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International Journal of Sustainable Engineering Volume 8, 2015 - Issue 6
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Articles

Effect of hydrogen addition to CNG in a biodiesel-operated dual-fuel engine

N.R. BanapurmathB.V.B College of Engineering and Technology, Hubli, Karnataka, IndiaCorrespondence[email protected] [email protected]
,
N.M. GireeshB.V.B College of Engineering and Technology, Hubli, Karnataka, India
,
Y.H. BasavarajappaB.V.B College of Engineering and Technology, Hubli, Karnataka, India
,
R.S. HosmathB.V.B College of Engineering and Technology, Hubli, Karnataka, India
,
V.S. YaliwalS.D.M. College of Engineering and Technology, Hubli, Karnataka, India
,
Abhay PaiB.V.B College of Engineering and Technology, Hubli, Karnataka, India
,
Kishan Gopal NavaleB.V.B College of Engineering and Technology, Hubli, Karnataka, India
,
Priyanka JogB.V.B College of Engineering and Technology, Hubli, Karnataka, India
&
P.G. TewariB.V.B College of Engineering and Technology, Hubli, Karnataka, India
 show all
Pages 332-340 | Received 25 Jun 2013, Accepted 29 Jul 2014, Published online: 14 Oct 2014

References

  • Atadashi, I. M., M. K. Aroua, and A. Abdul Aziz. 2010. “High Quality Biodiesel and Its Diesel Engine Application: A Review.” Renewable and Sustainable Energy Reviews 14 (7): 1999–2008.
  • Banapurmath N. R., and P. G. Tewari. 2010. “Performance, Combustion, and Emissions Characteristics of a Single-Cylinder Compression Ignition Engine Operated on Ethanol–Biodiesel Blended Fuels.” Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 224: 533–543.
  • Banapurmath, N. R., P. G. Tewari, and R. S. Hosmath. 2008. “Combustion and Emission Characteristics of a Direct Injection, Compression–Ignition Operated on Honge Oil, HOME and Blends of HOME and Diesel.” International Journal of Sustainable Engineering 1 (2): 80–93.
  • Basha, Syed Ameer, K. Raja Gopal, and S. Jebaraj. 2009. “A Review on Biodiesel Production, Combustion, Emissions and Performance.” Renewable and Sustainable Energy Reviews 13: 1628–1634.
  • Bauer, C. G., and T. W. Forest. 2001. “Effect of Hydrogen Addition on the Performance of Methane-Fueled Vehicles. Part I: Effect on S.I. Engine Performance.” International Journal of Hydrogen Energy 26 (1): 55–70.
  • Borges, L. H., C. Hollnagel, and W. Muraro. 1996. Engineers S of A Development of a Mercedes-Benz Natural Gas Engine M 366 Lag, with a Lean Burn Combustion System. Brasil: Society of Automotive Engineers.
  • Cho, H. M., and B-Q. He. 2008. “Combustion and Emission Characteristics of a Lean Burn Natural Gas Engine.” International Journal of Automotive Technologies 9 (4): 415–422.
  • Collier, K., N. Mulligan, D. Shin, and S. Brandon. 2005. Emission Results from the New Development of a Dedicated Hydrogen-Enriched Natural Gas Heavy Duty Engine. Warrendale, PA: Society of Automotive Engineers. Paper No. 2005-01-0235 USA.
  • Das, L. M. 1990. “Hydrogen Engines: A View of the Past and a Look into the Future.” International Journal of Hydrogen Energy 15 (6): 425–443.
  • DeLuchi, M. A. 1989. “Hydrogen Vehicles: An Evaluation of Fuel Storage, Performance, Safety, Environmental Impacts, and Cost.” International Journal of Hydrogen Energy 14 (2): 81–130.
  • Einewall, P., and B. Johansson. 2000. Cylinder to Cylinder and Cycle to Cycle Variations in a Six Cylinder Lean Burn Natural Gas Engine. Warrendale, PA: Society of Automotive Engineers. Paper No. 2005-01-0235 USA.
  • Houseman, J., and F. W. Hoehn. 1974. A Two-Charge Engine Concept: Hydrogen Enrichment. Warrendale, PA: Society of Automotive Engineers. Paper No. 741169 USA.
  • Karbasi, M., and I. Wierzba. 1998. “The Effects of Hydrogen Addition on the Stability Limits of Methane Jet Diffusion Flames.” International Journal of Hydrogen Energy 23 (2): 123–129.
  • Karim, G. A., I. Wierzba, and Y. Al-Alousi. 1996. “Methane-Hydrogen Mixtures as Fuels.” International Journal Hydrogen Energy 21 (7): 625–631.
  • Kukkonen, C. A., and M. Shelef. 19941994. Hydrogen as an Alternative Automotive Fuel: 1993 Update. Warrendale, PA: Society of Automotive Engineers. Paper No. 2005-01-0235 USA 2000.
  • Lopez, J. M., AlvaroGomez, Francisco Aparicio, and Fco. Javier Sanchez. 2009. “Comparison of GHG Emissions from Diesel, Biodiesel and Natural Gas Refuse Trucks of the City of Madrid.” Applied Energy 86 (5): 610–615.
