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Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer

Year 2013, Volume: 3 Issue: 1, 84 - 87, 01.03.2013

Abstract

Abstract- In this research regenerative type of biogas desulfurizer by utilizing waste steel chips is introduced. The waste of steel chips was obtained  form metal forming process of turning. The annealing process was conducted on steel chips prior compacting to yield a billet. The purpose of annealing was to eliminate the residual stress as well as to let the oxidation to occur in order to obtain iron oxide. As residual stress eliminated, the steel chips was possible for compacting as a billet. The annealing process was carried out by burning the steel chip at 900oC. During the annealing process the steel will react with oxygen to form iron oxide (Fe2O3) and if during oxidation there is a water vapor in the air then the iron bog ore (Fe(OH)3)will be formed. Both  Fe2O3 and Fe(OH)3 are reactive to H2S and therefore able to eliminate the H2S contaminant inside the biogas. The result from the process of desulfurization was precipitation of sulfur (S) in the form of Fe2S3 in the surface of steel chips which will reduce the performance of desulfurizer. The affectivity of desulfurizer then is recover by reacting the Fe2S3 in the same time with O2 and H2O, therefore the desulfurizer can be used again (regenerative used).

References

  • T.G.T. Nindhia, Removal of Hydrogen Sulfide (H2S) Contaminant in Biogas by Utilizing Solid Waste Steel Chips from The Process of Turning, The 27th International Conference on Solid Waste Technology and Management, Philadelphia, PA U.S.A., March 11- 14, 2012.
  • X. Y. Jiang, S. G. Sommer, and K. V.Christensen, A Review of the Biogas Industry in China, Energy Policy, vol. 39, pp. 6073-6081, October 2011.
  • Y. S. Kim, Y. M. Yoon, C. H. K., and J. Giersdorf, Status of biogas technologies and policies in South Korea, Renewable and Sustainable Energy Reviews , vol. 16, pp. (2012) 3430- 3438, April 2012..
  • T. Bond and M. R. Templeton, History and Future of Domestic biogas Plants in the Developing World, Energy for Sustainable Development , vol. 15, pp. 347- 354, Oktober 2011.
  • J. H. Gibbons, Energy from Biological Processes, McGraw-Hill, Inc., New York, 1978.
  • J. W. Smith, , S. Meffe, P. S. Walton, and D. T. R. Ellenor, , Hydrogen Sulfide removal Process, US Patent No. 6,627,110, 2003.
  • E. L.Winchester, M. J. McMullin, J. K. Hum, Removing Hydrogen Sulfide from A Gaseous Mixture Using Ferric Ions Bonded To Calcined Diatomite, US Paten No. 6,500,237,2002.
  • K. Starr , X. Gabarrell, G. Villalba , L. Talens, and L. Lombardi, Life Cycle Assessment of Biogas Upgrading Technologies, Waste Management , vol. 32, pp. 991- 999, January 2012
  • D. Deublein, and A. Steinhauser, Biogas from Waste and Renewable Resources, Wiley-VCH Verlag GmbH &KGaA, Federal Republic of Germany, 2008.
  • J. Huanga and R. J. Crookesb, Assessment of simulated biogas as a fuel for the spark ignition engine, Fuel, Vol. 77, No. 15, pp. 1793-1801, June 1998.
  • M. Hussain, N. Abbas, D. Fino, and N. Russoy, Novel Mesoporous Silica Supported ZnO Adsorbents for the Desulphurization of Biogas at Low Temperatures, Chemical Engineering Journal,vol. 188,pp. 222- 232, February 2012.
  • E. Ryckebosch , M. Drouillon, and H. Vervaeren, Techniques for transformation of biogas to biomethane, Biomass and Bioenergy, vol. 35, pp.1633-1645, March 2011.
Year 2013, Volume: 3 Issue: 1, 84 - 87, 01.03.2013

