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References [1] B. Das, A. Das, V. K. Kothari, R. Fanguiero, and M. de Araújo, “Moisture transmission through textiles: Part I: Processes involved in moisture transmission and the factors at play,” Autex Res. J., vol. 7, no. 2, pp. 100–110, 2007. [2] A. K. Haghi, “Experimental survey on heat and moisture transport through fabrics,” Int. J. Appl. Mech. Eng., vol. 10, no. 2, pp. 217–226, 2005. [3] P. Chidambaram, R. Govindan, and K. C. Venkatraman, “Study of thermal comfort properties of cotton/regenerated bamboo knitted fabrics,” African J. Basic Appl. Sci., vol. 4

References Bagnold R.A., 1941. The Physics of Blown Sand and Desert Dunes. Chapman & Hall, London. Belly P.Y., 1964. Sand Movement by Wind. Technical Memorandum 1, Addendum III. US Army Corps of Engineers, Coastal Engineering Research Center, Washington, DC. Berndtsson R., Nodomi K., Yasuda H., Persson T., Chen H., Jinno K. 1996. Soil water and temperature patterns in arid desert dune sand. Journal of Hydrology 185: 221-240. Cornelis W.M., Gabriels D., 2003. The effect of surface moisture on the entrainment of dune sand by wind: an evaluation of selected models

%204.pdf. [4]Keiser, C. (2007). Steam burns. Moisture management in firefighter protective clothing. PhD Thesis, Swiss Federal Institute of Technology Zurich, Swiss. [5]Schopper-Jochum, S., Schubert, W. and Hocke, M. (1997) Vergleichende Bewertung des Trageverhaltens von Feuerwehreinsatzjacken (Phase 1). Arbeitsmedizin, Sozialmedizin und Umweltmedizin, 32(4). [6]Keiser, C. and Rossi, R.M. (2008). Temperature analysis for the prediction of steam formation and transfer in multilayer thermal protective clothing at low level thermal radiation. Textile Research Journal

Treated Textile through Enzymatic Pretreatment. Photochemistry and photobiology, 87(4), 877-883. [10] Simoncic, B. and Tomsic, B. (2010). Structures of novel antimicrobial agents for textiles-a review. Textile Research Journal, 80(16), 1721-1737. [11] Manshahia, M. and Das A. (2014). Moisture management of high active sportswear. Fibers and Polymers, 15(6), 1221-1229. [12] Manshahia, M. and Das, A (2014). High active sportswear-A critical review. Indian Journal of Fibre & Textile Research, 39(4), 441-449. [13] Bakhtiari, M., Hasani, H., Zarrebini, M and Hassanzadeh, S

References Kharkovsky, S. N., Hasar, U. C., Akay, M. F., Atis, C. D. (2002). Measurement and monitoring of microwave reflection and transmission properties of cement-based specimen. IEEE Trans. Instrum. Meas. , 51 (6), 1210-1218. Kraszewski, A. W., Kulinski, S., Stosio, Z. (1977). A preliminary study on microwave monitoring of moisture content in wheat. J. Microwave Power Electromagn. , 12 (3), 241-252. Okamura, S. (1981). High-moisture content measurement of grain by microwave. J. Microwave Power Electromagn. , 16 (3 & 4), 253-256. Bois, K. J., Benally, A. D

, Asadi Kapourchal S, Homaee M. Evaluating performance of macroscopic water uptake models at productive growth stages of durum wheat under saline conditions. Agricult Water Manage. 2017;180:13-21. DOI: 10.1016/j.agwat.2016.10.015. [7] Hassan-Esfahani L, Torres-Rua A, Jensen A, Mckee M. Spatial root zone soil water content estimation in agricultural lands using bayesian-based artificial neural networks and high-resolution visual, nir, and thermal imagery. Irrigation Drainage. 2017;66(2):273-288. DOI: 10.1002/ird.2098. [8] Veihmeyer FJ, Hendrickson AH. The moisture

mctaboliczn^ oraz kidkowanie nasion i wschody siewck marchwi. Journal of Research and Applications in Agricultural Engineering 66(3), 127-132. Grzesiuk, S., Kulka, K. (1981). Fizjologia i Biochemia Nasion. Wyd. PWRiL, Warszawa, 606. Horigane, AK., Suzuki, K., Yosliida, M. (2013). Moisture distribution of soaked rice grains observed by magnetic resonance imaging and physicochemical properties of cooked rice grains. Journal of Cereal Science 57, 47-55. Kopcewicz, J., Lewak, S. (2002). Fizjologia roslin. Praca zbiorowa. PWN, Warszawa, 806. Kornarzynski, K., Pietruszewski, S

References [1] Slater, K. (1985). Human comfort. Springfield, Ill., U.S.A: C.C. Thomas. [2] Song, G. (2011). Improving Comfort in Clothing. Woodhead Publishing Limited. [3] Li, Y. and Wong, A. S. (2006). Clothing Biosensory Engineering. Woodhead Publishing Limited. [4] Das, B., Das, A., Kothari, V., Fangueiro, R., and de Araujo, M. (2007). Moisture transmission through textiles. Part II: Evaluation methods and mathematical modelling. AUTEX Research Journal, 7(3), 194-216. [5] Dongping, L. and Mai, N. (2009). in Second International Conference on Information

REFERENCES Allen, R.G., Pereira, L.S., Raes, D., Smith, M., 1998. Crop evapotranspiration-Guidelines for computing crop water requirements. FAO Irrigation and drainage, paper 56. FAO, Rome, 300(9): D05109. Archer, G.E.B., Saltelli, A., Sobol, I.M., 1997. Sensitivity measures, ANOVA-like techniques and the use of bootstrap. J. Stat. Comput. Sim., 58, 2, 99–120. Arya, L.M., Richter, J.C., Paris, J.F., 1983. Estimating profile water storage from surface zone soil moisture measurements under bare field conditions. Water Resources Research, 19, 2, 403–412. Berezowski

References [1] Semerák, P. (1998). Methods for measuring moisture building materials , Prague, STOP [2] Lipták, T. (1988). Additional removal of moisture from the walls , Bratislava, ALFA [3] Weber, H. (1988). Mauerfeuchtigkeit, Ursachen and Gegenmassnahmen , Renningen, Expert Verlag [4] Weber, H. (1999). Moisture walls and the removal of I. and II. In: Construction materials , Vol. 5, No. 5, p. 78-80. [5] Katunská, J. (2013). Sanačné opatrenia vlhkého muriva kostola, dodatočná hydroizolácia injektážou. In: Střechy, fasády, izolace . Vol. 20, No. 11-12, p