Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies

Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies

Concerns regarding noxious emissions from internal combustion engines have increased over the years. There is a strong need to understand the nature of sub-23 nm particles and to develop measurement techniques to evaluate the feasibility of new regulations for particle number emissions in the sub-23...

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Main Authors: Samaras, Z., Rieker, M., Papaioannou, E., van Dorp, W. F., Kousoulidou, M., Ntziachristos, L., Andersson, J., Bergmann, A., Hausberger, S., Keskinen, J., Karjalainen, P., Martikainen, S., Mamakos, A., Haisch, C., Kontses, A., Toumasatos, Z., Landl, L., Bainschab, M., Lähde, T., Piacenza, O., Kreutziger, P., Bhave, A. N., Lee, K. F., Akroyd, J., Kraft, Markus, Kazemimanesh, M., Boies, A. M., Focsa, C., Duca, D., Carpentier, Y., Pirim, C., Noble, J. A., Lancry, O., Legendre, S., Tritscher, T., Spielvogel, J., Horn, H. G., Pérez, A., Paz, S., Zarvalis, D., Melas, A., Baltzopoulou, P., Vlachos, N .D., Chasapidis, L., Deloglou, D., Daskalos, E., Tsakis, A., Konstandopoulos, A. G., Zinola, S., Di Iorio, S., Catapano, F., Vaglieco, B. M., Burtscher, H., Nicol, G., Zamora, D., Maggiore, M.
Other Authors: School of Chemical and Biomedical Engineering
Format: Article
Language:English
Published: 2022
Subjects:
Engineering::Chemical engineering
Particulate Matter
Particle Number
Online Access:https://hdl.handle.net/10356/163912
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1639122022-12-21T08:42:22Z Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies Samaras, Z. Rieker, M. Papaioannou, E. van Dorp, W. F. Kousoulidou, M. Ntziachristos, L. Andersson, J. Bergmann, A. Hausberger, S. Keskinen, J. Karjalainen, P. Martikainen, S. Mamakos, A. Haisch, C. Kontses, A. Toumasatos, Z. Landl, L. Bainschab, M. Lähde, T. Piacenza, O. Kreutziger, P. Bhave, A. N. Lee, K. F. Akroyd, J. Kraft, Markus Kazemimanesh, M. Boies, A. M. Focsa, C. Duca, D. Carpentier, Y. Pirim, C. Noble, J. A. Lancry, O. Legendre, S. Tritscher, T. Spielvogel, J. Horn, H. G. Pérez, A. Paz, S. Zarvalis, D. Melas, A. Baltzopoulou, P. Vlachos, N .D. Chasapidis, L. Deloglou, D. Daskalos, E. Tsakis, A. Konstandopoulos, A. G. Zinola, S. Di Iorio, S. Catapano, F. Vaglieco, B. M. Burtscher, H. Nicol, G. Zamora, D. Maggiore, M. School of Chemical and Biomedical Engineering Cambridge Centre for Advanced Research and Education in Singapore Engineering::Chemical engineering Particulate Matter Particle Number Concerns regarding noxious emissions from internal combustion engines have increased over the years. There is a strong need to understand the nature of sub-23 nm particles and to develop measurement techniques to evaluate the feasibility of new regulations for particle number emissions in the sub-23 nm region (down to at least 10 nm). This paper presents the results of three EU-funded projects (DownToTen, PEMs4Nano and SUREAL-23) which supported the understanding, measurement and regulation of particle emissions below 23 nm and have successfully developed sub-23 nm particle measurement devices, specifically laboratory systems and mobile devices for RDE tests. The new technology was validated in chassis dyno tests and on the real road. The results show that sub-23 nm particles are mainly generated at the engine start and during acceleration phases. The innovations show that the technology is mature and robust enough to serve as a basis for regulating sub-23 nm particles. The DownToTen project has received funding from the European Union’s Horizon 2020 research and innovation programme under agreement No 724085. The PEMs4Nano project has received funding from the European Union’s Horizon 2020 research and innovation programme under agreement No 724145. The SUREAL-23 project has received funding from the European Union’s Horizon 2020 research and innovation programme under agreement No 724136. 2022-12-21T08:42:21Z 2022-12-21T08:42:21Z 2022 Journal Article Samaras, Z., Rieker, M., Papaioannou, E., van Dorp, W. F., Kousoulidou, M., Ntziachristos, L., Andersson, J., Bergmann, A., Hausberger, S., Keskinen, J., Karjalainen, P., Martikainen, S., Mamakos, A., Haisch, C., Kontses, A., Toumasatos, Z., Landl, L., Bainschab, M., Lähde, T., ...Maggiore, M. (2022). Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies. Journal of Aerosol Science, 162, 105957-. https://dx.doi.org/10.1016/j.jaerosci.2022.105957 0021-8502 https://hdl.handle.net/10356/163912 10.1016/j.jaerosci.2022.105957 2-s2.0-85123632356 162 105957 en Journal of Aerosol Science © 2022 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Chemical engineering
