|
Biomass and
Bioenergy,
vol. 42, pp. 164-171, 2012.
[242] P. Hellier, N. Ladommatos, R. Allan and J. Rogerson, “Combustion and
Emissions Characteristics of Toluene/n-Heptane and 1-Octene/n-octane Binary
Mixtures in a Direct Injection Diesel Engine,”
Submitted to Combustion and
Flame,
2012.
[243] E. Apltekin and M. Canakci, “Determination of the Density and the Viscosities
of Biodiesel-Diesel Fuel Blends,”
Renewable Energy,
vol. 33, no. 12, pp. 2623-
2630, December 2008.
[244] M. E. Tat and J. H. Van Gerpen, “The Kinematic Viscosity of Biodiesel and Its
Blends with Diesel Fuel,”
Journal of the American Oil Chemists' Society,
vol.
76, no. 12, pp. 1511-1513, December 1999.
[245] M. Vidal, W. Rogers and M. Mannan, “Prediction of Minimum Flash Point
Behaviour for Binary Mixtures,”
Process Safety and Environmental Protection,
vol. Part B, no. 84, pp. 1-9, 2006.
188
[246] M. Hristova, “Measurement and Prediction of Binary Mixture Flash Point,”
Central European Journal of Chemistry,
vol. 11, no. 1, pp. 57-62, 2013.
[247] M. Hristova and D. Damgaliev, “Flash Point of Organic Binary Mixtures
Containing Alcohols: Experiment and Prediction,”
Central European Journal
of Chemistry,
vol. 11, no. 3, pp. 388-393, 2013.
[248] J. Goodrum, D. Geller and S. Lee, “Rapid Measurement of Boiling Points and
Vapour Pressure of Binary Mixtures of Short-Chain Triglycerides by TGA
Method,”
Thermochimica Acta,
vol. 311, no. 1-2, pp. 71-79, 1998.
[249] T. Vittal Prasad, B. Sankar, R. Pavan Kumar and D. Prasad, “Boiling
Temperature Measurements on the Binary Mixtures Formed by Tert-Butanol
with some Chloroethanes and Chloroethylenes at 94.6 kPa,”
Fluid Phase
Equilibria,
vol. 213, no. 1-2, pp. 147-152, 2003.
[250] X. Wang and A. Lefebvre, “Influence of Fuel Temperature on Atomization
Performance of Pressure-Swirl Atomizers,”
International Symposium on Air
Breathing Engines,
pp. 193-199, 1987.
[251] G. Batchelor, An Introduction to Fluid Dynamics, Cambridge University Press,
1967.
[252] P. Hiemenez and R. Rajagopalan, Principles of Colloid and Surface Chemistry,
New York: Marcel Dekker, Inc, 1997.
[253] K. Han, Fundamentals of Aqueous Metallurgy, Littleton: SME, 2002.
[254] T. Cooney and T. Russell,
Presentation of Results,
2014.
[255] Technical Committee of Petroleum Additive Manufacturers in Europe, “Fuel
Additives: Use and Benefits,” 2013.
[256] S. Curry, “Effect of Antiknocks on Flame Propagation in a Spark Ignition
Engine,”
Symposium (International) on Combustion,
vol. 9, no. 1, pp. 1056-
1068, 1963.
[257] G. Linteris, M. Rumminger and V. Babushok, “Catalytic Inhibition of Laminar
Flames by Transition Metal Compounds,”
Progress in Energy and Combustion
Science,
vol. 34, no. 3, pp. 288-329, June 2008.
[258] M. Day, D. Stamp, K. Thompson and G. Dixon-Lewis, “Inhibition of
Hydrogen-Air and Hydrogen-Nitrous Oxide Flames by Halogen Compounds,”
Symposium (International) on Combustion,
vol. 13, no. 1, pp. 705-712, 1971.
[259] T. Alger, J. Gingrich, C. Roberts, B. Mangold and M. Sellnau, “A High-Energy
Continuous Discharge Ignition System for Dilute Engine Applications,”
SAE
Technical Paper,
no. 2013-01-1628, 2013.
189
[260] V. Babrauskas, Ignition Handbook, 1st ed., Issaquah: Fire Science Publishers,
2003.
[261] R. Iverson, “The Effects of Intake Charge Stratification on HCCI Combustion,”
Madison, 2004.
[262] N. Savaranan and G. Nagarajan, “Experimental Investigation on Performance
and Emission Characteristics of Dual Fuel DI Diesel Engine with Hydrogen
Fuel,” 2009.
[263] C. Sayin, “The Impact of Varying Spark Timing at Different Octane Numbers
on the Performance and Emission Characteristic in a Gasoline Engine,”
Fuel,
vol. 97, pp. 856-861, 2012.
[264] A. Sonin, The Physical Basis of Dimensional Analysis, 2nd ed., MIT, 2001.
[265] M. Iqbal, M. Ahmad and M. Younis, “Effect of Reynold's Number on Droplet
Size of hollow Cone Nozzle of Environment Friendly Univeristy Boom
Sprayer,”
Pakistan Journal of Agricultural Sciences,
vol. 42, no. 3-4, pp. 106-
111, 2005.
[266] DieselNet,
March
2012.
[Online].
Available:
http://www.dieselnet.com/standards/eu/ld.php. [Accessed 3 September 2012].
[267] D. Bradley and G. Hundy, “Burning Velocities of Methane-Air Mixtures Using
Hot-Wire Anemometers
in
Closed-Vessel Explosions,”
Symposium
(International) on Combustion,
vol. 13, no. 1, pp. 575-583, 1971.
[268] G. Andrews and D. Bradley, “The Burning Velocity of Methane-Air mixture,”
Combustion and Flame,
vol. 19, pp. 275-288, 1972.
[269] Driver and Vehicle Licensing Agency, “Rates of Vehicle Tax,” 2012.
[270] Y. Tanasawa and S. Toyoda, “On the Atomisation of a Liquid Jet Issuing from
a Cylindrical Nozzle,” 1955.
[271] X. Feng, J. Lagon, M. Nuckols and M. D. Thomas, “Fuel Additives and
Gasoline Containing the Additives”. USA Patent US 2012/0180382 A1, 19 July
2012.
[272] S. Agarwal, V. K. Chhibber and A. K. Bhatnagar, “Tribological Behaviour of
Diesel Fuels and the Effect of Ant-Wear Additives,”
Fuel,
pp. In Press,
Corrected Proof, December 2012.
[273] S. Tonini, M. Gavaises and A. Theodorakakos, “The Role of Droplet
Fragmentation in High-Pressure Evaporating Diesel Sprays,”
International
Journal of Thermal Sciences,
vol. 48, pp. 554-572, 2009.
190
[274] H. Nakamura, T. Ohinouye, K. Hori, Y. Kiyota, T. Nakagami, K. Akishino and
Y. Tsukamoto, “Development of a New Combustion System (MCA-JET) in
Gasoline Engine,”
SAE Technical Paper 780007,
1978.
[275] K. Saeed, “Laminar Burning Velocity Measurements,” 2002.
[276] H. Kobayashi, T. Nakashima, T. Tamura, K. Maruta and T. Niioka,
“Turbulence Measurements and Observations of Turbulent Premixed Flames at
Elevated Pressures up to 3.0MPa,”
Combustion and Flame,
vol. 108, pp. 104-
117, 1997.
[277] F. Paschen, “Ueber die zum Funkenübergang in Luft, Wasserstoff und
Kohlensäure bei Verschiedenen Drucken Erforderliche Potentialdifferenz,”
Annalen der Physik,
vol. 273, no. 5, pp. 69-96, 1889.
191
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