Original language | English |
---|---|
Pages (from-to) | 201-208 |
Number of pages | 8 |
Journal | Fuel |
Volume | 134 |
DOIs | |
Publication status | Published (VoR) - 2014 |
Keywords
- Biodiesel
- Fuel chemical composition
- Fuel physical properties
- Particle emissions
- Blending
- Carbon
- Chain length
- Exhaust systems (engine)
- Fatty acids
- Fuels
- Oxygen
- Physical properties
- Carbon-chain length
- Chemical compositions
- Common-rail engines
- Degree of unsaturations
- Exhaust particles
- Fatty acid methyl ester
- Particle numbers
Fingerprint
Dive into the research topics of 'Particle emissions from biodiesels with different physical properties and chemical composition'. Together they form a unique fingerprint.Cite this
- APA
- Author
- BIBTEX
- Harvard
- Standard
- RIS
- Vancouver
}
In: Fuel, Vol. 134, 2014, p. 201-208.
Research output: Contribution to journal › Article › peer-review
TY - JOUR
T1 - Particle emissions from biodiesels with different physical properties and chemical composition
AU - Rahman, M.M.
AU - Pourkhesalian, A.M.
AU - Jahirul, M.I.
AU - Stevanovic, S.
AU - Pham, P.X.
AU - Wang, H.
AU - Masri, A.R.
AU - Brown, R.J.
AU - Ristovski, Z.D.
N1 - Cited By :85 Export Date: 17 February 2023 CODEN: FUELA Correspondence Address: Ristovski, Z.D.; ILAQH and BERF, Queensland University of Technology, Brisbane, QLD 4001, Australia; email: [email protected] Funding details: Australian Research Council, ARC, DP1097125 DP130104904, DP120100126, LP110200158 Funding text 1: Authors sincerely acknowledge Mr. Scott Abbett and Mr. Noel Hartnett technicians in the Biofuel Engine Research Facilities (BERF) at Queensland University of Technology (QUT) and PhD student Mohammad Aminul Islam for their valuable support during experimental work. This work was supported by the Australian Research Council under Grants LP110200158, DP1097125 DP130104904 and DP120100126. References: Brito, J.M., Belotti, L., Toledo, A.C., Antonangelo, L., Silva, F.S., Alvim, D.S., Acute cardiovascular and inflammatory toxicity induced by inhalation of diesel and biodiesel exhaust particles (2010) Toxicol Sci, 116, pp. 67-78; Jacobson, M.Z., Strong radiative heating due to the mixing state of black carbon in atmospheric aerosols (2001) Nature, 409 (6821), pp. 695-697. , DOI 10.1038/35055518; Ristovski, Z.D., Miljevic, B., Surawski, N.C., Morawska, L., Fong, K.M., Goh, F., Respiratory health effects of diesel particulate matter (2012) Respirology, 17, pp. 201-212; Broday, D.M., Rosenzweig, R., Deposition of fractal-like soot aggregates in the human respiratory tract (2011) J Aerosol Sci, 42, pp. 372-386; Giechaskiel, B., Alfoldy, B., Drossinos, Y., A metric for health effects studies of diesel exhaust particles (2009) J Aerosol Sci, 40, pp. 639-651; Herner, J.D., Hu, S.H., Robertson, W.H., Huai, T., Chang, M.C.O., Rieger, P., Effect of advanced aftertreatment for PM and NO(x) reduction on heavy-duty diesel engine ultrafine particle emissions (2011) Environ Sci Technol, 45, pp. 2413-2419; Bakeas, E., Karavalakis, G., Stournas, S., Biodiesel emissions profile in modern diesel vehicles. Part 1: Effect of biodiesel origin on the criteria emissions (2011) Sci Total Environ, 409, pp. 1670-1676; Varuvel, E.G., Mrad, N., Tazerout, M., Aloui, F., Experimental analysis of biofuel as an alternative fuel for diesel engines (2012) Appl Energy, 94, pp. 224-231; Xue, J., Grift, T.E., Hansen, A.C., Effect of biodiesel on engine performances and emissions (2011) Renew Sustain Energy Rev, 