Particulate Matter
Particle Number
spellingShingle Engineering::Chemical engineering
Particulate Matter
Particle Number
Samaras, Z.
Rieker, M.
Papaioannou, E.
van Dorp, W. F.
Kousoulidou, M.
Ntziachristos, L.
Andersson, J.
Bergmann, A.
Hausberger, S.
Keskinen, J.
Karjalainen, P.
Martikainen, S.
Mamakos, A.
Haisch, C.
Kontses, A.
Toumasatos, Z.
Landl, L.
Bainschab, M.
Lähde, T.
Piacenza, O.
Kreutziger, P.
Bhave, A. N.
Lee, K. F.
Akroyd, J.
Kraft, Markus
Kazemimanesh, M.
Boies, A. M.
Focsa, C.
Duca, D.
Carpentier, Y.
Pirim, C.
Noble, J. A.
Lancry, O.
Legendre, S.
Tritscher, T.
Spielvogel, J.
Horn, H. G.
Pérez, A.
Paz, S.
Zarvalis, D.
Melas, A.
Baltzopoulou, P.
Vlachos, N .D.
Chasapidis, L.
Deloglou, D.
Daskalos, E.
Tsakis, A.
Konstandopoulos, A. G.
Zinola, S.
Di Iorio, S.
Catapano, F.
Vaglieco, B. M.
Burtscher, H.
Nicol, G.
Zamora, D.
Maggiore, M.
Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
description Concerns regarding noxious emissions from internal combustion engines have increased over the years. There is a strong need to understand the nature of sub-23 nm particles and to develop measurement techniques to evaluate the feasibility of new regulations for particle number emissions in the sub-23 nm region (down to at least 10 nm). This paper presents the results of three EU-funded projects (DownToTen, PEMs4Nano and SUREAL-23) which supported the understanding, measurement and regulation of particle emissions below 23 nm and have successfully developed sub-23 nm particle measurement devices, specifically laboratory systems and mobile devices for RDE tests. The new technology was validated in chassis dyno tests and on the real road. The results show that sub-23 nm particles are mainly generated at the engine start and during acceleration phases. The innovations show that the technology is mature and robust enough to serve as a basis for regulating sub-23 nm particles.
author2 School of Chemical and Biomedical Engineering
author_facet School of Chemical and Biomedical Engineering
Samaras, Z.
Rieker, M.
Papaioannou, E.
van Dorp, W. F.
Kousoulidou, M.
Ntziachristos, L.
Andersson, J.
Bergmann, A.
Hausberger, S.
Keskinen, J.
Karjalainen, P.
Martikainen, S.
Mamakos, A.
Haisch, C.
Kontses, A.
Toumasatos, Z.
Landl, L.
Bainschab, M.
Lähde, T.
Piacenza, O.
Kreutziger, P.
Bhave, A. N.
Lee, K. F.
Akroyd, J.
Kraft, Markus
Kazemimanesh, M.
Boies, A. M.
Focsa, C.
Duca, D.
Carpentier, Y.
Pirim, C.
Noble, J. A.
Lancry, O.
Legendre, S.
Tritscher, T.
Spielvogel, J.
Horn, H. G.
Pérez, A.
Paz, S.
Zarvalis, D.
Melas, A.
Baltzopoulou, P.
Vlachos, N .D.
Chasapidis, L.
Deloglou, D.
Daskalos, E.
Tsakis, A.
Konstandopoulos, A. G.
Zinola, S.
Di Iorio, S.
Catapano, F.
Vaglieco, B. M.
Burtscher, H.
Nicol, G.
Zamora, D.
Maggiore, M.
format Article
author Samaras, Z.
Rieker, M.
Papaioannou, E.
van Dorp, W. F.
Kousoulidou, M.
Ntziachristos, L.
Andersson, J.
Bergmann, A.
Hausberger, S.
Keskinen, J.
Karjalainen, P.
Martikainen, S.
Mamakos, A.
Haisch, C.
Kontses, A.
Toumasatos, Z.
Landl, L.
Bainschab, M.
Lähde, T.
Piacenza, O.
Kreutziger, P.
Bhave, A. N.
Lee, K. F.
Akroyd, J.
Kraft, Markus
Kazemimanesh, M.
Boies, A. M.
Focsa, C.
Duca, D.
Carpentier, Y.
Pirim, C.
Noble, J. A.
Lancry, O.
Legendre, S.
Tritscher, T.
Spielvogel, J.
Horn, H. G.
Pérez, A.
Paz, S.
Zarvalis, D.
Melas, A.
Baltzopoulou, P.
Vlachos, N .D.
Chasapidis, L.
Deloglou, D.
Daskalos, E.
Tsakis, A.
Konstandopoulos, A. G.
Zinola, S.
Di Iorio, S.
Catapano, F.
Vaglieco, B. M.
Burtscher, H.
Nicol, G.
Zamora, D.
Maggiore, M.
author_sort Samaras, Z.
title Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
title_short Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
title_full Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
title_fullStr Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
title_full_unstemmed Perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
title_sort perspectives for regulating 10 nm particle number emissions based on novel measurement methodologies
publishDate 2022
url https://hdl.handle.net/10356/163912
_version_ 1753801147443838976

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