Experimental evaluation of the impact of ventilation on cooking-generated fine particulate matter in a Chinese apartment kitchen and adjacent room

Xiangang Xu; Ke Hu; Yingxin Zhang; Jiankai Dong; Chong Meng; Shengyuan Ma; Zhi Liu

doi:10.1016/j.envpol.2024.123821

Experimental evaluation of the impact of ventilation on cooking-generated fine particulate matter in a Chinese apartment kitchen and adjacent room

Xiangang Xu
, Ke Hu
, Yingxin Zhang
, Jiankai Dong^*
, Chong Meng
, Shengyuan Ma
, Zhi Liu

^*Corresponding author for this work

State Key Laboratory of Building Safety and Built Environment & National Engineering Research Center of Building Technology
Harbin institute of technology
Ltd.

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

18 Scopus citations

Abstract

Cooking is one of the major contributors to indoor pollution. Fine particulate matter (PM_2.5) produced during cooking commonly mix into adjacent rooms and elevates indoor PM_2.5 concentrations. The risk of human exposure to cooking-generated PM_2.5 is mainly related to the exposure duration and particulate matter (PM) concentration. The PM_2.5 concentration is influenced by cooking methods and ventilation patterns. Range hoods and open windows are conventional strategies for lowering the concentration of cooking-generated particles. To decrease PM emissions, kitchen air supply systems have been proposed, providing alternative possibilities for kitchen ventilation patterns. The effects of cooking methods, air supply systems, range hoods, and windows on PM_2.5 concentrations must be analyzed and compared. To understand and provide advice on reducing exposure to PM_2.5 due to cooking activities, we measured the PM_2.5 mass concentration in a kitchen and adjacent room during cooking. The identified factors, including cooking method, range hood use, window status, and air supply system, were varied based on orthogonal design. The delay time between the PM_2.5 peak in the kitchen and that in the adjacent room was determined. The degree of exposure risk for cooking-generated PM_2.5 was evaluated using the mean exposure dose. The results indicated that the mean PM_2.5 mass concentration in the kitchen ranged from 22 to 2296 μg/m³. In descending order, the factors affecting the indoor PM_2.5 concentration in the apartment studied were range hood use, cooking methods, window status, and air supply system. The PM_2.5 peak in the adjacent room occurred 200–800 s later than that in the kitchen. Other conditions being constant in these experiments, the use of range hoods, air supply systems, and windows reduce exposure doses by 90%, 37%, and 51%, respectively. These research results provide insights for reducing human exposure to cooking-generated PM_2.5.

Original language	English
Article number	123821
Journal	Environmental Pollution
Volume	348
DOIs	https://doi.org/10.1016/j.envpol.2024.123821
State	Published - 1 May 2024
Externally published	Yes

Keywords

Adjacent room
Air supply
Cooking
Range hood

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10.1016/j.envpol.2024.123821

Cite this

@article{defe698882cc496ab9370cee0d6219ec,

title = "Experimental evaluation of the impact of ventilation on cooking-generated fine particulate matter in a Chinese apartment kitchen and adjacent room",

abstract = "Cooking is one of the major contributors to indoor pollution. Fine particulate matter (PM2.5) produced during cooking commonly mix into adjacent rooms and elevates indoor PM2.5 concentrations. The risk of human exposure to cooking-generated PM2.5 is mainly related to the exposure duration and particulate matter (PM) concentration. The PM2.5 concentration is influenced by cooking methods and ventilation patterns. Range hoods and open windows are conventional strategies for lowering the concentration of cooking-generated particles. To decrease PM emissions, kitchen air supply systems have been proposed, providing alternative possibilities for kitchen ventilation patterns. The effects of cooking methods, air supply systems, range hoods, and windows on PM2.5 concentrations must be analyzed and compared. To understand and provide advice on reducing exposure to PM2.5 due to cooking activities, we measured the PM2.5 mass concentration in a kitchen and adjacent room during cooking. The identified factors, including cooking method, range hood use, window status, and air supply system, were varied based on orthogonal design. The delay time between the PM2.5 peak in the kitchen and that in the adjacent room was determined. The degree of exposure risk for cooking-generated PM2.5 was evaluated using the mean exposure dose. The results indicated that the mean PM2.5 mass concentration in the kitchen ranged from 22 to 2296 μg/m3. In descending order, the factors affecting the indoor PM2.5 concentration in the apartment studied were range hood use, cooking methods, window status, and air supply system. The PM2.5 peak in the adjacent room occurred 200–800 s later than that in the kitchen. Other conditions being constant in these experiments, the use of range hoods, air supply systems, and windows reduce exposure doses by 90\%, 37\%, and 51\%, respectively. These research results provide insights for reducing human exposure to cooking-generated PM2.5.",

keywords = "Adjacent room, Air supply, Cooking, Range hood",

author = "Xiangang Xu and Ke Hu and Yingxin Zhang and Jiankai Dong and Chong Meng and Shengyuan Ma and Zhi Liu",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Ltd",

year = "2024",

month = may,

day = "1",

doi = "10.1016/j.envpol.2024.123821",

language = "英语",

volume = "348",

journal = "Environmental Pollution",

issn = "0269-7491",

publisher = "Elsevier Ltd",

}

TY - JOUR

T1 - Experimental evaluation of the impact of ventilation on cooking-generated fine particulate matter in a Chinese apartment kitchen and adjacent room

