Optimizing the Thermal Physiological Comfort by Introducing Peltier Cells in Simulated Conditions

Luminița Vlad; Stan Mitu; Crina Buhai

doi:10.4028/www.scientific.net/AMM.371.792

Paper Titles

Machine Learning and Creative Methods Used to Classify Customers in a CRM Systems
p.769

Advanced Quality Planning of Manufacturing Products - APQP
p.777

Safety Evaluation of the Pipelines Systems for Petroleum Products
p.782

Organization of Production Processes through the Multi-Service Method by Performing some Identical Operations of the same Duration and Structure
p.787

Optimizing the Thermal Physiological Comfort by Introducing Peltier Cells in Simulated Conditions
p.792

System for the Management of Raw Materials Based on RFID Technology
p.797

Advanced Product Quality Planning Reference Model in Automotive Industry
p.802

A Point of View on Functional Approaches Used in Product Design
p.807

Contributions to Ranking an Ergonomic Workstation, Considering the Human Effort and the Microclimate Parameters, Using Neural Networks
p.812

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 371Optimizing the Thermal Physiological Comfort by...

Optimizing the Thermal Physiological Comfort by Introducing Peltier Cells in Simulated Conditions

Abstract:

The paper aims to approach in an original manner both the research method and the solution to the problem related to thermal physiological comfort by introducing the Peltier cells in the structure of the clothing product. The special clothing piece studied for tests during wearing is a protective clothing for firefighters; between its layers were introduced temperature and humidity transducers. The electric scheme and the transducers connection scheme, as well as the Peltier cells connection and power scheme were made. The data registration and the graphics were made using the PC-Lab 2000SE software. The experiment included three distinct phases: a rest period of 10 min, physical effort for 20 min which simulates the effort made during an activity specific for firefighters and 10 minutes of rest after this exercise. The temperature and humidity charts were recorded and analyzed for each stage, if the garment is unequipped and then equipped with Peltier cells. If, in the case of physical effort, significant temperature variations in the underclothing environment were noticed, by introducing the Peltier cells, an optimization of the thermal physiological comfort was performed, with implications on the wearers health.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 371)

Pages:

792-796

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.371.792

Citation:

Cite this paper

Online since:

August 2013

Authors:

Luminița Vlad, Stan Mitu, Crina Buhai

Keywords:

Peltier Cells, Protection Equipment, Thermal Physiological Comfort

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Y. Li, R. Wang, P-smart a virtual system for clothing thermal functional design, J. Computer aided design 38 (2006), 729 - 739.

Google Scholar

[2] A. Curteza, The comfort to wear clothing, publishing Junimea, Iași, (1998).

Google Scholar

[3] S. Mitu, The confort and function of clothing products, publishing Gh. Asachi, Iasi, (2000).

Google Scholar

[4] D. Toma, E. Cărpuș, Individual protective equipment against coldness, Textile industry, 2 (2003), 75 - 79.

Google Scholar

[5] F. Güney, I. Üçgül, Thermal insulations properties of bhreathnable membrans inside of protective clothing, Tekstil ve Konfeksiyon. 1 (2010), 9 - 16.

Google Scholar

[6] C. Loghin, L. Ciobanu, Functional Clothing, publishing Pim, Iasi, (2008).

Google Scholar

[7] I. Sahata, I. Baltina, J. Blums, Optimization of smart clothes system, Innovative solution for sustainable development of textiles industry, (2010), 146 - 149.

Google Scholar

[8] B. Gunathilake, T. Dias, Wearable cooling system to manage heat in protective clothing, 2010, available at: www. trandfonline. com/doi/abs/10. 1080/00405000. 2011. 587647, accessed: 21. 01. (2013).

Google Scholar