Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology

A.M. Pourkhesalian; S. Stevanovic; F. Salimi; M.M. Rahman; H. Wang; P.X. Pham; S.E. Bottle; A.R. Masri; R.J. Brown; Z.D. Ristovski

doi:10.1021/es503160m

Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology

A.M. Pourkhesalian, S. Stevanovic, F. Salimi, M.M. Rahman, H. Wang, P.X. Pham, S.E. Bottle, A.R. Masri, R.J. Brown, Z.D. Ristovski

Research output: Contribution to journal › Article › peer-review

28 Citations (SciVal)

Original language	English
Pages (from-to)	12577-12585
Number of pages	9
Journal	Environ. Sci. Technol.
Volume	48
Issue number	21
DOIs	https://doi.org/10.1021/es503160m
Publication status	Published (VoR) - 2014

Keywords

Biodiesel
Carbon
Chain length
Chains
Diesel engines
Engines
Nanoparticles
Carbon-chain length
Chemical compositions
Effect of chemicals
Oxidative potential
Oxygenated species
Particle emissions
Particulate Matter
Reactive oxygen species
Fuels
biodiesel
carbon
carbon monoxide
diesel fuel
fuel
lubricating agent
reactive oxygen metabolite
biofuel
exhaust gas
particulate matter
assessment method
chemical composition
combustion
diesel engine
emission
molecular analysis
oxidation
saturation
volatile substance
Article
chemical structure
lipid composition
measurement error
oxidative stress
particle size
vapor pressure
analysis
chemistry
oxidation reduction reaction
volatilization
Biofuels
Molecular Structure
Oxidation-Reduction
Vehicle Emissions
Volatilization

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10.1021/es503160m

https://www.scopus.com/inward/record.uri?eid=2-s2.0-84908591005&doi=10.1021%2fes503160m&partnerID=40&md5=7a58d7acdda7425df3041d024cd28e23

Cite this

Pourkhesalian, A. M., Stevanovic, S., Salimi, F., Rahman, M. M., Wang, H., Pham, P. X., Bottle, S. E., Masri, A. R., Brown, R. J., & Ristovski, Z. D. (2014). Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology. Environ. Sci. Technol., 48(21), 12577-12585. https://doi.org/10.1021/es503160m

@article{3d129beb90cb41288447154bae5bba48,

title = "Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology",

keywords = "Biodiesel, Carbon, Chain length, Chains, Diesel engines, Engines, Nanoparticles, Carbon-chain length, Chemical compositions, Effect of chemicals, Oxidative potential, Oxygenated species, Particle emissions, Particulate Matter, Reactive oxygen species, Fuels, biodiesel, carbon, carbon monoxide, diesel fuel, fuel, lubricating agent, reactive oxygen metabolite, biofuel, exhaust gas, particulate matter, assessment method, chemical composition, combustion, diesel engine, emission, molecular analysis, oxidation, saturation, volatile substance, Article, chemical structure, lipid composition, measurement error, oxidative stress, particle size, vapor pressure, analysis, chemistry, oxidation reduction reaction, volatilization, Biofuels, Molecular Structure, Oxidation-Reduction, Vehicle Emissions, Volatilization",

author = "A.M. Pourkhesalian and S. Stevanovic and F. Salimi and M.M. Rahman and H. Wang and P.X. Pham and S.E. Bottle and A.R. Masri and R.J. Brown and Z.D. Ristovski",

