REFERENCES
- Bevan, P.C. A survey of the water activity-moisture content relationships of tobaccos and reconstituted. B.A.T (U.K. & Export) Ltd., Research & Development Center, Southampton. 1988.
- Mutasa, E.S.; Seal, K.J.; Maga, N. The water content/water activity relationship of cured tobacco and water relations of associated spoilage fungi. International Biodeterioration 1990, 26, 381–396.
- Samejima, T.; Nishikata, Y.; Yano, T. Moisture permeability of cured tobacco epidermis. Agricultural and Biological Chemistry 1984, 48, 439–443.
- Warner, B.R. Surface areas of tobaccos by low temperature nitrogen adsorption. Archives of Biochemistry and Biophysics 1952, 40, 143–152.
- Samejima, T.; Soh, Y.; Yano, T. Specific surface area and specific pore volume distribution of tobacco. Agricultural and Biological Chemistry 1977, 41, 983–988.
- Xu, A.; Wang, C. Study on the relationship between the organic acids/water-soluble sugar and the tobacco’s water-holding capacity. China Tobacco Independent Innovation Forum 2007, 59–69.
- Xu, A.; Wang, C.; Hu, W.; Deng, J. Study on the relationship between the Hongda tobacco’s water-holding capacity and the important aroma content. Yunnan Tobacco 2006, 6, 21–27.
- Ma, L.; Zhou, B. The capacity to absorb and retain moisture of the tobacco itself. Guangdong Chemical Industry 2009, 36, 93–94.
- Doymaz, İ. Drying behaviour of greenbeans. Journal of Food Engineering 2005, 69, 161–165.
- Panchariya, P.C.; Popovic, D.; Sharma, A.L. Thin-layer modelling of black tea drying process. Journal of Food Engineering 2002, 52, 349–357.
- Sacilik, K.; Unal, G. Dehydration characteristics of Kastamonu garlic slices. Biosystems Engineering 2005, 92, 207–215.
- Guine, R.P.F.; Barroca, M.J.; Silva, V. Mass transfer properties of pears for different drying methods. International Journal of Food Properties 2013, 16, 251–262.
- Walton, L.R.; Casada, M.E.; Henson, W.H. Diffusion of moisture from burley tobacco leaves during curing. Transactions of the ASABE 1982, 25, 1099–1102.
- Walton, L.R.; Henry, Z.A.; Henson, W.H. Moisture diffusion in the cured burley tobacco leaf. Transactions of the ASABE 1976, 19, 796–800.
- Brunauer, S.; Emmett, P.H.; Teller, E. Adsorption of gases in multimolecular layers. Journal of the American Chemical Society 1938, 60 (2), 309–319.
- Ma, D.; Liu, W.; Wei, Q.; Liu, G.; Yang, T. Determination of pectin in tobacco with 3,5-Dinitrosalicylic acid colorimetry. Tobacco Science Technology 2006, 38–41.
- Yin, J.; Lu, H.; Xie, Q.; Ding, J.; Li, N. A study on rapid colorimetric determination of water soluble total sugar, reducing sugar and starch in tobacco with 3,5-dinitrosalicylic acid. Journal of Yunnan Agricultural University 2007, 22, 829–837.
- Wang, C.; Zhang, X.; Dai, Z.; Wu, G. Selection of fitting models on adsorption and desorption isotherms of chrysanthemum. Journal of YANGTZE University (Natural Science Edition) 2008, 5, 24–26, 38.
- Akanbi, C.T.; Adeyemi, R.S.; Ojo, A. Drying characteristics and sorption isotherm of tomato slices. Journal of Food Engineering 2006, 73, 157–163.
- Samejima, T.; Yano, T. Moisture diffusion within shredded tobacco leaves. Agricultural and Biological Chemistry 1985, 49, 1809–1812.
- Yu, X.; Schmidt, A.R.; Bello-Perez, L.A.; Schmidt, S.J. Determination of the bulk moisture diffusion coefficient for corn starch using an automated water sorption instrument. Journal of Agricultural and Food Chemistry 2007, 56, 50–58.
- Fernando, W.J.N.; Low, H.C.; Ahmad, A.L. Dependence of the effective diffusion coefficient of moisture with thickness and temperature in convective drying of sliced materials. A study on slices of banana, cassava, and pumpkin. Journal of Food Engineering 2011, 102, 310–316.
- Chang, C.S.; Johnson, W.H. The relationship of specific surface area and specific pore volume of the tobacco. Tobacco Science 1973, 11, 115–119.
- Xiong, X.; Narsimhan, G.; Okos, M.R. Effect of composition and pore structure on binding energy and effective diffusivity of moisture in porous food. Journal of Food Engineering 1992, 15, 187–208.
- Gujral, H.S.; Oberoi, D.P.S.; Singh, R.; Gera, M. Moisture diffusivity during drying of pineapple and mango leather as affected by sucrose, pectin, and maltodextrin. International Journal of Food Properties 2013, 16 (2), 359–368.
- Saravacos, G.D.; Maroulls, Z.B. Transport Properties of Foods, Marcel Dekker, Inc.: New York, 2001.