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Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process

Year 2013, Volume: 3 Issue: 2, 255 - 260, 01.06.2013

Abstract

An advanced solid bio-fuel along with a suitable process for its production at industrial scale was developed and analyzed. This new product, similar in the shape to woody pellet, can be obtained not only by wood or woody material but also by uncontaminated agro-industrial vegetable wastes. It is characterized by high density, low mixture content, and good calorific value. All these desirable properties were obtained by compressing and heating the raw materials, previously chopped and mixed, at temperature significantly higher than that used for drying but smaller than that used for the pyrolysis of woody material. The compression and heating condition of biomass were set within the range that partial decomposition of a portion of the biomass and thermal hardening of hemicelluloses is induced, 115-230 °C and 8-25 MPa. The measured lower heating value of the new solid bio-fuel is in the range between 18 and 20 MJ/kg and its specific net renewable energy content is significantly higher than that of traditional woody pellet. This last result along with a number of environmental impacts of the new solid bio-fuel was quantified using an LCA methodology.

References

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  • UNEP, Division of Technology, Industry and Economics International Environmental Technology Centre Osaka/Shiga, Converting Waste Agricultural Biomass into a Resource, Compendium of Technologies, Japan, 2009.
  • Vasen, N.N., Agri-pellets: Perspective of Pellets from Agricoltural Residues (How to Heat at Low Cost), Proceeding of European Pellets Conference, 2-3- March, Wels, Austria, 2005
  • Tumuluru, J.S., Hess, J.R., Boardman, R.D., Wright, C.T., Westover, T.L., Formulation, Pretreatment, and Densification Options to Improve Biomass Specifications for Co.Firing High Percentages with Coal, Industrial Biotechnology, doi:10.1089/ind.2012.0004, Vol 8, 2012.
  • Tumuluru, J.S., Wright, C.T., Kenny, K.L., Hess, J.R., A Review on Biomass Densification Technologies for Energy Application, INL/EXT-10-18420, 2010.
  • Bergman, P.C.A., Kiel, J.H.A., Torrefaction for Biomass Upgrading, Proceeding of 14th European Biomass Conference & Exhibition, Paris, France, 2005.
  • Bridgeman, T.G., Jones, J.M., Shield, I., Williams, P.T., Torrefaction of Reed Canary Grass, Wheat Straw and willow to enhance solid fuel qualities and Combustion Properties, Fuel, Vol 87, pp 844-856, 2008.
  • Van Der Stelt, M.J.C., Gerhauser, H., Kiel, J.H.A., Ptasinski, K.J., Biomass Upgrading by Torrefaction for the Production of Biofuels: a Review, Biomass and Bioenergy, Vol 35, pp 3748-3762, 2011.
  • Linning, W.A.III, Is Densified Biomass Fuel from Agro-Forestry Waste a Sustainable Energy Option?, Theses and Dissertations, Mechanical Engineering, University of Kentucky, 2012.
  • Yan, W., Hasting, J.T., Acharjee, T.C., Coronella, C.J., Vasquez, V.R., Mass and Energy Balance of Wet Torrefaction of Lignocellulosic Biomass, Energy Fuels, Vol 24, issue 9, pp 4738-4742, 2010.
  • Cherubini, F., Bird, N.D., Cowie, A., Jungmeier, G., Schlamadinger, B., Woess-Gallasch, S., Energy and Greenhouse Gas-based LCA of Biofuel and Biofuel and Bioenergy Recommendations. Key Systems: Issues, Range and Fantozzi, F., Barbanera, M., et al., Life Cycle Analysis of Wood Pellet from SRC Through Direct Measuring of Energy Consumption, Proceeding of 14th European Biomass Conference and Exibition, Biomass for Energy, Industry and Climate Protection, Paris,17-21 October, 2005.
Year 2013, Volume: 3 Issue: 2, 255 - 260, 01.06.2013

