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International Journal of Occupational Safety and Ergonomics Volume 28, 2022 - Issue 1
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Articles

Effects of clothing size and air ventilation rate on cooling performance of air ventilation clothing in a warm condition

Jie Yanga College of Safety Science and Engineering, Xi’an University of Science and Technology, China;b Events and Hospitality Management (AESHM), Iowa State University, USA
,
Faming Wangc School of Architecture and Art, Central South University, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-2945-4685
ORCID Icon,
Guowen Songb Events and Hospitality Management (AESHM), Iowa State University, USA
,
Rui Lib Events and Hospitality Management (AESHM), Iowa State University, USAORCID Iconhttps://orcid.org/0000-0002-5161-2109
ORCID Icon &
Uday Rajd Department of Mechanical Engineering, Indian Institute of Technology Bhilai, India
Pages 354-363 | Published online: 02 Jul 2020

Citations (24)

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Mengmeng Zhao, Jie Yang, Faming Wang, Udayraj & Wing Ching Chan. (2023) The cooling performance of forced air ventilation garments in a warm environment: the effect of clothing eyelet designs. The Journal of The Textile Institute 114:3, pages 378-387.
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Articles from other publishers (23)

Elnaz Rahimi, Aziz Babapoor, Gholamreza Moradi, Saba Kalantari & Mohammadreza Monazzam Esmaeelpour. (2024) Personal cooling garments and phase change materials: A review. Renewable and Sustainable Energy Reviews 190, pages 114063.
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Zhe Li, Bing'an Pan, Bin Yang, Bin Zhou & Faming Wang. (2023) Heat stress mitigation with ice cooling vests in PPE-clad medical workers: Effects of cooling area and gender differences. Building and Environment 245, pages 110943.
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Yifan Ding, Zhaohua Zhang & Zhirui Chen. (2023) Effect of local ventilation temperature and speed under garments on the thermal response of humans at different metabolic rates. Applied Ergonomics 113, pages 104102.
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Junming Zhou, Jinming Zhao, Xiaolei Guo, Yuxing Hu, Xiaofeng Niu & Faming Wang. (2023) Personal Wearable Thermal and Moisture Management Clothing: A Review on Its Recent Trends and Performance Evaluation Methods. Processes 11:11, pages 3063.
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Wanwan Wang & Mengmeng Zhao. (2023) Design of Liquid–Air Hybrid Cooling Garment and Its Effect on Local Thermal Comfort. Applied Sciences 13:16, pages 9414.
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Bhoopendra Choudhary & Udayraj. (2023) Effectiveness of air ventilation clothing in hot and humid environment for decreasing and intermittent activity scenarios. Building and Environment 239, pages 110436.
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Mengmeng Zhao, Chuansi Gao & Min Wang. (2023) Development of Air Ventilation Garments with Small Fan Panels to Improve Thermal Comfort. Sustainability 15:11, pages 8452.
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Chenyu Fan, Zhaohua Zhang & Luyao Li. (2023) Sensitivity and preference of local airflows beneath garments with personalised temperatures and velocities. Building and Environment 234, pages 110128.
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Fateme Sayanjali, Nazanin Ezazshahabi & Fatemeh Mousazadegan. (2022) Assessment of the influence of weave structure, wind speed and garment size on the ventilation of simulated garment. International Journal of Clothing Science and Technology 35:1, pages 135-151.
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Ken Tokizawa. (2023) Effects of wetted inner clothing on thermal strain in young and older males while wearing ventilation garments. Frontiers in Physiology 14.
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Bhoopendra Choudhary & Udayraj. (2023) Local and overall convective heat transfer coefficients for human body with air ventilation clothing: Parametric study and correlations. Building and Environment 229, pages 109953.
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Faming Wang. 2023. Personal Comfort Systems for Improving Indoor Thermal Comfort and Air Quality. Personal Comfort Systems for Improving Indoor Thermal Comfort and Air Quality 245 263 .
Song Ren, Mengyao Han & Jian Fang. (2022) Personal Cooling Garments: A Review. Polymers 14:24, pages 5522.
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M. V. Rodicheva, E. Ya. Surzhenko & A. V. Abramov. (2023) Simulation of Heat Transfer in Packages of Materials with Ventilated Air Gaps on the Example of Clothing for Greenhouse Workers. Fibre Chemistry 54:4, pages 263-267.
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Xingming Wang, Yutao Zhang, Yiming Huang & Jie Yang. (2022) Development and validation of an individualized predicted heat strain model for simulating physiological responses in various conditions. Building and Environment 214, pages 108922.
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Mengmeng Zhao, Faming Wang, Chuansi Gao, Zhaoli Wang & Jun Li. (2021) The Effect of Flow Rate of a Short Sleeve Air Ventilation Garment on Torso Thermal Comfort in a Moderate Environment. Fibers and Polymers 23:2, pages 546-553.
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Kimiyo Mori, Chikage Nagano, Kimie Fukuzawa, Natsuko Hoshuyama, Riho Tanaka, Kento Nishi, Kahori Hashimoto & Seichi Horie. (2022) Mitigation of heat strain by wearing a long‐sleeve fan‐attached jacket in a hot or humid environment. Journal of Occupational Health 64:1.
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Simona Del Ferraro, Tiziana Falcone, Marco Morabito, Alessandro Messeri, Michela Bonafede, Alessandro Marinaccio, Chuansi Gao & Vincenzo Molinaro. (2021) Cooling garments against environmental heat conditions in occupational fields: measurements of the effect of a ventilation jacket on the total thermal insulation. International Journal of Industrial Ergonomics 86, pages 103230.
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Kahori Hashimoto, Seichi Horie, Chikage Nagano, Hiroyuki Hibino, Kimiyo Mori, Kimie Fukuzawa, Masashi Nakayama, Hiroyuki Tanaka & Jinro Inoue. (2021) A fan-attached jacket worn in an environment exceeding body temperature suppresses an increase in core temperature. Scientific Reports 11:1.
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Anna Dąbrowska, Monika Kobus, Bartosz Pękosławski & Łukasz Starzak. (2021) A Comparative Analysis of Thermoelectric Modules for the Purpose of Ensuring Thermal Comfort in Protective Clothing. Applied Sciences 11:17, pages 8068.
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Bin Yang, Xin Ding, Faming Wang & Angui Li. (2021) A review of intensified conditioning of personal micro-environments: Moving closer to the human body. Energy and Built Environment 2:3, pages 260-270.
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Xiao Li, Bo Kuai, Xikai Tu, Jiahao Tan & Xuan Zhou. (2021) Three-dimensional analysis model of electric heating fabrics considering the skin metabolism. Journal of Engineered Fibers and Fabrics 16, pages 155892502110479.
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Faming Wang, Ying Ke, Udayraj, Bin Yang, Pengjun Xu & Nuruzzaman Noor. (2020) Effect of cooling strategies on overall performance of a hybrid personal cooling system incorporated with phase change materials (PCMs) and electric fans. Journal of Thermal Biology 92, pages 102655.
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