note = "Cited By :24 Export Date: 17 February 2023 CODEN: ESTHA Correspondence Address: Ristovski, Z.D.; ILAQH and BERF, Australia Chemicals/CAS: carbon, 7440-44-0; carbon monoxide, 630-08-0; diesel fuel, 68334-30-5; Biofuels; Particulate Matter; Vehicle Emissions Funding details: Australian Research Council, ARC, DP1097125, DP110105535, DP120100126, DP130104904, LP110200158 References: Ma, F., Hanna, M.A., Biodiesel production: A review (1999) Bioresour. Technol., 70 (1), pp. 1-15; Li, Y., Tian, G., Xu, H., (2013) Application of Biodiesel in Automotive Diesel Engines, , Tech: Rijeka, Croatia; Demirbas, A., (2008) Biodiesel: A Realistic Fuel Alternative for Diesel Engines, , Springer: New York; Zhang, X., Peterson, C., Reece, D., Haws, R., M{\"o}ller, G., Biodegradability of biodiesel in the aquatic environment (1998) Trans. ASAE, 41 (5), pp. 1423-1430; Wang, J., Wu, F., Xiao, J., Shuai, S., Oxygenated blend design and its effects on reducing diesel particulate emissions (2009) Fuel, 88 (10), pp. 2037-2045; Graboski, M.S., McCormick, R.L., Combustion of fat and vegetable oil derived fuels in diesel engines (1998) Prog. Energy Combust. Sci., 24 (2), pp. 125-164; Song, J., Lee, K., Fuel property impacts on diesel particulate morphology, nanostructures, and NOx emissions (2007) SAE Tech. Paper, pp. 01-0129; Knothe, G., Dependence of biodiesel fuel properties on the structure of fatty acid alkyl esters (2005) Fuel Proc. Technol., 86 (10), pp. 1059-1070; Knothe, G., Sharp, C.A., Ryan, T.W., III, Exhaust emissions of biodiesel, petrodiesel, neat methyl esters, and alkanes in a new technology engine (2006) Energy Fuels, 20 (1), pp. 403-408; Cheng, C.H., Cheung, C.S., Chan, T.L., Lee, S.C., Yao, C.D., Experimental investigation on the performance, gaseous and particulate emissions of a methanol fumigated diesel engine (2008) Sci. Total Environ., 389 (1), pp. 115-124; Cheng, C.H., Cheung, C.S., Chan, T.L., Lee, S.C., Yao, C.D., Tsang, K.S., Comparison of emissions of a direct injection diesel engine operating on biodiesel with emulsified and fumigated methanol (2008) Fuel, 87 (1011), pp. 1870-1879; Cheung, K.L., Polidori, A., Ntziachristos, L., Tzamkiozis, T., Samaras, Z., Cassee, F.R., Gerlofs, M., Sioutas, C., Chemical characteristics and oxidative potential of particulate matter emissions from gasoline, diesel, and biodiesel cars (2009) Environ. Sci. Technol., 43 (16), pp. 6334-6340; Surawski, N.C., Miljevic, B., Ayoko, G.A., Roberts, B.A., Elbagir, S., Fairfull-Smith, K.E., Bottle, S.E., Ristovski, Z.D., Physicochemical characterization of particulate emissions from a compression ignition engine employing two injection technologies and three fuels (2011) Environ. Sci. Technol., 45 (13), pp. 5498-5505; Sidhu, S., Graham, J., Striebich, R., Semi-volatile and particulate emissions from the combustion of alternative diesel fuels (2001) Chemosphere, 42 (57), pp. 681-690; Kumar, P., Robins, A., Vardoulakis, S., Britter, R., A review of the characteristics of nanoparticles in the urban atmosphere and the prospects for developing regulatory controls (2010) Atmos. Environ., 44 (39), pp. 5035-5052; Benbrahim-Tallaa, L., Baan, R., Grosse, Y., Lauby-Secretan, B., El Ghissassi, F., Bouvard, V., Guha, N., Straif, K., International agency for research on cancer monograph working group. Carcinogenicity of diesel-engine and gasoline-engine exhausts and some nitroarenes (2012) Lancet Oncol., 13 (7), pp. 663-664; Tinsdale, M., Price, P., Chen, R., Impact of biodiesel on particle number, size and mass emissions from a Euro4 diesel vehicle (2010) SAE Int. J. Eng., 3 (1), pp. 