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Treethanol

May 03, 2024

Treethanol is an ethanol fuel (more precisely cellulosic ethanol) made from trees.[1]

Summary edit

The biofuel is a contender in the race to find an energy alternative to fossil fuels. Proponents of Treethanol claim that its energy yield is higher compared to the energy required for production when compared with more common sources of ethanol i.e. sugar cane and corn.[2]

Production edit

Cellulosic ethanol is produced using the lignocellulose biomass that comprises much of the mass of plants.[3] Essentially at the core of the plant material is cellulose, which can be broken down into simple carbohydrate sugars. After these sugars have been extracted, they can be then be fermented into an alcohol, which is known as ethanol.[3] The most widely used and promising means of creating cellulosic ethanol is called the cellulolysis process. The process consists of hydrolysis on pretreated lignocellulosic materials. Then enzymes are used to break down cellulose into glucose. This glucose is then fermented and distilled.[2] The pretreatment step mentioned above is necessary when processing cellulosic ethanol because the glucose (sugars) are not readily accessible as they are with other ethanol sources such as corn or sugar cane. Rather, the cellulose in wood must be separated from the encapsulating hemicellulose and lignin.

There are three types of pretreatment: physical, chemical, and biological. Physical treatment involves physically reducing wood particle size. This can be accomplished through chipping, grinding, etc. Biological treatments involve the use of microorganisms to break down the wood. This type is considered favorable to physical pretreatments because it consumes far less energy in comparison, but the biological method has not proven to be scalable to an industrial level. The chemical method utilizes an alkaline or otherwise acidic medium to make the cellulose within wood fibers more accessible. This has shown to be the most efficient and has the lowest energy cost.[4]

Forest trees make up more than 90% of the total terrestrial biomass while performing functions such as carbon sequestration, producing oxygen, and promoting biodiversity. Trees are a promising source of ethanol because they grow all year round, require significantly less fertilizer and water and contain far more carbohydrates (the chemical precursors of ethanol) than food crops (like corn) do.[citation needed]

Sources edit

Poplar, Willow, and Eucalyptus tree are emerging as favorites in the process of creating Treethanol.[5] This is due to their ability to grow at a fast rate in many parts of the world.[6]

Applications edit

Treethanol is not an energy source that promises to power houses in the future, but rather it can be taken advantage of in applications where combustion engines are used. Approximately 85% of US energy consumption is produced from fossil fuels such as natural gas, coal, and oil. With China, India, and other rapidly developing nations increasing their demand for fossil fuels, the world’s total energy use is expected to grow by 57% over the next 20 years.[2] It is estimated that the U.S. alone uses 140 billion gallons of fuel per year for transportation alone.[7] Not only can Treethanol be mixed with ordinary fuels, it can also be burned directly in modified engines to greatly reduce greenhouse gas emissions.[2]

Advantages edit

Cellulosic ethanol is an environmentally friendly and renewable transportation fuel that can be produced from forest biomass. Trees are a particularly promising feedstock because they grow all year round, require vastly less fertiliser and water and contain far more carbohydrates (the chemical precursors of ethanol) than food crops do.[8] Also, compared to corn ethanol, cellulosic biofuel does not require the same quantity of fertilizers, pesticides, energy, or water to grow.[9] The most important attribute of this type of ethanol is, like all types of ethanol, it is renewable. If you want or need to make more of it, you just grow more trees.[1]

The development of all types of biofuel, including Treethanol can be of importance for countries looking to decrease their dependence on petroleum, especially those countries that import most of their petroleum and also have plenty of crop/forest land such as New Zealand and Sweden.[1][10]

An important issue is whether Treethanol is a superior alternative to more common forms of ethanol like corn based. The general consensus in an article by Hoover, F., & Abraham, J. (2009), is that most forms of cellulosic ethanol have the potential to yield higher energy outputs and be more sustainable than corn ethanol. They also note that while cellulosic ethanol does not necessarily yield more energy than say, corn based ethanol per unit of measurement, it requires far less energy inputs to produce which could give it a far higher net energy yield at the end of processing. The findings that lignocellulosic biomass has a far greater productivity yield than traditional biofuel sources is supported by Papini, A., & Simeone, M. (2010).