15, pp. 1098-1116; Lapuerta, M., Armas, O., Rodríguez-Fernández, J., Effect of the degree of unsaturation of biodiesel fuels on NOx and particulate emissions (2008) SAE Int J Fuels Lubr, 1, pp. 1150-1158; Surawski, N.C., Miljevic, B., Ayoko, G.A., Roberts, B.A., Elbagir, S., Fairfull-Smith, K.E., Physicochemical characterization of particulate emissions from a compression ignition engine employing two injection technologies and three fuels (2011) Environ Sci Technol, 45, pp. 5498-5505; Salvi, B.L., Panwar, N.L., Biodiesel resources and production technologies - A review (2012) Renew Sustain Energy Rev, 16, pp. 3680-3689; Sharma, Y.C., Singh, B., Upadhyay, S.N., Advancements in development and characterization of biodiesel: A review (2008) Fuel, 87, pp. 2355-2373; Morshed, M., Ferdous, K., Khan, M.R., Mazumder, M.S.I., Islam, M.A., Uddin, M.T., Rubber seed oil as a potential source for biodiesel production in Bangladesh (2011) Fuel, 90, pp. 2981-2986; Alptekin, E., Canakci, M., Sanli, H., Evaluation of leather industry wastes as a feedstock for biodiesel production (2012) Fuel, 95, pp. 214-220; Moser, B.R., Impact of fatty ester composition on low temperature properties of biodiesel-petroleum diesel blends (2014) Fuel, 115, pp. 500-506; Hoekman, S.K., Broch, A., Robbins, C., Ceniceros, E., Natarajan, M., Review of biodiesel composition, properties, and specifications (2012) Renew Sustain Energy Rev, 16, pp. 143-169; McCormick, R.L., Graboski, M.S., Alleman, T.L., Herring, A.M., Tyson, K.S., Impact of biodiesel source material and chemical structure on emissions of criteria pollutants from a heavy-duty engine (2001) Environ Sci Technol, 35, pp. 1742-1747; Surawski, N.C., Miljevic, B., Ayoko, G.A., Elbagir, S., Stevanovic, S., Fairfull-Smith, K.E., Physicochemical characterization of particulate emissions from a compression ignition engine: The influence of biodiesel feedstock (2011) Environ Sci Technol, 45, pp. 10337-10343; Allan, R., Williams, J., Rogerson, J., Effect of the molecular structure of individual fatty acid alcohol esters (biodiesel) on the formation of Nox and particulate matter in the diesel combustion process (2008) SAE Int J Fuels Lubr, 1, pp. 849-872; Benjumea, P., Agudelo, J.R., Agudelo, A.F., Effect of the degree of unsaturation of biodiesel fuels on engine performance, combustion characteristics, and emissions (2011) Energy Fuels, 25, pp. 77-85; Karavalakis, G., Boutsika, V., Stournas, S., Bakeas, E., Biodiesel emissions profile in modern diesel vehicles. Part 2: Effect of biodiesel origin on carbonyl, PAH, nitro-PAH and oxy-PAH emissions (2011) Sci Total Environ, 409, pp. 738-747; Salamanca, M., Mondragón, F., Agudelo, J.R., Benjumea, P., Santamaría, A., Variations in the chemical composition and morphology of soot induced by the unsaturation degree of biodiesel and a biodiesel blend (2012) Combust Flame, 159, pp. 1100-1108; Pham, P.X., Bodisco, T.A., Stevanovic, S., Rahman, M.D., Wang, H., Ristovski, Z.D., Engine performance characteristics for biodiesels of different degrees of saturation and carbon chain lengths (2013) SAE Int J Fuels Lubr, 6, pp. 188-198; Jamriska, M., Morawska, L., Thomas, S., He, C., Diesel bus emissions measured in a tunnel study (2004) Environ Sci Technol, 38, pp. 6701-6709; Lapuerta, M., Armas, O., Rodriguez-Fernandez, J., Effect of biodiesel fuels on diesel engine emissions (2008) Progress in Energy and Combustion Science, 34 (2), pp. 198-223. , DOI 10.1016/j.pecs.2007.07.001, PII