597-608; Kalligeros, S., Zannikos, F., Stournas, S., Lois, E., Anastopoulos, G., Teas, C., Sakellaropoulos, F., An investigation of using biodiesel/marine diesel blends on the performance of a stationary diesel engine (2003) Biomass Bioenergy, 24 (2), pp. 141-149; Fontaras, G., Karavalakis, G., Kousoulidou, M., Tzamkiozis, T., Ntziachristos, L., Bakeas, E., Stournas, S., Samaras, Z., Effects of biodiesel on passenger car fuel consumption, regulated and non-regulated pollutant emissions over legislated and real-world driving cycles (2009) Fuel, 88 (9), pp. 1608-1617; Lee, H., Myung, C.L., Park, S., Time-resolved particle emission and size distribution characteristics during dynamic engine operation conditions with ethanol-blended fuels (2009) Fuel, 88 (9), pp. 1680-1686; Pham, P.X., Bodisco, T.A., Ristovski, Z.D., Brown, R.J., Masri, A.R., The influence of fatty acid methyl ester profiles on inter-cycle variability in a heavy duty compression ignition engine (2014) Fuel, 116 (0), pp. 140-150; Liu, Y.Y., Lin, T.C., Wang, Y.J., Ho, W.L., Biological toxicities of emissions from an unmodified engine fueled with diesel and biodiesel blend (2008) J. Environ. Sci. Health A, 43 (14), pp. 1735-1743; Surawski, N.C., Miljevic, B., Ayoko, G.A., Elbagir, S., Stevanovic, S., Fairfull-Smith, K.E., Bottle, S.E., Ristovski, Z.D., Physicochemical characterization of particulate emissions from a compression ignition engine: The influence of biodiesel feedstock (2011) Environ. Sci. Technol., 45 (24), 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 (2012) Fuel, 104, pp. 170-182; 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 (2), pp. 137-147; Kim, S., Shen, S., Sioutas, C., Zhu, Y.F., Hinds, W.C., Size distribution and diurnal and seasonal trends of ultrafine particles in source and receptor sites of the Los Angeles basin (2002) J. Air Waste Manage. Assoc., 52 (3), pp. 297-307; McClellan, R.O., Health-effects of exposure to diesel exhaust particles (1987) Ann. Rev. Pharmacol. Toxicol., 27, pp. 279-300; Giechaskiel, B., Alfoldy, B., Drossinos, Y., A metric for health effects studies of diesel exhaust particles (2009) J. Aerosol Sci., 40 (8), pp. 639-651; Stevanovic, S., Miljevic, B., Surawski, N., Fairfull-Smith, K.E., Bottle, S.E., Brown, R., Ristovski, Z.D., The influence of oxygenated organic aerosols (OOA) on the oxidative potential of diesel and biodiesel particulate matter (2013) Environ. Sci. Technol., 47 (14), pp. 7655-7662; Ristovski, Z.D., Miljevic, B., Surawski, N.C., Morawska, L., Fong, K.M., Goh, F., Yang, I.A., Respiratory health effects of diesel particulate matter (2012) Respirology, 17 (2), pp. 201-212; Li, Q., Wyatt, A., Kamens, R.M., Oxidant generation and toxicity enhancement of aged-diesel exhaust (2009) Atmos. Environ., 43 (5), pp. 1037-1042; Shinyashiki, M., Eiguren-Fernandez, A., Schmitz, D.A., Di Stefano, E., Li, N., Linak, W.P., Cho, S.H., Cho, A.K., Electrophilic and redox properties of diesel exhaust particles (2009) Environ. Res., 109 (3), pp. 239-244; Jalava, P.I., Tapanainen, M., Kuuspalo, K., Markkanen, A., Hakulinen, P., Happo, M.S., Pennanen, A.S., Hirvonen, M.R., Toxicological effects of emission particles from fossil- and biodiesel-fueled diesel engine with and without DOC/POC catalytic converter (2010) Inhal. Toxicol., 22, pp. 48-58; Kipen, H.M., Gandhi, S., Rich, D.Q., Ohman-Strickland, P., Laumbach, R., Fan, Z.H., Chen, L., Madura, K., Acute decreases in proteasome pathway activity after inhalation of fresh diesel exhaust or secondary organic aerosol (2011) Environ. 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year = "2014",

