Journal of Textile Research ›› 2018, Vol. 39 ›› Issue (09): 127-133.doi: 10.13475/j.fzxb.20171003907

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Research on open local thermal resistance measurement system

  

  • Received:2017-10-13 Revised:2018-05-28 Online:2018-09-15 Published:2018-09-12

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Abstract:

In view of very few tests on local thermal insulation using “Whole-segment” thermal manikin, with “Whole-segment” ( "Walter" sweating manikin) in Cornell University, the open local thermal resistance test system was designed and developed, and related research was carried out. By system instances including nude state and waering M type cotton shirt + trouser state, wearing M type cotton short sleeve shirt (large hole) + trouser state, wearing M type cotton short sleeve shirt (small hole) + trouser state, wearing M type cotton T-shirt + trouser state, whole body heat flux test, local heat flux test and local thermal resistance test were completed with this system. The results show that the open local thermal resistance test system can accurately represent the local heat flux value of the manikin under different clothing conditions, the overall heat loss tested does not exceed 4.6 W/m2, and the local resistance error can be conrolled within 3.1%.

Key words: local thermal resistance, "Whole-segment" thermal manikin, sweating manikin, thermal resistance measurement system

[1] ISSO 9920, Estimation of thermal insulation and water vapour resistance of Clothing ensembles[S];
[2] Rapp GM. Convective heat transfer and convective coefficients of nude man, cylinders and spheres at low air velocities [J]. ASHRAE Transactions 1973; 75 (I):75–87;
[3] Ichihara M, Saitou M, Nishimura M, Tanabe S. Measurement of convective and radiative heat transfer coefficients of standing and sitting human body by using a thermal manikin[J]. Journal of Architecture, Planning and Environmental Engineering. 1997,(501):45–51;
[4] Ishii, J., Horikoshi, T., Watanabe, S., Suzuki, K., & Zhi, Y. C. Experimental estimation of natural convective heat transfer coefficients for the human body and its segments[J]. Journal of Architecture Planning and Environmental Engineering, 2000, (530): 31-38;
[5] Dipankar Bhanjaa, Balaram Kundua, Abdul Azizc. Enhancement of heat transfer from a continuously moving porous fin exposed in convective–radiative environment Original Energy Conversion and Management[J], Energy Conversion and Management, 2014(88), 842–853;
[6] K. Kuwabara, T. Mochida, M. Kondo, K. Matsunaga Measurement of man's convective heat transfer coefficient by using a thermal manikin in the middle wind velocity region[J]. Journal of Human and Living Environment, 2001, (8): 27–32;
[7] Oguro M, Arens E, de Dear RJ, Zhang H, Katayama T. Convective heat transfer coefficients and clothing insulations for parts of the clothed human body under calm conditions[J]. Journal of Architecture Planning and Environmental Engineering 2002, (561):31–9;
[8] Oguro M, Arens E, de Dear R, Zhang H, Katayama T . Evaluation of the of air flow on clothing insulation and on dry heat transfer coefficients for each part of the clothed human body[J]. J Archit Plann Environ Eng, 2001, (549):13–21;
[9] Oguro M, Arens E, de Dear R, Zhang H, Katayama T. Convective heat transfer coefficients and clothing insulations for parts of the clothed human body under airflow conditions[J]. J Archit Plann Environ Eng, 2002,(561):21–29;
[10] I. HOLME? R, H. NILSSON, G. HAVENITH and K. PARSONS, Clothing Convective Heat Exchange Proposal for Improved Prediction in Standards and Models[J]. Ann. occup. Hyg., 1999, 43(5) :329-337;
[11] AVM Oliveira, Gaspar AR, Quintela DA . Assessment of the thermal insulation of the air layer with a movable thermal manikin[C]. In: Silva MCG (Ed) ROOMVENT 2004-9th International Conference on Air Distribution Rooms, Coimbra, Portugal Radiative and convective heat transfer coefficients of the human body in natural convection, Building and Environment .2008,43: 2142–2153;
[12] AVM. Oliveira, Adélio R. Gaspar, Sara C. Francisco, Divo A. Quintela Convective heat transfer from a nude body under calm conditions: assessment of the effects of walking with a thermal manikin[J], Int J Biometeorol 2012,(56):319–332;
[13] Thomas Vega, Rachel A. Wasson, Brian Y. Lattimer, Thomas E. Diller.Partitioning measurements of convective and radiative heat flux[J], International Journal of Heat and Mass Transfer, 2015, 84, 827–838
[14] Andrey E. Kovtanyuka, b, Alexander Yu. Chebotareva, b, Nikolai D. Botkinc, Karl-Heinz Hoffmannc. Theoretical analysis of an optimal control problem of conductive–convective–radiative heat transfer[J], Journal of Mathematical Analysis and Applications,2014, 412(1), 520–528;
[15] Wang, F.. A Comparative Introduction on Sweating Thermal Manikin “Newton” and “Walter” [C]. In 7th International Thermal Manikin and Modelling Meeting 2008, 1-7;
[16] Fan, J., & Qian, X. (). New functions and applications of Walter, the sweating fabric manikin[J]. European journal of applied physiology, 2004. 92(6): 641-644.
[17] Fan J T and Chen Y S. (2002) Measurement of clothing thermal insulation and moisture vapour insulaiton using a novel perspiring fabric thermal manikin. Meas Sci Technol; 13:1115–23.
[1] SHEN Yu-hong;LI Ruo-xin;JIANG Zhi-hua;HAO Jun-qin. Characteristic equation and stability determination of sweating manikin [J]. JOURNAL OF TEXTILE RESEARCH, 2006, 27(10): 67-69.
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[1] CHU Yong-mei;WANG Qi;WANG Guo-he. Flexibility test and analysis of pure bamboo pulp yarns and blended yarns[J]. JOURNAL OF TEXTILE RESEARCH, 2006, 27(2): 68 -70 .
[2] . [J]. JOURNAL OF TEXTILE RESEARCH, 2004, 25(03): 19 -20 .
[3] . [J]. JOURNAL OF TEXTILE RESEARCH, 1992, 13(07): 27 -30 .
[4] . [J]. JOURNAL OF TEXTILE RESEARCH, 1992, 13(07): 33 -34 .
[5] . [J]. JOURNAL OF TEXTILE RESEARCH, 1984, 5(08): 5 -10 .
[6] . [J]. JOURNAL OF TEXTILE RESEARCH, 1987, 8(01): 44 -45 .
[7] . [J]. JOURNAL OF TEXTILE RESEARCH, 1987, 8(01): 46 -48 .
[8] . [J]. JOURNAL OF TEXTILE RESEARCH, 1987, 8(01): 53 -56 .
[9] . [J]. JOURNAL OF TEXTILE RESEARCH, 1986, 7(04): 57 -59 .
[10] . [J]. JOURNAL OF TEXTILE RESEARCH, 1986, 7(04): 56 .
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