Responsible forestry practices do not contribute to greenhouse gases because the forest is allowed to regenerate following fiber harvesting. For this reason wood can be considered to be an essentially carbon-neutral source of energy.[citation needed]

Drawbacks edit

While it seems reasonable that Treethanol could be an alternative to current ethanol types, it has one flaw, which is the extra processing needed to break down the tough cellulose and hemicellulose within the walls of the cell to isolate the sugars.[1] As discussed above in the production section, creating ethanol from the lignocellulose found in tree biomass requires the extra step of “pre-treatment”. It is this pre-treatment that still requires too much energy to make the Treethanol worth the effort.

That being said, many believe that the potential pros far out-weigh the short-term cons.[1][2] The process of growing the tree biomass is energy efficient compared with growing corn or sugar cane for ethanol. However, it also takes longer to grow trees than to grow corn, and so any accurate research on sustainability and crop rotation (even for fast growing trees) requires a long time commitment, which up to now has been hard to find. It has been estimated that this process, including the building of processing plants and then refining of the growing and processing stage could take at least a decade.[11]

Another drawback to the processing of cellulosic ethanol is that there is little known about the waste/by products from the processing. Of particular concern to some is the biological method of pre-treatment. It is estimated that there is the possibility of producing almost as much (if not more) waste than usable ethanol, with waste products including mold, bacteria, yeast, biological toxins and allergens produced by these microorganisms, enzymes, and other chemicals.[12]

See also edit

References edit

  1. ^ a b c d e Bacon, Derek (2007-03-10). "Woodstock Revisited". The Economist. Retrieved 2013-01-29.
  2. ^ a b c d e Hoover, F; Abraham, J (2009). "A comparison of corn-based ethanol with cellulosic ethanol as replacements for petroleum-based fuels: a review". International Journal of Sustainable Energy. 28 (4): 171–182. doi:10.1080/14786450903056370. S2CID 111011441.
  3. ^ a b Biello, D (2011). "The False Promise of Biofuels". Scientific American. 305 (2): 58–65. Bibcode:2011SciAm.305a..58B. doi:10.1038/scientificamerican0811-58. PMID 21827126.
  4. ^ Gonzales, R; Treasure, T (2011). "Economics of Cellulosic Ethanol Production: Green Liquor Pretreatment for Softwood and Hardwood, Greenfield and Repurpose Scenarios". Bioresources. 6 (3): 2551–2567.
  5. ^ "Demonstration for Integrated Production of Bioethanol". Chemical Engineering. 119 (2): 9–11. 2012.
  6. ^ Papini, A.; Simeone, M (2010). "Forest resources for second-generation biofuel production". Scandinavian Journal of Forest Research. 25: 126–133. doi:10.1080/02827581.2010.485827. S2CID 86239790.
  7. ^ Weeks, Jennifer. "Not quite, but cellulosic ethanol may be coming sooner than you think". Grist. Retrieved 2013-01-29.
  8. ^ Bacon, Derek. "Woodstock revisited: Could new techniques for producing ethanol make old-fashioned trees the biofuel of the future?". Retrieved 30 March 2014.
  9. ^ "Ethanol". Texas State Energy Conservation Office. Retrieved 2013-01-28.
  10. ^ Sachs, Ignacy (2007). The Biofuels Controversy (PDF). United Nations Conference on Trade and Development November 2007. Retrieved 2013-01-28.
  11. ^ Lave, LB; Griffin, W (2006). "Import Ethanol, Not Oil". Issues in Science & Technology. 22 (3): 40–42.
  12. ^ Menetrez, MY (2010). "The Potential Environmental Impact of Waste from Cellulosic Ethanol Production". Journal of the Air & Waste Management Association. 60 (2): 171–182. doi:10.3155/1047-3289.60.2.245. PMID 20222538.