doi = "10.1021/es503160m",

language = "English",

volume = "48",

pages = "12577--12585",

journal = "Environ. Sci. Technol.",

issn = "0013-936X",

publisher = "American Chemical Society",

number = "21",

}

Pourkhesalian, AM, Stevanovic, S, Salimi, F, Rahman, MM, Wang, H, Pham, PX, Bottle, SE, Masri, AR, Brown, RJ & Ristovski, ZD 2014, 'Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology', Environ. Sci. Technol., vol. 48, no. 21, pp. 12577-12585. https://doi.org/10.1021/es503160m

TY - JOUR

T1 - Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter

T2 - Environmental Science and Technology

AU - Pourkhesalian, A.M.

AU - Stevanovic, S.

AU - Salimi, F.

AU - Rahman, M.M.

AU - Wang, H.

AU - Pham, P.X.

AU - Bottle, S.E.

AU - Masri, A.R.

AU - Brown, R.J.

AU - Ristovski, Z.D.

N1 - Cited By :24 Export Date: 17 February 2023 CODEN: ESTHA Correspondence Address: Ristovski, Z.D.; ILAQH and BERF, Australia Chemicals/CAS: carbon, 7440-44-0; carbon monoxide, 630-08-0; diesel fuel, 68334-30-5; Biofuels; Particulate Matter; Vehicle Emissions Funding details: Australian Research Council, ARC, DP1097125, DP110105535, DP120100126, DP130104904, LP110200158 References: Ma, F., Hanna, M.A., Biodiesel production: A review (1999) Bioresour. Technol., 70 (1), pp. 1-15; Li, Y., Tian, G., Xu, H., (2013) Application of Biodiesel in Automotive Diesel Engines, , Tech: Rijeka, Croatia; Demirbas, A., (2008) Biodiesel: A Realistic Fuel Alternative for Diesel Engines, , Springer: New York; Zhang, X., Peterson, C., Reece, D., Haws, R., Möller, G., Biodegradability of biodiesel in the aquatic environment (1998) Trans. ASAE, 41 (5), pp. 1423-1430; Wang, J., Wu, F., Xiao, J., Shuai, S., Oxygenated blend design and its effects on reducing diesel particulate emissions (2009) Fuel, 88 (10), pp. 2037-2045; Graboski, M.S., McCormick, R.L., Combustion of fat and vegetable oil derived fuels in diesel engines (1998) Prog. Energy Combust. Sci., 24 (2), pp. 125-164; Song, J., Lee, K., Fuel property impacts on diesel particulate morphology, nanostructures, and NOx emissions (2007) SAE Tech. Paper, pp. 01-0129; Knothe, G., Dependence of biodiesel fuel properties on the structure of fatty acid alkyl esters (2005) Fuel Proc. Technol., 86 (10), pp. 1059-1070; Knothe, G., Sharp, C.A., Ryan, T.W., III, Exhaust emissions of biodiesel, petrodiesel, neat methyl esters, and alkanes in a new technology engine (2006) Energy Fuels, 20 (1), pp. 403-408; Cheng, C.H., Cheung, C.S., Chan, T.L., Lee, S.C., Yao, C.D., Experimental investigation on the performance, gaseous and particulate emissions of a methanol fumigated diesel engine (2008) Sci. Total Environ., 389 (1), pp. 115-124; Cheng, C.H., Cheung, C.S., Chan, T.L., Lee, S.C., Yao, C.D., Tsang, K.S., Comparison of emissions of a direct injection diesel engine operating on biodiesel with emulsified and fumigated methanol (2008) Fuel, 87 (1011), pp. 1870-1879; Cheung, K.L., Polidori, A., Ntziachristos, L., Tzamkiozis, T., Samaras, Z., Cassee, F.R., Gerlofs, M., Sioutas, C., Chemical characteristics and oxidative potential of particulate matter emissions from gasoline, diesel, and biodiesel cars (2009) Environ. Sci. Technol., 43 (16), pp. 6334-6340; Surawski, N.C., Miljevic, B., Ayoko, G.A., Roberts, B.A., Elbagir, S., Fairfull-Smith, K.E., Bottle, S.E., Ristovski, Z.D., Physicochemical characterization of particulate emissions from a compression ignition engine employing two injection technologies and three fuels (2011) Environ. Sci. Technol., 45 (13), pp. 5498-5505; Sidhu, S., Graham, J., Striebich, R., Semi-volatile and particulate emissions from the combustion of alternative diesel fuels (2001) Chemosphere, 42 (57), pp. 681-690; Kumar, P., Robins, A., Vardoulakis, S., Britter, R., A review of the characteristics of nanoparticles in the urban atmosphere and the prospects for developing regulatory controls (2010) Atmos. Environ., 44 (39), pp. 5035-5052; Benbrahim-Tallaa, L., Baan, R., Grosse, Y., Lauby-Secretan, B., El Ghissassi, F., Bouvard, V., Guha, N., Straif, K., International agency for research on cancer monograph working group. Carcinogenicity of diesel-engine and gasoline-engine exhausts and some nitroarenes (2012) Lancet Oncol., 13 (7), pp. 663-664; Tinsdale, M., Price, P., Chen, R., Impact of biodiesel on particle number, size and mass emissions from a Euro4 diesel vehicle (2010) SAE Int. J. Eng., 3 (1), pp. 597-608; Kalligeros, S., Zannikos, F., Stournas, S., Lois, E., Anastopoulos, G., Teas, C., Sakellaropoulos, F., An investigation of using biodiesel/marine diesel blends on the performance of a stationary diesel engine (2003) Biomass Bioenergy, 24 (2), pp. 141-149; Fontaras, G., Karavalakis, G., Kousoulidou, M., Tzamkiozis, T., Ntziachristos, L., Bakeas, E., Stournas, S., Samaras, Z., Effects of biodiesel on passenger car fuel consumption, regulated and non-regulated pollutant emissions over legislated and real-world driving cycles (2009) Fuel, 88 (9), pp. 1608-1617; Lee, H., Myung, C.L., Park, S., Time-resolved particle emission and size distribution characteristics during dynamic engine operation conditions with ethanol-blended fuels (2009) Fuel, 88 (9), pp. 1680-1686; Pham, P.X., Bodisco, T.A., Ristovski, Z.D., Brown, R.J., Masri, A.R., The influence of fatty acid methyl ester profiles on inter-cycle variability in a heavy duty compression ignition engine (2014) Fuel, 116 (0), pp. 140-150; Liu, Y.Y., Lin, T.C., Wang, Y.J., Ho, W.L., Biological toxicities of emissions from an unmodified engine fueled with diesel and biodiesel blend (2008) J. Environ. Sci. Health A, 43 (14), pp. 1735-1743; Surawski, N.C., Miljevic, B., Ayoko, G.A., Elbagir, S., Stevanovic, S., Fairfull-Smith, K.E., Bottle, S.E., Ristovski, Z.D., Physicochemical characterization of particulate emissions from a compression ignition engine: The influence of biodiesel feedstock (2011) Environ. Sci. Technol., 45 (24), 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 (2012) Fuel, 104, pp. 170-182; 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 (2), pp. 137-147; Kim, S., Shen, S., Sioutas, C., Zhu, Y.F., Hinds, W.C., Size distribution and diurnal and seasonal trends of ultrafine particles in source and receptor sites of the Los Angeles basin (2002) J. Air Waste Manage. 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PY - 2014

