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Wood Pellet Information

Wood pellets are a type of wood fuel, generally made from compacted sawdust or other wastes from sawmilling and other wood products manufacture,[1] but also sometimes from sources such as whole-tree removal or tree tops and branches leftover after logging and which otherwise help replenish soil nutrients. Pellets are manufactured in several types and grades as fuels for electric power plants, homes, and other applications in between.[2] Pellets are extremely dense and can be produced with a low moisture content (below 10%) that allows them to be burned with a very high combustion efficiency.[3]

Further, their regular geometry and small size allow automatic feeding with very fine calibration. They can be fed to a burner by auger feeding or by pneumatic conveying.

A broad range of pellet stoves, central heating furnaces, and other heating appliances have been developed and marketed since 1999. With the surge in the price of fossil fuels in 2005, the demand for pellet heating has increased in Europe and North America, and a sizable industry is emerging.

Contents

Production

Pellets are produced by compressing the wood material which has first passed through a hammer mill to provide a uniform dough-like mass. This mass is fed to a press where it is squeezed through a die having holes of the size required (normally 6 mm diameter, sometimes 8 mm or larger). The high pressure of the press causes the temperature of the wood to increase greatly, and the lignin plastifies slightly forming a natural "glue" that holds the pellet together as it cools.[3] A report to the Massachusetts Department of Energy Resources estimates the energy required to manufacture and transport pellets is less than 2% of the energy content of the pellets.[3]

Pellets conforming to the norms commonly used in Europe (DIN 51731 or Ö-Norm M-7135) have less than 10% water content, are uniform in density (higher than 1 ton per cubic meter, thus it sinks in water)(bulk density about 0.6-0.7 ton per cubic meter), have good structural strength, and low dust and ash content. Prices for US pellets surged during the fossil fuel price inflation of 2007–2008, but subsequently have decreased significantly in late 2008 and early 2009, and are generally lower on a per-BTU basis than most fossil fuels, excluding coal,

Energy output and efficiency

Wood-pellet heater

The energy content of wood pellets is approximately 4.7 – 4.9 MWh/tonne[4] (~7450 BTU/lb).

High-efficiency wood pellet stoves and boilers have been developed in recent years, offering combustion efficiencies of over 90%.

Air pollution emissions

Emissions such as NOx, SOx and volatile organic compounds from pellet burning equipment are in general very low in comparison to other forms of combustion heating. An additional consideration, though, is such air pollutant emissions caused in producing the energy used to manufacture pellets. A recognized problem is the emission of fine (particulate matter) to the air, especially in urban areas that have a high concentration of pellet heating systems or coal or oil heating systems in close proximity. This PM2.5 emissions of older pellet stoves and boilers can be problematic in close quarters, especially in comparison to natural gas (or renewable biogas), though on large installations electrostatic precipitators or baghouse particle filters may reduce the problem if installed and properly maintained and operated. Research is particularly needed concerning the health effects of ultrafine particles produced by the high burn temperatures of wood pellets.[5] These nano-scale particles are substantially smaller than PM2.5, and can penetrate into the smallest passages of the lungs and in some cases directly into the bloodstream.[5] They have unique physical and chemical properties because of their extremely high surface area per unit of mass, an inherent consequence of their nano-scale size. Even a very small mass of such particles constitutes a very large number of them.[5]

Pellet stove operation

A fully automated stove requires filling up with the pellets and turning on, the stove does the rest: it automatically lights, automatically feeds the pellets into the flame with an auger, automatically adjusts the rate to keep the room at a pre-set temperature with an electric thermostat.