External links edit

  • Fast-growing trees could take root as future energy source:[1]
  • DOE Joint Genome Institute Announces 2008 Genome Sequencing Targets Eucalyptus to be sequenced as a candidate biomass energy crop by US DOE Joint Genome Institute

May 03, 2024
treethanol, ethanol, fuel, more, precisely, cellulosic, ethanol, made, from, trees, contents, summary, production, sources, applications, advantages, drawbacks, also, references, external, linkssummary, editthe, biofuel, contender, race, find, energy, alternat. Treethanol is an ethanol fuel more precisely cellulosic ethanol made from trees 1 Contents 1 Summary 2 Production 3 Sources 4 Applications 5 Advantages 6 Drawbacks 7 See also 8 References 9 External linksSummary editThe biofuel is a contender in the race to find an energy alternative to fossil fuels Proponents of Treethanol claim that its energy yield is higher compared to the energy required for production when compared with more common sources of ethanol i e sugar cane and corn 2 Production editCellulosic ethanol is produced using the lignocellulose biomass that comprises much of the mass of plants 3 Essentially at the core of the plant material is cellulose which can be broken down into simple carbohydrate sugars After these sugars have been extracted they can be then be fermented into an alcohol which is known as ethanol 3 The most widely used and promising means of creating cellulosic ethanol is called the cellulolysis process The process consists of hydrolysis on pretreated lignocellulosic materials Then enzymes are used to break down cellulose into glucose This glucose is then fermented and distilled 2 The pretreatment step mentioned above is necessary when processing cellulosic ethanol because the glucose sugars are not readily accessible as they are with other ethanol sources such as corn or sugar cane Rather the cellulose in wood must be separated from the encapsulating hemicellulose and lignin There are three types of pretreatment physical chemical and biological Physical treatment involves physically reducing wood particle size This can be accomplished through chipping grinding etc Biological treatments involve the use of microorganisms to break down the wood This type is considered favorable to physical pretreatments because it consumes far less energy in comparison but the biological method has not proven to be scalable to an industrial level The chemical method utilizes an alkaline or otherwise acidic medium to make the cellulose within wood fibers more accessible This has shown to be the most efficient and has the lowest energy cost 4 Forest trees make up more than 90 of the total terrestrial biomass while performing functions such as carbon sequestration producing oxygen and promoting biodiversity Trees are a promising source of ethanol because they grow all year round require significantly less fertilizer and water and contain far more carbohydrates the chemical precursors of ethanol than food crops like corn do citation needed Sources editPoplar Willow and Eucalyptus tree are emerging as favorites in the process of creating Treethanol 5 This is due to their ability to grow at a fast rate in many parts of the world 6 Applications editTreethanol is not an energy source that promises to power houses in the future but rather it can be taken advantage of in applications where combustion engines are used Approximately 85 of US energy consumption is produced from fossil fuels such as natural gas coal and oil With China India and other rapidly developing nations increasing their demand for fossil fuels the world s total energy use is expected to grow by 57 over the next 20 years 2 It is estimated that the U S alone uses 140 billion gallons of fuel per year for transportation alone 7 Not only can Treethanol be mixed with ordinary fuels it can also be burned directly in modified engines to greatly reduce greenhouse gas emissions 2 Advantages editCellulosic ethanol is an environmentally friendly and renewable transportation fuel that can be produced from forest biomass Trees are a particularly promising feedstock because they grow all year round require vastly less fertiliser and water and contain far more carbohydrates the chemical precursors of ethanol than food crops do 8 Also compared to corn ethanol cellulosic biofuel does not require the same quantity of fertilizers pesticides energy or water to grow 9 The most important attribute of this type of ethanol is like all types of ethanol it is renewable If you want or need to make more of it you just grow more trees 1 The development of all types of biofuel including Treethanol can be of importance for countries looking to decrease their dependence on petroleum especially those countries that import most of their petroleum and also have plenty of crop forest land such as New Zealand and Sweden 1 10 An important issue is