Y1 - 2014

KW - Biodiesel

KW - Carbon

KW - Chain length

KW - Chains

KW - Diesel engines

KW - Engines

KW - Nanoparticles

KW - Carbon-chain length

KW - Chemical compositions

KW - Effect of chemicals

KW - Oxidative potential

KW - Oxygenated species

KW - Particle emissions

KW - Particulate Matter

KW - Reactive oxygen species

KW - Fuels

KW - biodiesel

KW - carbon

KW - carbon monoxide

KW - diesel fuel

KW - fuel

KW - lubricating agent

KW - reactive oxygen metabolite

KW - biofuel

KW - exhaust gas

KW - particulate matter

KW - assessment method

KW - chemical composition

KW - combustion

KW - diesel engine

KW - emission

KW - molecular analysis

KW - oxidation

KW - saturation

KW - volatile substance

KW - Article

KW - chemical structure

KW - lipid composition

KW - measurement error

KW - oxidative stress

KW - particle size

KW - vapor pressure

KW - analysis

KW - chemistry

KW - oxidation reduction reaction

KW - volatilization

KW - Biofuels

KW - Molecular Structure

KW - Oxidation-Reduction

KW - Vehicle Emissions

KW - Volatilization

U2 - 10.1021/es503160m

DO - 10.1021/es503160m

M3 - Article

SN - 0013-936X

VL - 48

SP - 12577

EP - 12585

JO - Environ. Sci. Technol.

JF - Environ. Sci. Technol.

IS - 21

ER -

Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter: Environmental Science and Technology

Keywords

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