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Performance of Protective Clothing and Equipment: 11th Volume, Innovative Solutions to Evolving Challenges
ASTM Selected Technical Papers
Performance of Protective Clothing and Equipment: 11th Volume, Innovative Solutions to Evolving Challenges
By
Karen Lehtonen
Karen Lehtonen
Symposium Chair and STP Editor
1
LION
,
Dayton, OH,
US
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Brian P. Shiels
Brian P. Shiels
Symposium Chair and STP Editor
2
ArcWear
,
Louisville, KY,
US
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R. Bryan Ormond
R. Bryan Ormond
Symposium Chair and STP Editor
3
North Carolina State University
,
Raleigh, NC,
US
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ISBN:
978-0-8031-7694-2
No. of Pages:
319
DOI:
https://doi.org/10.1520/STP1624-EB
Publisher:
ASTM International
Publication date:
2020
eBook Chapter

Effectiveness of Using a Thermal Sweating Manikin Coupled with a Thermoregulation Model to Predict Human Physiological Response to Different Firefighter Turnout Suits

By
A. Shawn Deaton
A. Shawn Deaton
1
Textile Protection and Comfort Center, North Carolina State University
,
1020 Main Campus Dr., Raleigh, NC 27606,
US
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,
Kyle Watson
Kyle Watson
1
Textile Protection and Comfort Center, North Carolina State University
,
1020 Main Campus Dr., Raleigh, NC 27606,
US
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,
Emiel A. DenHartog
Emiel A. DenHartog
1
Textile Protection and Comfort Center, North Carolina State University
,
1020 Main Campus Dr., Raleigh, NC 27606,
US
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,
Roger L. Barker
Roger L. Barker
1
Textile Protection and Comfort Center, North Carolina State University
,
1020 Main Campus Dr., Raleigh, NC 27606,
US
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Doi:
https://doi.org/10.1520/STP162420190077
Page Count:
15
  • Published:
    2020

Manikins have been used for almost 100 years to help understand the properties of clothing materials and garments. Data from sweating manikins also have been used within thermoregulation computer models to estimate the physiological responses of humans. In recent years, the development of the ManikinPC system has incorporated a thermoregulation model into a thermal sweating manikin system to provide a real-time analysis of predicted physiological response. This paper describes an experimental study that demonstrates the utility of this manikin–model system to predict the effects of three composite materials used in firefighter suits on human physiological response. This study addresses this question: Can ManikinPC emulate the physiological response of a controlled wear trial using three different sets of firefighter turnout gear in one environmental condition? The average core temperature, skin temperature, and sweat loss from human subjects are compared with the predicted values generated from the manikin coupled with the model. Results indicate similar trends and ranking of the three suits. The data revealed slightly higher predictive responses from the manikin–model system compared with the collected human data.

Keywords:
protective clothing, firefighters, heat strain, total heat loss, thermal manikins, evaporative resistance

References

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