Controversy over the contribution of wood pellets to global warming

There is controversy over whether and to what degree making heat or electricity by burning wood pellets contributes to global climate change, as well as how the impact on climate compares to the impact of using competing sources of heat.[3][6][7][8]

Factors in the controversy include the wood source, carbon dioxide emissions from production and transport as well as from final combustion, and what time scale is appropriate for the consideration.[3][6][9][10]

Central to the on-going controversy throughout the United States, but specific to circumstances in Massachusetts, is a report[3] by the Manomet Center for Conservation Sciences,[11] "Biomass Sustainability and Carbon Policy Study," issued in June 2010. It was commissioned by the Massachusetts Department of Energy Resources,[12] and concludes that burning wood pellets or wood chips releases a large amount of CO2 into the air, creating a "carbon debt" that is not retired for many decades and in some cases more than a century.[3] In June 2011 the department was preparing to file its final regulation, expecting to significantly tighten controls on the use of biomass for energy, including wood pellets.[13] Biomass energy proponents have disputed the Manomet report's conclusions,[14][15] and scientists have pointed out oversights in the report, suggesting that climate impacts are worse than reported.[6][16]

Until ca. 2008 it was commonly assumed, even in scientific papers, that biomass energy (including from wood pellets) is carbon neutral, largely because regrowth of vegetation was believed to recapture and store the carbon that is emitted to the air.[17] Then, scientific papers began to appear which took at the climate implications of biomass and refuted the simplistic assumption of its carbon neutrality.[3][9][10][18]

In 2011 twelve prominent U.S. environmental organizations adopted policy setting a high bar for the use of biomass energy, including wood pellets. It states in part that, "[b]iomass sources and facilities qualifying for (government) incentives must result in lower life-cycle, cumulative and net GHG and ocean acidifying emissions, within 20 years and also over the longer term, than the energy sources they replace or compete with."[19]

Are wood pellets a sustainable product?

The wood products industry is concerned that if large-scale use of wood energy is instituted, the supply of raw materials for construction and manufacturing will be significantly curtailed.[3][20] forests will no longer be able to be Ecological sustainability of large-scale use of wood energy has also been a topic of concern from divergent points of view.[3][21][22][23]

Cost issues

Due to the rapid increase in popularity since 2005, pellet availability and cost may be an issue. However, current pellet production is increasing and there are plans to bring several new pellet mills online in the US in 2008–2009.

Usage by region

Europe

Pellet Use (ton)[24]
Country 2006
Sweden 1 400 000
Italy 550 000
Germany 450 000
Austria 400 000
Denmark* n. 400 000
Finland* n. 50 000
*Households 2005.[25]

Pellets are most widely used in Sweden, mainly as an alternative to oil-fired central heating. In Austria, the leading market for pellet central heating furnaces (relative to its population), it is estimated that 2/3 of all new domestic heating furnaces are pellet burners. In Italy, a large market for automatically fed pellet stoves has developed.

New Zealand

The total sales of wood pellets in New Zealand was 3–5,000 tonnes in 2003. Recent construction of new wood pellet plants has given a huge increase in production capacity.[26]

United States

Some companies import European-made boilers.

Retail cost

United States

In 2008, the cost for heating with pellets was $19.59 per million BTU.[27] This corresponds to a price of $5.14 per 40 pound bag, or $257 per ton.

Europe

In 2009, the cost of woodpellets was 4 eurocent per kWh or 16 $ per million BTU.[28] Retail prices depend on the size and specifications of the order (bulk, big bag, 15 kg sacks,...).