S0360128507000421; Surawski, N.C., Miljevic, B., Ayoko, G.A., Elbagir, S., Stevanovic, S., Fairfull-Smith, K.E., Physicochemical characterization of particulate emissions from a compression ignition engine: The influence of biodiesel feedstock (2011) Environ Sci Technol, 45, pp. 10337-10343; Pinzi, S., Rounce, P., Herreros, J.M., Tsolakis, A., Pilar Dorado, M., The effect of biodiesel fatty acid composition on combustion and diesel engine exhaust emissions (2013) Fuel, 104, pp. 170-182; Heintzenberg, J., Properties of the log-normal particle size distribution (1994) Aerosol Science and Technology, 21 (1), pp. 46-48; Shi, X., He, K., Zhang, J., Ma, Y., Ge, Y., Tan, J., A comparative study of particle size distribution from two oxygenated fuels and diesel fuel (2010) Front Environ Sci Eng China, 4, pp. 30-34; Schönborn, A., Ladommatos, N., Williams, J., Allan, R., Rogerson, J., The influence of molecular structure of fatty acid monoalkyl esters on diesel combustion (2009) Combust Flame, 156, pp. 1396-1412; Fisher, B.C., Marchese, A.J., Volckens, J., Lee, T., Collett, J.L., Measurement of gaseous and particulate emissionsfrom algae-based fatty acid methyl esters (2010) SAE Int J Fuels Lubr, 3, p. 292; Wang, J., Wu, F., Xiao, J., Shuai, S., Oxygenated blend design and its effects on reducing diesel particulate emissions (2009) Fuel, 88, pp. 2037-2045; Zhu, R., Cheung, C.S., Huang, Z., Particulate emission characteristics of a compression ignition engine Fueled with diesel-DMC blends (2011) Aerosol Sci Technol, 45, pp. 137-147; Hoekman, S.K., Robbins, C., Review of the effects of biodiesel on NOx emissions (2012) Fuel Process Technol, 96, pp. 237-249; Redel-Macías, M.D., Pinzi, S., Ruz, M.F., Cubero-Atienza, A.J., Dorado, M.P., Biodiesel from saturated and monounsaturated fatty acid methyl esters and their influence over noise and air pollution (2012) Fuel, 97, pp. 751-756; Ejim, C.E., Fleck, B.A., Amirfazli, A., Analytical study for atomization of biodiesels and their blends in a typical injector: Surface tension and viscosity effects (2007) Fuel, 86 (10-11), pp. 1534-1544. , DOI 10.1016/j.fuel.2006.11.006, PII S0016236106004546; Lee, S.-W., Tanaka, D., Kusaka, J., Daisho, Y., Effects of diesel fuel characteristics on spray and combustion in a diesel engine (2002) JSAE Review, 23 (4), pp. 407-414. , DOI 10.1016/S0389-4304(02)00221-7, PII S0389430402002217; Chen, P.-C., Wang, W.-C., Roberts, W.L., Fang, T., Spray and atomization of diesel fuel and its alternatives from a single-hole injector using a common rail fuel injection system (2013) Fuel, 103, pp. 850-861; Gilla, A.T.S.S., Herrerosb, J.M., York, A.P.E., Diesel emissions improvements through the use of biodiesel or oxygenated blending components (2011) Fuel; Rahman, M.M., Stevanovic, S., Brown, R.J., Ristovski, Z., Influence of different alternative fuels on particle emission from a turbocharged common-rail diesel engine (2013) Procedia Eng, 56, pp. 381-386
PY - 2014
Y1 - 2014
KW - Biodiesel
KW - Fuel chemical composition
KW - Fuel physical properties
KW - Particle emissions
KW - Blending
KW - Carbon
KW - Chain length
KW - Exhaust systems (engine)
KW - Fatty acids
KW - Fuels
KW - Oxygen
KW - Physical properties
KW - Carbon-chain length
KW - Chemical compositions
KW - Common-rail engines
KW - Degree of unsaturations
KW - Exhaust particles
KW - Fatty acid methyl ester
KW - Particle numbers
U2 - 10.1016/j.fuel.2014.05.053
DO - 10.1016/j.fuel.2014.05.053
M3 - Article
SN - 0016-2361
VL - 134
SP - 201
EP - 208
JO - Fuel
JF - Fuel
ER -