Evaluation and Characterization of Different Biomass Residues through Proximate & Ultimate Analysis and Heating Value

Authors

  • Harmandeep Singh ME Department, BMSCE, Sri Muktsar Sahib, Punjab - 152 026, India
  • Pawan Kumar Sapra ME Department, AIT, Gharuan, SAS Nagar, Punjab - 140 413, India
  • Balwinder Singh Sidhu ME Department, GZS PTU Campus, Bathinda, Punjab - 151 001, India

DOI:

https://doi.org/10.51983/ajeat-2013.2.2.690

Keywords:

Biomass fuels, Biomass characteristics, High heating values, Correlation models

Abstract

Biomass fuels have been emerged as better energy source in present scenario of rising fossil fuel prices. Biomass fuels are considered better in comparison to fossil fuels in term of their carbon neutral features. Biomass combustion has been widely recognized as key thermal conversion technology for residues in biomass based power plants. Thorough knowledge about their characteristic features needs to be explored for getting better potential of their use in future context of their availability as per the geographical conditions. Important characteristics requiring analysis are proximate analysis, ultimate analysis, moisture content & heating value. In present investigation, Characteristic data of three Agricultural crop residues & one agro industry byproduct (Rice husk) have been analyzed. Proximate analysis & ultimate analysis have been carried out. Further the high heating values (HHV) of these residues have been evaluated experimentally and comparative study has been attempted by using some correlation models on the basis of proximate & ultimate analysis data. These results may be valuable in predicting the basic behaviour of biomass fuels & their characteristics.

References

Klass D.L., (2012), Biomass for renewable energy and fuel, Enttech International Inc. Barrington, IL, 2004.

Asthana, A.K., (2009), Biomass as Fuel in Small Boilers, APO 2009 Report, ISBN: 92-833-7078-3

Balat M, Ayar G., (2005), Biomass energy in the world, use of biomass and potential trends. Energy Sources vol. 27, pp931-40.

Healy M., Toupin. K., (2010), Biofuel Conversion–First Step-Fuel Selection, Clearwater Clean Coal Conf. Florida, USA.

Zhang Y, Ghaly A.E., Li B., (2012), Availability and physical properties of residue from major agricultural crops for energy conversion through thermochemical processes, American Journal of Agricultural and Biological Science, 2012, 7 (3), 312-321.

Das, B., (2011), Estimation of Power Generation Potential of Non Woody Biomass, M.Tech thesis, NIT, Rourkela.

Williams, A., J.M. Jones, L. Ma, M. Pourkashanian., (2012), Pollutants from the combustion of solid biomass fuels, Progress Energy Combustion Science, Vol. 38, pp113-137.

Shukla P., (1997), Biomass energy future for India, International Workshop “Science and Technology for a Modern Biomass Civilization”, Rio De Janeiro, Brazil, September 8-9, 1997.

Patel B., Gain B., (2012), Biomass characterization & its uses as solid fuel for combustion, Iranica journal of energy & environment, Vol. 3 (2), pp123-128.

Mansaray, K.G. and A.E. Ghaly, (1997), Physical and thermochemical properties of rice husk, Energy Sources, Vol.19, pp989-1004.

Adapa, P., L. Tabil and G. Schoenau, (2010), Physical and frictional properties of non-treated and steam exploded barley, canola, oat and wheat straw grinds, Powder Technology, Vol. 201, pp 230-241.

Brandão, P.C., T.C. Souza, C.A. Ferreira, C.E. Hori and L.L. Romanielo, (2010), Removal of petroleum hydrocarbons from aqueous solution using sugarcane bagasse as adsorbent. Journal Hazardous Mater., Vol.175, pp1106-1112.

Adekugbe A., (2012), Determination of heating value of five economic tree residues as fuel for biomass heating system, Nature & Science, vol. 10(10), pp26-29.

Jain A.K., (1997), Correlation models for predicting heating value through biomass characteristics, J of Agricultural Engineering, Vol. 34(3), pp12-25.

Dear, R.K., (2006), Estimation of Power Generation Potential of Agricultural Based Biomass Species, M.Tech. thesis, National Institute of Technology, Rourkela.

Parikh J, Channiwala, S. A., Ghosal G.K., (2005), A correlation for calculating HHV from proximate analysis of solid fuels, Fuel, Vol. 84, pp487-94.

Parikh J., Channiwala S. A., Ghosal G.K, (2007), A correlation for calculating elemental composition from proximate analysis of biomass materials, Fuel, Vol. 86, pp1710–1719.

Demirbas A., (1997), Calculation of high heating values of biomass fuels, Fuel, Vol. 76(5), pp431-434.

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Published

05-11-2013

How to Cite

Singh, H., Sapra, P. K., & Sidhu, B. S. (2013). Evaluation and Characterization of Different Biomass Residues through Proximate & Ultimate Analysis and Heating Value. Asian Journal of Engineering and Applied Technology, 2(2), 6–10. https://doi.org/10.51983/ajeat-2013.2.2.690

Issue

Vol. 2 No. 2 (2013): July-December 2013

Section

Articles

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