Abstract

References

  • T.G.T. Nindhia, Removal of Hydrogen Sulfide (H2S) Contaminant in Biogas by Utilizing Solid Waste Steel Chips from The Process of Turning, The 27th International Conference on Solid Waste Technology and Management, Philadelphia, PA U.S.A., March 11- 14, 2012.
  • X. Y. Jiang, S. G. Sommer, and K. V.Christensen, A Review of the Biogas Industry in China, Energy Policy, vol. 39, pp. 6073-6081, October 2011.
  • Y. S. Kim, Y. M. Yoon, C. H. K., and J. Giersdorf, Status of biogas technologies and policies in South Korea, Renewable and Sustainable Energy Reviews , vol. 16, pp. (2012) 3430- 3438, April 2012..
  • T. Bond and M. R. Templeton, History and Future of Domestic biogas Plants in the Developing World, Energy for Sustainable Development , vol. 15, pp. 347- 354, Oktober 2011.
  • J. H. Gibbons, Energy from Biological Processes, McGraw-Hill, Inc., New York, 1978.
  • J. W. Smith, , S. Meffe, P. S. Walton, and D. T. R. Ellenor, , Hydrogen Sulfide removal Process, US Patent No. 6,627,110, 2003.
  • E. L.Winchester, M. J. McMullin, J. K. Hum, Removing Hydrogen Sulfide from A Gaseous Mixture Using Ferric Ions Bonded To Calcined Diatomite, US Paten No. 6,500,237,2002.
  • K. Starr , X. Gabarrell, G. Villalba , L. Talens, and L. Lombardi, Life Cycle Assessment of Biogas Upgrading Technologies, Waste Management , vol. 32, pp. 991- 999, January 2012
  • D. Deublein, and A. Steinhauser, Biogas from Waste and Renewable Resources, Wiley-VCH Verlag GmbH &KGaA, Federal Republic of Germany, 2008.
  • J. Huanga and R. J. Crookesb, Assessment of simulated biogas as a fuel for the spark ignition engine, Fuel, Vol. 77, No. 15, pp. 1793-1801, June 1998.
  • M. Hussain, N. Abbas, D. Fino, and N. Russoy, Novel Mesoporous Silica Supported ZnO Adsorbents for the Desulphurization of Biogas at Low Temperatures, Chemical Engineering Journal,vol. 188,pp. 222- 232, February 2012.
  • E. Ryckebosch , M. Drouillon, and H. Vervaeren, Techniques for transformation of biogas to biomethane, Biomass and Bioenergy, vol. 35, pp.1633-1645, March 2011.
There are 12 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Tjokorda Gde Tirta Nindhia This is me

I Made Sucipta This is me

I Wayan Surata This is me

I Ketut Adiatmika This is me

Dewa Ngakan Ketut Putra Negara This is me

Komang Metty Trisna Negara This is me

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

Cite

APA Nindhia, T. G. T., Sucipta, I. M., Surata, I. W., Adiatmika, I. K., et al. (2013). Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer. International Journal Of Renewable Energy Research, 3(1), 84-87.
AMA Nindhia TGT, Sucipta IM, Surata IW, Adiatmika IK, Negara DNKP, Negara KMT. Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer. International Journal Of Renewable Energy Research. March 2013;3(1):84-87.
Chicago Nindhia, Tjokorda Gde Tirta, I Made Sucipta, I Wayan Surata, I Ketut Adiatmika, Dewa Ngakan Ketut Putra Negara, and Komang Metty Trisna Negara. “Processing of Steel Chips Waste for Regenerative Type of Biogas Desulfurizer”. International Journal Of Renewable Energy Research 3, no. 1 (March 2013): 84-87.
EndNote Nindhia TGT, Sucipta IM, Surata IW, Adiatmika IK, Negara DNKP, Negara KMT (March 1, 2013) Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer. International Journal Of Renewable Energy Research 3 1 84–87.
IEEE T. G. T. Nindhia, I. M. Sucipta, I. W. Surata, I. K. Adiatmika, D. N. K. P. Negara, and K. M. T. Negara, “Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer”, International Journal Of Renewable Energy Research, vol. 3, no. 1, pp. 84–87, 2013.
ISNAD Nindhia, Tjokorda Gde Tirta et al. “Processing of Steel Chips Waste for Regenerative Type of Biogas Desulfurizer”. International Journal Of Renewable Energy Research 3/1 (March 2013), 84-87.
JAMA Nindhia TGT, Sucipta IM, Surata IW, Adiatmika IK, Negara DNKP, Negara KMT. Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer. International Journal Of Renewable Energy Research. 2013;3:84–87.
MLA Nindhia, Tjokorda Gde Tirta et al. “Processing of Steel Chips Waste for Regenerative Type of Biogas Desulfurizer”. International Journal Of Renewable Energy Research, vol. 3, no. 1, 2013, pp. 84-87.
Vancouver Nindhia TGT, Sucipta IM, Surata IW, Adiatmika IK, Negara DNKP, Negara KMT. Processing of Steel Chips Waste for Regenerative type of Biogas Desulfurizer. International Journal Of Renewable Energy Research. 2013;3(1):84-7.