Detailed characterization of particulate matter in alcohol exhaust emissions

Research output: Chapter in Book/Report/Conference proceedingPaper in conference proceeding

Standard

Detailed characterization of particulate matter in alcohol exhaust emissions. / Shamun, Sam; Novakovic, Maja; Malmborg, Vilhelm B.; Preger, Calle; Shen, Mengqin; Messing, Maria E.; Pagels, Joakim; Tunér, Martin; Tunestål, Per.

COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers, 2017.

Research output: Chapter in Book/Report/Conference proceedingPaper in conference proceeding

Harvard

Shamun, S, Novakovic, M, Malmborg, VB, Preger, C, Shen, M, Messing, ME, Pagels, J, Tunér, M & Tunestål, P 2017, Detailed characterization of particulate matter in alcohol exhaust emissions. in COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers, 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems, COMODIA 2017, Okayama, Japan, 2017/07/25.

APA

Shamun, S., Novakovic, M., Malmborg, V. B., Preger, C., Shen, M., Messing, M. E., Pagels, J., Tunér, M., & Tunestål, P. (2017). Detailed characterization of particulate matter in alcohol exhaust emissions. In COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems Japan Society of Mechanical Engineers.

CBE

Shamun S, Novakovic M, Malmborg VB, Preger C, Shen M, Messing ME, Pagels J, Tunér M, Tunestål P. 2017. Detailed characterization of particulate matter in alcohol exhaust emissions. In COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers.

MLA

Shamun, Sam et al. "Detailed characterization of particulate matter in alcohol exhaust emissions". COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers. 2017.

Vancouver

Shamun S, Novakovic M, Malmborg VB, Preger C, Shen M, Messing ME et al. Detailed characterization of particulate matter in alcohol exhaust emissions. In COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers. 2017

Author

Shamun, Sam ; Novakovic, Maja ; Malmborg, Vilhelm B. ; Preger, Calle ; Shen, Mengqin ; Messing, Maria E. ; Pagels, Joakim ; Tunér, Martin ; Tunestål, Per. / Detailed characterization of particulate matter in alcohol exhaust emissions. COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems. Japan Society of Mechanical Engineers, 2017.

RIS

TY - GEN

T1 - Detailed characterization of particulate matter in alcohol exhaust emissions

AU - Shamun, Sam

AU - Novakovic, Maja

AU - Malmborg, Vilhelm B.

AU - Preger, Calle

AU - Shen, Mengqin

AU - Messing, Maria E.

AU - Pagels, Joakim

AU - Tunér, Martin

AU - Tunestål, Per

PY - 2017

Y1 - 2017

N2 - A way to reduce net CO2 emission and circumvent the high particle emissions from compression ignition (CI) engines, while retaining high efficiency, is by utilizing lighter alcohols in the partially premixed combustion (PPC) process. Methanol and ethanol have a very short carbon chain, and form less soot/particulate matter (PM) during combustion compared to diesel fuel. This study analyzes and compares the characteristics of PM emissions from methanol, ethanol and diesel in terms of soot mass concentration, number concentration and particle size distribution in one cylinder of a six cylinder Scania D13 heavy duty (HD) engine under two operating loads; 6 bar and 10 bar gross mean indicated effective pressure (IMEPG). An electrostatic precipitator (ESP) was used to sample PM on copper grids for transmission electron microscopy (TEM) and energy dispersive X-ray analysis. Also, new and used lubrication oil together with methanol and diesel were analyzed for their sulphur and metal content. Nucleation mode and the majority of accumulation mode particles from methanol and ethanol combustion, showed mainly Ca, S, P and Zn in the energy dispersive X-ray spectrometry (EDX) analysis and were hypothesized to be emitted mainly from the lubrication oil rather than the combustion of the fuel itself. From diesel combustion, the accumulation mode particles were more abundant in comparison with the alcohols and PM/soot emissions measured with the photo-acoustic technique were 3 to 10 times higher than for the alcohols. There were also fewer nucleation mode particles present; although they consisted of the same four abovementioned elements. Utilizing alcohols in CI engines have a great advantage regarding PM, particle number emissions and efficiency. However, the resulting nucleation mode particles need to be reduced to avoid future health concerns.

AB - A way to reduce net CO2 emission and circumvent the high particle emissions from compression ignition (CI) engines, while retaining high efficiency, is by utilizing lighter alcohols in the partially premixed combustion (PPC) process. Methanol and ethanol have a very short carbon chain, and form less soot/particulate matter (PM) during combustion compared to diesel fuel. This study analyzes and compares the characteristics of PM emissions from methanol, ethanol and diesel in terms of soot mass concentration, number concentration and particle size distribution in one cylinder of a six cylinder Scania D13 heavy duty (HD) engine under two operating loads; 6 bar and 10 bar gross mean indicated effective pressure (IMEPG). An electrostatic precipitator (ESP) was used to sample PM on copper grids for transmission electron microscopy (TEM) and energy dispersive X-ray analysis. Also, new and used lubrication oil together with methanol and diesel were analyzed for their sulphur and metal content. Nucleation mode and the majority of accumulation mode particles from methanol and ethanol combustion, showed mainly Ca, S, P and Zn in the energy dispersive X-ray spectrometry (EDX) analysis and were hypothesized to be emitted mainly from the lubrication oil rather than the combustion of the fuel itself. From diesel combustion, the accumulation mode particles were more abundant in comparison with the alcohols and PM/soot emissions measured with the photo-acoustic technique were 3 to 10 times higher than for the alcohols. There were also fewer nucleation mode particles present; although they consisted of the same four abovementioned elements. Utilizing alcohols in CI engines have a great advantage regarding PM, particle number emissions and efficiency. However, the resulting nucleation mode particles need to be reduced to avoid future health concerns.

KW - Diesel

KW - Ethanol

KW - Methanol

KW - PM

KW - TEM

M3 - Paper in conference proceeding

AN - SCOPUS:85029395542

BT - COMODIA 2017 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems

PB - Japan Society of Mechanical Engineers

T2 - 9th International Conference on Modeling and Diagnostics for Advanved Engine Systems, COMODIA 2017

Y2 - 25 July 2017 through 28 July 2017

ER -