Abstract

References

  • BP Statistical Review of Word Energy, 31 July 2006, reetrived 24 October 2009.
  • ET2010:46, Swedish Energy Agency, Energy in Sweden,
  • Faaij, A., Modern Biomass Conversion Technologies, “Mitigation and Adaptation Strategy for Global Change, Vol 22, pp 343-375, 2006.
  • ENERDATA, Yearbook 2012: Global Energy Market.
  • EEM08, 5th International Conference on the European Electricity Market, Lisbon, 20-30 May 2008.
  • BP Statistical Review of Word Energy, June 2010.
  • FAO Forest Department Wood Energy Programme, Unified Bioenergy Terminology (UBET), December The Asian Biomass Handbook. A Guide For Biomass Production and Utilization, The Japan Institute of Energy, Shina Yokoyama Ed. January 2008.
  • Li, J. And Hu, R., Sustainable Biomass Production for Energy in China, Biomass and Bioenergy, Vol 25, pp 499, 2003.
  • IEA Bioenergy, Benefits of Bioenergy, IEA Bioenergy:ExCo2007, 2007.
  • Di Giacomo, G. and Taglieri, L., Renewable Energy Benefits with Conversion of Woody Residues to Pellets, Energy, Vol. 34, pp 724-731, 2009.
  • Di Giacomo, G., Taglieri, L., Wood and Wood Waste (RLB) as Significant Resource to Improve the Energy Balance as well as the Environmental Quality of a Green Region of EU: Demonstration and Stimulating Actions Involving Proper Regional Sites. Interreg IIIC, RegEnergy: Feasibility Study; 2007.
  • Sikkema, R., Steiner, M., Junginger, M., Hiegi, W., Hansen, M.T., Faaij, A., The European Wood Pellet Markets: Current Status and Prospects for 2020, Biofuels,
  • Bioproduct & Biorefining, doi: 10.1002/bbb.277, 2011.
  • Stelte, W., Holm, J.K., Sanadi, A.R., Barsberg, S., Ahrenfeldt, J.,Henriksen, U.B., Fuel Pellet from Biomass: the Importance of the Pelletizing Pressure And Its Dependency On The Processing Conditions, Fuel, Vol , issue 11, pp 3285-3290, 2011.
  • Deutmayer, M., IEA Bioenergy Task 40, Possible Effect of Torrefaction on Biomass Trade, June 2012.
  • Obidziński, S., Analysis of Usability of Potato Pulp as Solid Fuel, Fuel Processing Technology, Vol 94, Issue1, pp 67-74, 2012 Obidziński, S., Pelletiation Process of
  • Postproduction Plant Waste, Int. Agrophys., doi: 2478/v10247-012-0040-8, Vol 26, pp- 279-284, 2012.
  • Stelte, W., Fuel Pellets from Biomass, Processing, Bonding, Raw Materials, Ph.D. Thesis, Danish National Laboratory for Sustainable Energy, Technical University of Denmark, ISBN: 978-87-550-3955-1, 2011.
  • UNEP, Division of Technology, Industry and Economics International Environmental Technology Centre Osaka/Shiga, Converting Waste Agricultural Biomass into a Resource, Compendium of Technologies, Japan, 2009.
  • Vasen, N.N., Agri-pellets: Perspective of Pellets from Agricoltural Residues (How to Heat at Low Cost), Proceeding of European Pellets Conference, 2-3- March, Wels, Austria, 2005
  • Tumuluru, J.S., Hess, J.R., Boardman, R.D., Wright, C.T., Westover, T.L., Formulation, Pretreatment, and Densification Options to Improve Biomass Specifications for Co.Firing High Percentages with Coal, Industrial Biotechnology, doi:10.1089/ind.2012.0004, Vol 8, 2012.
  • Tumuluru, J.S., Wright, C.T., Kenny, K.L., Hess, J.R., A Review on Biomass Densification Technologies for Energy Application, INL/EXT-10-18420, 2010.
  • Bergman, P.C.A., Kiel, J.H.A., Torrefaction for Biomass Upgrading, Proceeding of 14th European Biomass Conference & Exhibition, Paris, France, 2005.
  • Bridgeman, T.G., Jones, J.M., Shield, I., Williams, P.T., Torrefaction of Reed Canary Grass, Wheat Straw and willow to enhance solid fuel qualities and Combustion Properties, Fuel, Vol 87, pp 844-856, 2008.
  • Van Der Stelt, M.J.C., Gerhauser, H., Kiel, J.H.A., Ptasinski, K.J., Biomass Upgrading by Torrefaction for the Production of Biofuels: a Review, Biomass and Bioenergy, Vol 35, pp 3748-3762, 2011.
  • Linning, W.A.III, Is Densified Biomass Fuel from Agro-Forestry Waste a Sustainable Energy Option?, Theses and Dissertations, Mechanical Engineering, University of Kentucky, 2012.
  • Yan, W., Hasting, J.T., Acharjee, T.C., Coronella, C.J., Vasquez, V.R., Mass and Energy Balance of Wet Torrefaction of Lignocellulosic Biomass, Energy Fuels, Vol 24, issue 9, pp 4738-4742, 2010.
  • Cherubini, F., Bird, N.D., Cowie, A., Jungmeier, G., Schlamadinger, B., Woess-Gallasch, S., Energy and Greenhouse Gas-based LCA of Biofuel and Biofuel and Bioenergy Recommendations. Key Systems: Issues, Range and Fantozzi, F., Barbanera, M., et al., Life Cycle Analysis of Wood Pellet from SRC Through Direct Measuring of Energy Consumption, Proceeding of 14th European Biomass Conference and Exibition, Biomass for Energy, Industry and Climate Protection, Paris,17-21 October, 2005.
There are 28 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Gabriele Di Giacomo This is me

Luca Taglieri This is me

Publication Date June 1, 2013
Published in Issue Year 2013 Volume: 3 Issue: 2

Cite

APA Giacomo, G. D., & Taglieri, L. (2013). Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process. International Journal Of Renewable Energy Research, 3(2), 255-260.
AMA Giacomo GD, Taglieri L. Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process. International Journal Of Renewable Energy Research. June 2013;3(2):255-260.
Chicago Giacomo, Gabriele Di, and Luca Taglieri. “Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process”. International Journal Of Renewable Energy Research 3, no. 2 (June 2013): 255-60.
EndNote Giacomo GD, Taglieri L (June 1, 2013) Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process. International Journal Of Renewable Energy Research 3 2 255–260.
IEEE G. D. Giacomo and L. Taglieri, “Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process”, International Journal Of Renewable Energy Research, vol. 3, no. 2, pp. 255–260, 2013.
ISNAD Giacomo, Gabriele Di - Taglieri, Luca. “Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process”. International Journal Of Renewable Energy Research 3/2 (June 2013), 255-260.
JAMA Giacomo GD, Taglieri L. Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process. International Journal Of Renewable Energy Research. 2013;3:255–260.
MLA Giacomo, Gabriele Di and Luca Taglieri. “Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process”. International Journal Of Renewable Energy Research, vol. 3, no. 2, 2013, pp. 255-60.
Vancouver Giacomo GD, Taglieri L. Development and Evaluation of a New Advanced Solid Bio-Fuel and Related Production Process. International Journal Of Renewable Energy Research. 2013;3(2):255-60.