Analysis of air gap volume in structural firefighter turnout suit constructions in relation to heat loss

McQuerry, Meredith; DenHartog, Emiel; Barker, Roger L.

doi:10.1177/0040517517723024

Cited by 22 publications

(37 citation statements)

References 22 publications

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“…Oversized, heavy, ill-fitting protective garments also create larger air gaps within the clothing microclimate or the atmosphere between the body and the garment (Havenith, 2001; Frackiewicz-Kaczmarek et al , 2015). As these gaps of air thicken or increase in size, clothing insulation also increases, thereby reducing heat transfer and effective evaporation of sweat leading to overheating (Havenith, 2001; Bouskill et al , 2002; McQuerry et al , 2017). Areas of the turnout suit that are oversized and bulky not only elevate the risk of trips and falls but also increase the thermal and evaporative resistance as heat must travel farther away from the body to be effectively released through the clothing ensemble to the external environment (Havenith, 2001; McQuerry et al , 2017).…”

Section: Influence Of Personal Protective Equipment On Female Firefighter Performancementioning

confidence: 99%

“…As these gaps of air thicken or increase in size, clothing insulation also increases, thereby reducing heat transfer and effective evaporation of sweat leading to overheating (Havenith, 2001; Bouskill et al , 2002; McQuerry et al , 2017). Areas of the turnout suit that are oversized and bulky not only elevate the risk of trips and falls but also increase the thermal and evaporative resistance as heat must travel farther away from the body to be effectively released through the clothing ensemble to the external environment (Havenith, 2001; McQuerry et al , 2017). For female firefighters who often select oversized turnout gear, to accommodate their bust and hips, large air gaps due to excessive bulk may be prominent throughout their clothing microclimate.…”

Section: Influence Of Personal Protective Equipment On Female Firefighter Performancementioning

confidence: 99%

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A critical review of female firefighter protective clothing and equipment workplace challenges

McQuerry

Kwon

Johnson

2019

RJTA

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Purpose The purpose of this paper is to identify the challenging barriers faced by female firefighters, which limit workplace entrance and performance. Design/methodology/approach Occupational barriers from both psychological and physiological viewpoints were explored based on previous literature and the reported experiences of female firefighters. Findings A comprehensive review of literature synthesizes previous studies pertaining to gender anthropometric differences, female firefighters’ experiences in the work environment and protective clothing issues. The physical capabilities of men and women in specific relation to performing firefighting activities are also examined. Issues of greatest concern are identified for personal protective clothing (PPC) and equipment, which have traditionally been designed for the male human form. This leads to a lack of protection, an increased risk of onsite injury, reduction in mobility and poorer comfort for female firefighters. Originality/value This review provides an original overview of the critical workplace challenges faced by female firefighters. The need for female-specific PPC and equipment is specifically addressed to retain the growing number of women entering the male-dominated firefighting profession.

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Section: Influence Of Personal Protective Equipment On Female Firefighter Performancementioning

confidence: 99%

Section: Influence Of Personal Protective Equipment On Female Firefighter Performancementioning

confidence: 99%

A critical review of female firefighter protective clothing and equipment workplace challenges

McQuerry

Kwon

Johnson

2019

RJTA

Self Cite

View full text Add to dashboard Cite

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“…Microclimate has a very important role in the thermal regulation of any clothing system. [12][13][14] Since microclimate is affected by many factors like continuously changing ambient environment, thermophysiological properties of the relevant body element, and characteristics of the clothing, therefore complex thermal transportation phenomenon exist in microclimate. Previously, many thermal simulation methods for the human body-clothing-environment system have been proposed based on the principle that either the air gap underneath the clothing has a constant thickness or does not exist.…”

Section: Introductionmentioning

confidence: 99%

A validation study on the thermal simulation of the human body-clothing-environment system through wear trials

Awais

Krzywinski

Wölfling

et al. 2021

Journal of Engineered Fibers and Fabrics

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The following analysis deals with the validation study for the already published thermal simulation of the human body-clothing-environment system through wear trials. Three test persons and a clothing system were selected for this study. The simulation process chain includes 3D scanning, clothing fit considering the deformation properties of fabrics, 3D analysis of air gaps between skin and clothing, and thermophysiological analysis of the human body taking into account different metabolic rates. Moreover, subjective wear trials were performed in a climatic chamber to validate the simulation results. The results show good validation for the core body and mean skin temperature, however, discrepancies were observed on comparing the local skin temperatures. The presented simulation approach offers a holistic solution for product development in the areas of sportswear, workwear, outdoor, and protective clothing.

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“…According to that, the dry heat loss from the body is a combination of both the resistance provided by the clothing and from the entrapped microclimatic air, apropos the heat transferred by the exposed skin and the heat passing through the clothing [11]. The garment fit and resultant air volume is a crucial factor in determining thermal insulation value of clothing ensembles [5,[12][13][14]. The thermal insulation will increase almost linearly with air gap amplification, as long no convection is present [5,15,16].…”

Section: Introductionmentioning

confidence: 99%

The Volumetric Analysis of the Human Body as Starting Point for Clothing Pattern Design

Petrak¹,

Špelić²,

Naglić³

2018

Proceedings of 3DBODY.TECH 2018 - 9th International Conference and Exhibition on 3D Body Scanning and Processing Technologies,

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The paper presents evaluation of the overall and microclimatic volume changes due to different upper limb positions simulating functional reaching movements for the aircrew personnel. The study was performed in order to evaluate the needed ease allowance added to chest and waist circumference for outerwear garments in order to fully achieve the wearing comfort. The accurate 3D body scanning was used and the impact of the upper limb position on microclimatic volume distribution was tested. The scanning data process was performed using a 3D laser scanner and a computer analysis. The raw scans were processed and reconstructed. After the scan reconstruction, the volume and the area were calculated. The experimental study covered the objective measuring methods: the material testing, the 3D scanning, the scan reverse engineering modelling and the volume/area calculation. The volume calculations included both the overall volume calculation for the unclothed torso and for the torso dressed in the chosen outerwear jacket. It also included the volume calculation of an air layer formed between second and third-layered garments. The clothing ensemble CE 0 is the control variable, the unclothed body. The CE 1 is the clothing ensemble combined from the underlying basic garments (undershirt, underpants, classical male business shirt, and jeans) and combined with the bomber jacket. The three human subjects with the analogous body proportions (the height of 185 cm and chest girth of 100 cm) were scanned using the 3D laser body scanner Vitus Smart (Human Solutions GmbH) in an upright standing position according to ISO 20685:2010 changing only upper limb positions simulating functional reaching movements for the aircrew personnel.

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Analysis of air gap volume in structural firefighter turnout suit constructions in relation to heat loss

Cited by 22 publications

References 22 publications

A critical review of female firefighter protective clothing and equipment workplace challenges

A critical review of female firefighter protective clothing and equipment workplace challenges

A validation study on the thermal simulation of the human body-clothing-environment system through wear trials

The Volumetric Analysis of the Human Body as Starting Point for Clothing Pattern Design

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