See also

References

  1. ^ "What are pellets". Pellet Fuels Institute. http://pelletheat.org/pellets/what-are-pellets/. Retrieved 7 November 2011.
  2. ^ European Pellet Standards. Powerpoint
  3. ^ a b c d e f g h i j Manomet Center for Conservation Science. 2010. Biomass sustainability and Carbon Policy Study: Report to the Commonwealth of Massachusetts Department of Energy Resources.[1]
  4. ^ http://www.biomassenergycentre.org.uk/portal/page?_pageid=75,59188&_dad=portal&_schema=PORTAL
  5. ^ a b c Howard, V. (2009). "Statement of Evidence: Particulate Emissions and Health (An Bord Plenala, on Proposed Ringaskiddy Waste-to-Energy Facility)." [2] Retrieved 2011-04-26.
  6. ^ a b c Booth M (2010). Review of the Manomet Biomass Sustainability and Carbon Policy Study. Report for the Clean Air Task Force. [3]
  7. ^ Lippke, . et al. 2011. Life cycle impacts of forest management and wood utilization on carbon mitigation: knowns and unknowns. [4]
  8. ^ McDermott, Matthew (2009-04-14). "Biomass Can Only Offer Major Emission Reductions if Best Practices Are Followed, New UK Report Says". Treehugger.com. http://www.treehugger.com/files/2009/04/biomass-can-only-offer-major-emission-reductions-if-best-practices-followed.php. Retrieved 2009-05-16.
  9. ^ a b Searchinger, T.; Hamburg, S.; Melillo, J.; Chameides, W,; Havlik, P.; Kammen, D.; Likens, G; Lubowski, R.; Obersteiner, M.; Oppenheimer, M.; Philip, R.G.; Schlesinger, W.;, Ti, D. (2009). Fixing a Critical Climate Accounting Error. Science (326:5952, p.527-528). [5]
  10. ^ a b Johnson, E. (2009). Goodbye to carbon neutral: Getting biomass footprints right. Environmental Impact Assessment Review (29:3, p.165-168). [6]
  11. ^ URL for the Manoment Center for Conservation Science: [7]
  12. ^ Mass. Dept. of Energy Resources (DOER) website. [8]
  13. ^ Mass. DOER webpage on biomass
  14. ^ http://www.futuremetrics.net/papers/Manomet%20Got%20it%20Backwards.pdf
  15. ^ http://www.futuremetrics.net/papers/Response%20to%20Manomet%20Comments.pdf
  16. ^ Moomaw, W. 2011. Should we get our electricity by burning trees? Presentation at Williams College. [9]
  17. ^ http://www.dovetailinc.org/files/DovetailLCABioenergy0711.pdf
  18. ^ Magelli, F.; Boucher, K.; Bi, H.; Melin, S.; Bonoli, A. (2009). An environmental impact assessment of exported wood pellets from Canada to Europe. Biomass and Bioenergy (33:3, p.434-441). [10]
  19. ^ Principles of Sustainable Biomass; policy of 12 large U.S. environmental oranizations. [11], retrieved from The Wilderness Society website, 27 August 2011.
  20. ^ Large-scale biomass ‘risks UK jobs and carbon emissions.’ Carbon Offsets Daily, 2 July 2010. [12]
  21. ^ http://www.futuremetrics.net/HeatNE%20Vision%20Master%20FINAL%204%2025%2010.pdf
  22. ^ Forest Guild. 2010. Forest Biomass Retention and Harvesting Guidelines for the Northeast. [13]
  23. ^ Massachusetts Forest Watch
  24. ^ Bioenergie: Großes Potenzial für Pellets-Märkte in Europa und weltweit 9.7.2007 Solarserver.de
  25. ^ Pellets for small-scale domestic heating systems 5/2007, European Biomass Association Aebiom (Resmac project)
  26. ^ Nielsen, S; George A. Estcourt and Carolyn J. Hodgson (October 2004). "New Bioenergy options for New Zealand – an evaluation of wood pellet opportunities". Forest Research. http://www.eeca.govt.nz/eeca-library/renewable-energy/bioenergy/report/new-bioenergy-options-for-nz-04.pdf. Retrieved 2008-10-17.
  27. ^ Ryan, Matt (June 20, 2008). Homeowners seek cheaper winter heat. Burlington Free Press.
  28. ^ http://www.pelletinfo.net

External links

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Non-food energy crops Arundo · Big bluestem · Camelina · Chinese tallow · Duckweed · Jatropha curcas · Millettia pinnata · Miscanthus giganteus · Switchgrass · Wood fuel
Technology Bioconversion · Biomass heating systems · Biorefinery · Fischer-Tropsch process · Industrial biotechnology · Pellet mill · Pellet stove · Thermal depolymerization
Concepts Cellulosic ethanol commercialization · Energy content of biofuel · Energy crop · Energy forestry · EROEI · Food vs. fuel · Sustainable biofuel

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