AU - Xu, Xiangang

AU - Hu, Ke

AU - Zhang, Yingxin

AU - Dong, Jiankai

AU - Meng, Chong

AU - Ma, Shengyuan

AU - Liu, Zhi

PY - 2024/5/1

Y1 - 2024/5/1

N2 - Cooking is one of the major contributors to indoor pollution. Fine particulate matter (PM2.5) produced during cooking commonly mix into adjacent rooms and elevates indoor PM2.5 concentrations. The risk of human exposure to cooking-generated PM2.5 is mainly related to the exposure duration and particulate matter (PM) concentration. The PM2.5 concentration is influenced by cooking methods and ventilation patterns. Range hoods and open windows are conventional strategies for lowering the concentration of cooking-generated particles. To decrease PM emissions, kitchen air supply systems have been proposed, providing alternative possibilities for kitchen ventilation patterns. The effects of cooking methods, air supply systems, range hoods, and windows on PM2.5 concentrations must be analyzed and compared. To understand and provide advice on reducing exposure to PM2.5 due to cooking activities, we measured the PM2.5 mass concentration in a kitchen and adjacent room during cooking. The identified factors, including cooking method, range hood use, window status, and air supply system, were varied based on orthogonal design. The delay time between the PM2.5 peak in the kitchen and that in the adjacent room was determined. The degree of exposure risk for cooking-generated PM2.5 was evaluated using the mean exposure dose. The results indicated that the mean PM2.5 mass concentration in the kitchen ranged from 22 to 2296 μg/m3. In descending order, the factors affecting the indoor PM2.5 concentration in the apartment studied were range hood use, cooking methods, window status, and air supply system. The PM2.5 peak in the adjacent room occurred 200–800 s later than that in the kitchen. Other conditions being constant in these experiments, the use of range hoods, air supply systems, and windows reduce exposure doses by 90%, 37%, and 51%, respectively. These research results provide insights for reducing human exposure to cooking-generated PM2.5.

AB - Cooking is one of the major contributors to indoor pollution. Fine particulate matter (PM2.5) produced during cooking commonly mix into adjacent rooms and elevates indoor PM2.5 concentrations. The risk of human exposure to cooking-generated PM2.5 is mainly related to the exposure duration and particulate matter (PM) concentration. The PM2.5 concentration is influenced by cooking methods and ventilation patterns. Range hoods and open windows are conventional strategies for lowering the concentration of cooking-generated particles. To decrease PM emissions, kitchen air supply systems have been proposed, providing alternative possibilities for kitchen ventilation patterns. The effects of cooking methods, air supply systems, range hoods, and windows on PM2.5 concentrations must be analyzed and compared. To understand and provide advice on reducing exposure to PM2.5 due to cooking activities, we measured the PM2.5 mass concentration in a kitchen and adjacent room during cooking. The identified factors, including cooking method, range hood use, window status, and air supply system, were varied based on orthogonal design. The delay time between the PM2.5 peak in the kitchen and that in the adjacent room was determined. The degree of exposure risk for cooking-generated PM2.5 was evaluated using the mean exposure dose. The results indicated that the mean PM2.5 mass concentration in the kitchen ranged from 22 to 2296 μg/m3. In descending order, the factors affecting the indoor PM2.5 concentration in the apartment studied were range hood use, cooking methods, window status, and air supply system. The PM2.5 peak in the adjacent room occurred 200–800 s later than that in the kitchen. Other conditions being constant in these experiments, the use of range hoods, air supply systems, and windows reduce exposure doses by 90%, 37%, and 51%, respectively. These research results provide insights for reducing human exposure to cooking-generated PM2.5.

KW - Adjacent room

KW - Air supply

KW - Cooking

KW - Range hood

UR - https://www.scopus.com/pages/publications/85189751444

U2 - 10.1016/j.envpol.2024.123821

DO - 10.1016/j.envpol.2024.123821

M3 - 文章

C2 - 38521392

AN - SCOPUS:85189751444

SN - 0269-7491

VL - 348

JO - Environmental Pollution

JF - Environmental Pollution

M1 - 123821

ER -

Experimental evaluation of the impact of ventilation on cooking-generated fine particulate matter in a Chinese apartment kitchen and adjacent room

Abstract

Keywords

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