China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit

Yachao Wang; Sheng Su; Yitu Lai; Wanyou Luo; Pan Hou; Tao Lyu; Yunshan Ge

doi:10.1016/j.envint.2023.108306

China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit

Yachao Wang, Sheng Su^*, Yitu Lai, Wanyou Luo, Pan Hou, Tao Lyu, Yunshan Ge

^*Corresponding author for this work

School of Mechanical Engineering

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

1 Citation (Scopus)

Abstract

Particles larger than 10 nm from engine exhaust are gaining global concerns. In light of this, to investigate how EGR affects gasoline vehicle SPN10 (solid particles larger than 10 nm) emissions, seven gasoline vehicles (hybrid or conventional) were studied experimentally. The results revealed that EGR vehicles risk failing the current limit (6 * 10¹¹ #/km) more than those without EGR if the cut-off size was tightened from 23 nm to 10 nm. More specifically, during the WLTC test, EGR increased the SPN10 emission factors by 2 ∼ 3 times depending on vehicle powertrains (conventional or hybrid). Notably, SPN10 emissions increased significantly when EGR was actively engaged but showed a decrease when the EGR rate remained constant. EGR and the enriched fuel–air mixture are the critical reasons for the increased SPN10.

Original language	English
Article number	108306
Journal	Environment International
Volume	181
DOIs	https://doi.org/10.1016/j.envint.2023.108306
Publication status	Published - Nov 2023

Keywords

China 6 vehicles
Exhaust gas recirculation (EGR)
GPF
SPN10

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10.1016/j.envint.2023.108306

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title = "China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit",

abstract = "Particles larger than 10 nm from engine exhaust are gaining global concerns. In light of this, to investigate how EGR affects gasoline vehicle SPN10 (solid particles larger than 10 nm) emissions, seven gasoline vehicles (hybrid or conventional) were studied experimentally. The results revealed that EGR vehicles risk failing the current limit (6 * 1011 #/km) more than those without EGR if the cut-off size was tightened from 23 nm to 10 nm. More specifically, during the WLTC test, EGR increased the SPN10 emission factors by 2 ∼ 3 times depending on vehicle powertrains (conventional or hybrid). Notably, SPN10 emissions increased significantly when EGR was actively engaged but showed a decrease when the EGR rate remained constant. EGR and the enriched fuel–air mixture are the critical reasons for the increased SPN10.",

keywords = "China 6 vehicles, Exhaust gas recirculation (EGR), GPF, SPN10",

author = "Yachao Wang and Sheng Su and Yitu Lai and Wanyou Luo and Pan Hou and Tao Lyu and Yunshan Ge",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = nov,

doi = "10.1016/j.envint.2023.108306",

language = "English",

volume = "181",

journal = "Environment International",

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T1 - China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit

AU - Wang, Yachao

AU - Su, Sheng

AU - Lai, Yitu

AU - Luo, Wanyou

AU - Hou, Pan

AU - Lyu, Tao

AU - Ge, Yunshan

PY - 2023/11

Y1 - 2023/11

N2 - Particles larger than 10 nm from engine exhaust are gaining global concerns. In light of this, to investigate how EGR affects gasoline vehicle SPN10 (solid particles larger than 10 nm) emissions, seven gasoline vehicles (hybrid or conventional) were studied experimentally. The results revealed that EGR vehicles risk failing the current limit (6 * 1011 #/km) more than those without EGR if the cut-off size was tightened from 23 nm to 10 nm. More specifically, during the WLTC test, EGR increased the SPN10 emission factors by 2 ∼ 3 times depending on vehicle powertrains (conventional or hybrid). Notably, SPN10 emissions increased significantly when EGR was actively engaged but showed a decrease when the EGR rate remained constant. EGR and the enriched fuel–air mixture are the critical reasons for the increased SPN10.

AB - Particles larger than 10 nm from engine exhaust are gaining global concerns. In light of this, to investigate how EGR affects gasoline vehicle SPN10 (solid particles larger than 10 nm) emissions, seven gasoline vehicles (hybrid or conventional) were studied experimentally. The results revealed that EGR vehicles risk failing the current limit (6 * 1011 #/km) more than those without EGR if the cut-off size was tightened from 23 nm to 10 nm. More specifically, during the WLTC test, EGR increased the SPN10 emission factors by 2 ∼ 3 times depending on vehicle powertrains (conventional or hybrid). Notably, SPN10 emissions increased significantly when EGR was actively engaged but showed a decrease when the EGR rate remained constant. EGR and the enriched fuel–air mixture are the critical reasons for the increased SPN10.

KW - China 6 vehicles

KW - Exhaust gas recirculation (EGR)

KW - GPF

KW - SPN10

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VL - 181

JO - Environment International

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China 6 EGR gasoline vehicles without a GPF may struggle to meet the potential SPN10 limit

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Keywords

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