whether Treethanol is a superior alternative to more common forms of ethanol like corn based The general consensus in an article by Hoover F amp Abraham J 2009 is that most forms of cellulosic ethanol have the potential to yield higher energy outputs and be more sustainable than corn ethanol They also note that while cellulosic ethanol does not necessarily yield more energy than say corn based ethanol per unit of measurement it requires far less energy inputs to produce which could give it a far higher net energy yield at the end of processing The findings that lignocellulosic biomass has a far greater productivity yield than traditional biofuel sources is supported by Papini A amp Simeone M 2010 Responsible forestry practices do not contribute to greenhouse gases because the forest is allowed to regenerate following fiber harvesting For this reason wood can be considered to be an essentially carbon neutral source of energy citation needed Drawbacks editWhile it seems reasonable that Treethanol could be an alternative to current ethanol types it has one flaw which is the extra processing needed to break down the tough cellulose and hemicellulose within the walls of the cell to isolate the sugars 1 As discussed above in the production section creating ethanol from the lignocellulose found in tree biomass requires the extra step of pre treatment It is this pre treatment that still requires too much energy to make the Treethanol worth the effort That being said many believe that the potential pros far out weigh the short term cons 1 2 The process of growing the tree biomass is energy efficient compared with growing corn or sugar cane for ethanol However it also takes longer to grow trees than to grow corn and so any accurate research on sustainability and crop rotation even for fast growing trees requires a long time commitment which up to now has been hard to find It has been estimated that this process including the building of processing plants and then refining of the growing and processing stage could take at least a decade 11 Another drawback to the processing of cellulosic ethanol is that there is little known about the waste by products from the processing Of particular concern to some is the biological method of pre treatment It is estimated that there is the possibility of producing almost as much if not more waste than usable ethanol with waste products including mold bacteria yeast biological toxins and allergens produced by these microorganisms enzymes and other chemicals 12 See also edit nbsp Environment portal nbsp Ecology portal Ecology Environmental protection Habitat conservation Natural resource Renewable resource SustainabilityReferences edit a b c d e Bacon Derek 2007 03 10 Woodstock Revisited The Economist Retrieved 2013 01 29 a b c d e Hoover F Abraham J 2009 A comparison of corn based ethanol with cellulosic ethanol as replacements for petroleum based fuels a review International Journal of Sustainable Energy 28 4 171 182 doi 10 1080 14786450903056370 S2CID 111011441 a b Biello D 2011 The False Promise of Biofuels Scientific American 305 2 58 65 Bibcode 2011SciAm 305a 58B doi 10 1038 scientificamerican0811 58 PMID 21827126 Gonzales R Treasure T 2011 Economics of Cellulosic Ethanol Production Green Liquor Pretreatment for Softwood and Hardwood Greenfield and Repurpose Scenarios Bioresources 6 3 2551 2567 Demonstration for Integrated Production of Bioethanol Chemical Engineering 119 2 9 11 2012 Papini A Simeone M 2010 Forest resources for second generation biofuel production Scandinavian Journal of Forest Research 25 126 133 doi 10 1080 02827581 2010 485827 S2CID 86239790 Weeks Jennifer Not quite but cellulosic ethanol may be coming sooner than you think Grist Retrieved 2013 01 29 Bacon Derek Woodstock revisited Could new techniques for producing ethanol make old fashioned trees the biofuel of the future Retrieved 30 March 2014 Ethanol Texas State Energy Conservation Office Retrieved 2013 01 28 Sachs Ignacy 2007 The Biofuels Controversy PDF United Nations Conference on Trade and Development November 2007 Retrieved 2013 01 28 Lave LB Griffin W 2006 Import Ethanol Not Oil Issues in Science amp Technology 22 3 40 42 Menetrez MY 2010 The Potential Environmental Impact of Waste from Cellulosic Ethanol Production Journal of the Air amp Waste Management Association 60 2 171 182 doi 10 3155 1047 3289 60 2 245 PMID 20222538 External links editFast growing trees could take root as future energy source 1 The Poplar Tree Advancing Alternative Energy Sources DOE Joint Genome Institute Announces 2008 Genome Sequencing Targets Eucalyptus to be sequenced as a candidate biomass energy crop by US DOE Joint Genome Institute Retrieved from https en wikipedia org w index php title Treethanol amp oldid 1170975170, wikipedia, wiki, book, books, library,

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