzymes that can, by themselves, turn wood and straw fibers into sugars, which can then be easily turned into ethanol through simple fermentation."
  • The "gut of the gribble plays host to some pretty amazing enzymes the creature produces all on its own that accomplish the same things that plasma gasification or toxic chemicals can — but without all the fuss."[16]
  • See the research paper, Molecular insight into lignocellulose digestion by a marine isopod in the absence of gut microbes from the Proceedings of the National Academy of Sciences.

• USDA Announces a Guaranteed Loan to a Biorefinery to Produce Renewable Energy, 3 March 2010 by the USDA newsroom: "The U.S. Department of Agriculture today announced that Range Fuels, Inc., a Colorado based firm with a planned biorefinery located near Soperton, Ga., is the recipient of a loan guaranteed by USDA Rural Development to make cellulosic biofuel from wood chips."
  • "This project is expected to provide biorefinery jobs, construction jobs and support the timber industry."
  • "When fully operational, the plant is expected to produce an estimated 20 million gallons of cellulosic ethanol per year."[17]

• Smoke from home fuels tied to emphysema, 25 February 2010 by Reuters: "People who burn wood or other biofuels for heat or cooking may have a heightened risk of emphysema and related lung conditions, a new study suggests."
  • "Biomass refers to biological materials that can be burned for energy, including wood, crops and animal dung. They are major sources of energy in the developing world, and are thought to be used for cooking and heating in half of homes worldwide."
  • "These latest findings strengthen the evidence that exposure to biomass smoke is a risk factor for [chronic obstructive pulmonary disease (COPD)]".[18]

• (U.K.'s largest power station) Drax suspends plan to replace coal with greener fuel, 19 February 2010 by Times Online: "Britain’s biggest power station has suspended its plan to replace coal with greener fuel, leaving the Government little chance of meeting its target for renewable energy."
  • "The power station, which is the country’s largest single source of CO2, has invested £80 million in a processing unit for wood, straw and other plant-based fuels, known as biomass."
  • "Drax is also one of dozens of companies delaying investments in new biomass power stations because of uncertainty over the Government’s policy on long-term subsidies. Hundreds of farmers growing biomass crops may now struggle to sell their produce."[19]

• Rentech & ClearFuels Bio-Refinery Awarded US $23M from DOE, 26 January 2010 by Renewable Energy World: "Rentech Inc. and ClearFuels Technology Inc. on Monday announced today that their project to construct a biomass gasifier at Rentech's Energy Technology Center (RETC) in Denver, Colorado has been awarded a conditional US $22.6 million grant from the U.S. Department of Energy (DOE)."
  • "The system is designed to produce synthesis gas from various wood waste and sugar cane bagasse feedstocks."[20]

• Madagascar’s Political Chaos Threatens Conservation Gains, 4 January 2010 by Yale Environment 360: "Since the government's collapse after a coup last March, Madagascar's rainforests have been plundered for their precious wood and unique wildlife. But now there are a few encouraging signs, as officials promise a crackdown on illegal logging and ecotourists begin to return to the island."
  • "Madagascar will need more than admonishments from rich countries and stricter enforcement of trade regulations to restore its once-admired protected areas management system. It needs international support and domestic political will to ensure a future for ecotourism and its spectacular wildlife."

See the archive of past wood-related news.

Resources

• The upfront carbon debt of bioenergy (PDF) by Joanneum Research, May 2010. When a raw material such as wood is burned, "the time needed to re-absorb the CO2 emitted in the atmosphere can be long, depending very much on the source of wood. This delay can create an upfront “carbon debt” that would substantially reduce the capability of bioenergy to reduce the greenhouse gas emissions (GHG) in the atmosphere in the short to medium term."

• Wood 2 Energy: A State of the Science and Technology Report (PDF) by Samuel W. Jackson et al., May 2010. "[The] objectives included providing a complete literature review on the state of the science and developing a database of wood to energy related industries in the US and Canada. These industries include major forest product industries that produce residues, users of residues for energy (boilers, ethanol, etc), and related industries."

• Forest Management Solutions for Mitigating Climate Change in the United States. (2009, Society of American Foresters, Bethesda, Maryland, USA). PDF copy of the Malmsheimer et al. publication (ISBN: 978-0-939970-96-4).
  • Includes chapters on "Preventing GHG Emissions Through Wood Substitution" and "Preventing GHG Emissions Through Wildfire Behavior Modification" in the United States.

Organizations

• Get Beyond Firewood
  • The Women's Commission for Refugee Women and Children has taken the lead in finding alternative energy solutions so that women and children do not have to face the dangerous task and consequences of collecting firewood for household use.

	Wood	edit
Charcoal | Firewood | Woodgas | Wood pellets Sustainability: Forest Stewardship Council

	Household energy	edit
Household energy use: Biomass (Dung, Wood)

	Bioenergy feedstocks	edit
Biodiesel feedstocks: Currently in use: Animal fat | Castor beans | Coconut oil | Jatropha | Jojoba | Karanj | Palm oil | Rapeseed | Soybeans | Sunflower seed | Waste Vegetable Oil (WVO) Currently in research and development: Algae | Halophytes (Salt-tolerant plants) Ethanol feedstocks: First-generation: Cassava | Corn | Milo | Nypa palm | Sorghum | Sugar beets | Sugar cane | Sugar palm |Sweet potato | Waste citrus peels | Wheat | Whey Second-generation: For cellulosic technology - Grasses: Miscanthus, Prairie grasses, Switchgrass | Trees: Hybrid poplar, Mesquite, Willow Charcoal feedstocks: Bamboo | Wood Waste-to-energy (MSW)

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