Browse > Article
http://dx.doi.org/10.12772/TSE.2017.54.365

Structural Effects of 3D Spacer Fabrics on Cooling Efficiency  

Cheon, Ja Young (Department of Organic Materials and Textile System Engineering, Chungnam National University)
Han, Sun-kyung (Goostech Co., Ltd.)
Ryu, Yong (Goostech Co., Ltd.)
Park, Mi Hee (Goostech Co., Ltd.)
Nam, Young Sik (Goostech Co., Ltd.)
Park, Won Ho (Department of Organic Materials and Textile System Engineering, Chungnam National University)
Publication Information
Textile Science and Engineering / v.54, no.5, 2017 , pp. 365-369 More about this Journal
Abstract
Evaporative cooling fans are being increasingly used in the industrial and livestock industries for air cooling. This process utilizes the vaporization cooling phenomenon when water evaporates. Most cooling filters for evaporative cooling fans consist of paper filters. However, the paper filter has a fatal disadvantage in that it has low durability and poor reusability because of contamination arising from the growth of fungi and moss and the fact that it is difficult to wash. In this study, a polyethylene terephthalate (PET) mono-filament-based 3D spacer fabric was fabricated and examined for use as a cooling pad to replace paper filters. In addition, the 3D spacer fabrics were fabricated by making mono-filaments with various types of cross-sections, as well as different types of circular shapes. The water absorption, drying rate, moisture evaporation, and cooling efficiency of the 3D spacer fabric were controlled by adjusting the cross-sectional shape of the filaments. In addition, the effect of air volume on the cooling efficiency was determined.
Keywords
evaporation cooling system; cooling pad; cross-section; mono-filament; spacer fabric;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Y. Sung, "Performance Characteristics of Hybrid Cooling System with Various Parameters", Master's Thesis, Pukyong National University, Busan, Korea, 2017.
2 T. Gunhan, V. Demir, and A. K. Yagcioglu, "Evaluation of the Suitability of Some Local Materials as Cooling Pads", Biosyst. Eng., 2007, 96, 369-377.   DOI
3 R. A. Bucklin, J. D. Leary, D. B. McConnell, and E. G. Wilkerson, "Fan and Pad Greenhouse Evaporative Cooling Systems", IFAS Extension University of Florida, Gainesville, FL, 2015.
4 B. O. Bolaji and Z. Huan, "Ozone Depletion and Global Warming: Case for the Use of Natural Refrigerant-a Review", Renew. Sustainable Energy Rev., 2013, 18, 49-54.   DOI
5 Southwest Energy Efficiency Project, "New Evaporative Cooling Systems: an Emerging Solution for Homes in Hot Dry Climates with Modest Cooling Loads", US Department of Energy, Washington, D.C., 2012.
6 M. Czarick and B. Fairchild, "Plastic Evaporative Cooling Pads...A First Look", Poultry Housing Tips, The University of Georgia, Athens, GA, 2012.
7 B. Y. Kim, "Studies on the Production of Nonwoven Fabrics from Non-circular Shaped and Splittable Micro Fibers", Master's Thesis, Pusan National University, Busan, Korea, 2006.
8 K. C. Ko, "A Study for Fiber Structure Containing the Ideal Moisture Control Functionality", Doctorial Thesis, Sungkyunkwan University, Seoul, Korea, 2008.
9 R. K. Varshney, V. K. Kothari, and S. Dhamija, "A Study on Thermophysiological Comfort Properties of Fabrics in Relation to Constituent Fibre Fineness and Cross-sectional Shapes", J. Text. Inst., 2010, 101, 495-505.   DOI
10 C. J. Hong, "Theoretical Analysis of Fluid Transfer Properties of Fibers of Different Cross-sectional Shapes in Fibrous Assemblies", Text. Sci. Eng., 2014, 51, 1-6.   DOI
11 R. Fangueiro, A. Filgueiras, and F. Soutinho, and X. Meidi, "Wicking Behavior and Drying Capability of Functional Knitted Fabrics", Text. Res. J., 2010, 80, 1522-1530.   DOI
12 L. Rong, P. Pedersen, T. L. Jensen, S. Morsing, and G. Zhang, "Dynamic Performance of an Evaporative Cooling Pad Investigated in a Wind Tunnel for Application in Hot and Arid Climate", Biosyst. Eng., 2017, 156, 173-182.   DOI