  • Ma, F., S. Ding, Y. Wang, M. Wang, L. Jiang, N. Naeve, and S. Zhao. 2009. “Performance and Emission Characteristics of a Spark-Ignition (SI) Hydrogen-Enriched Compressed Natural Gas (HCNG) Engine Under Various Operating Conditions Including Idle Conditions.” Energy & Fuels 23: 2113–3118.
  • Ma, F. H., and Y. Wang. 2008. “Study on the Extension of Lean Operation Limit Through Hydrogen Enrichment in a Natural Gas Spark Ignition Engine.” International Journal of Hydrogen Energy 33 (4): 1416–1424.
  • Ma, F., M. Wang, L. Jiang, R. Chen, J. Deng, N. Naeve, and S. Zhao. 2010. “Performance and Emission Characteristics of a Turbocharged CNG Engine Fueled by Hydrogen-Enriched Compressed Natural Gas with High Hydrogen Ratio.” International Journal of Hydrogen Energy 35: 6438–6447.
  • Ma, F. H., Y. Wang, H. Q. Liu, Y. Li, J. J. Wang, and S. F. Ding. 2008. “Effects of Hydrogen Addition on Cycle-By-Cycle Variations in a Lean Burn Natural Gas Spark-Ignition Engine.” International Journal of Hydrogen Energy 33 (2): 823–831.
  • Ma, F., Y. Wang, H. Liu, Y. Li, J. Wang, and S. Zhao. 2007. “Experimental Study on Thermal Efficiency and Emission Characteristics of a Lean Burn Hydrogen Enriched Natural Gas Engine.” International Journal of Hydrogen Energy 32 (18): 5067–5075.
  • McTaggart-Cowan, G. P., H. L. Jones, S. N. Rogak, W. K. Bushe, P. G. Hill, and S. R. Munshi. 2006. Direct-Injected Hydrogen–Methane Mixtures in a Heavy-Duty Compression Ignition Engine. Warrendale, PA: Society of Automotive Engineers. Paper No. 2006-01-0653 USA.
  • McTaggart-Cowan, G. P., S. N. Rogak, S. R. Munshi, P. G. Hill, and W. K. Bushe. 2009. “Combustion in a Heavy-Duty Direct-Injection Engine Using Hydrogen-Methane Blend Fuels.” International Journal of Engine Research 10 (1): 1–13.
  • Misztal, J., H. Xu, M. L. Wyszynski, A. Tsolakis, and J. Qiao. 2009. “Cylinder-to-Cylinder Variations in a V6 Gasoline Direct Injection HCCI Engine.” Journal of Engineering Turbines and Power 131 (4): 042801.
  • Murugesan, A., C. Umarani, R. Subramanian, and N. Nedunchezhian. 2009. “Bio-Diesel as an Alternative Fuel for Diesel Engines: A Review.” Renewable and Sustainable Energy Reviews 13 (3): 653–662.
  • Naha, S., and S. K. Aggarwal. 2004. “Fuel Effects on NOx Emissions in Partially Premixed Flames.” Combustion and Flame 139: 90–105.
  • Nwafor, O. M. I. 2007. “Effect of Advanced Injection Timing on Emission Characteristics of Diesel Engine Running on Natural Gas.” Renewable Energy 32: 2361–2368.
  • Park, Cheolwoong, Kim Changgi, Choi Young, and Lee Janghee. 2013. “Operating Strategy for Exhaust Gas Reduction and Performance Improvement in a Heavy-Duty Hydrogen-Natural Gas Blend Engine.” Energy 50: 262–269.
  • Rortveit, G. J., K. Zepter, O. Skreiberg, M. Fossum, and J. E. Hustad. 2002. “A comparison of Low-NOx Burners for Combustion of Methane and Hydrogen Mixtures.” Proceedings of Combustion Institute 29: 1123–1129.
  • Sahoo, B. B., N. Sahoo, and U. K. Saha. 2009. “Effect of Engine Parameters and Type of Gaseous Fuel on the Performance of Dual-Fuel Gas Diesel Engines: A Critical Review.” Renewable and Sustainable Energy Reviews 13: 1151–1184.
  • Selim, M. Y. E. 2005. “Effect of Engine Parameters and Gaseous Fuel Type on the Cyclic Variability of Dual Fuel Engines.” Fuel 84: 961–971.
  • Sierens, R., and E. Rosseel. 2000. “Variable Composition Hydrogen/Natural Gas Mixtures for Increased Engine Efficiency and Decreased Emissions.” Journal of Engineering Turbines and Power 122 (1): 135–140.
  • Simio, LuigiDe, Gambino Michele, and Iannaccone Sabato. 2013. “Experimental and Numerical Study of Hydrogen Addition in a Natural Gas Heavy Duty Engine for a Bus Vehicle.” International Journal of Hydrogen Energy 16: 6865–6873.
  • Swain, M. R., M. J. Yusuf, Z. Dulger, and M. N. Swain. 1993. The Effects of Hydrogen Addition on Natural Gas Engine Operation. Warrendale, PA: Society of Automotive Engineers. Paper No. 932775.
  • Toshiaki, Kitagawa, Kido Hiroyuki, Nozomu, Nakamura, and Aishima Masaya. 2004. “Flame Inertia in to Lean Region in Stratified Hydrogen Mixture.” International Journal of Hydrogen Energy 29: 1173–1180.
  • Yasufumi, Yoshimoto. 2010. Combustion Characteristics of a Dual Fuel Diesel Engine with Natural Gas (Study with Fatty Acid Methyl Esters Used as Ignition Fuels). Warrendale, PA: Society of Automotive Engineers. Paper No. 2010-32-0050 USA.

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