Management Science and Engineering

Cashew nut was divided into its three constituent parts viz: the kernel, the testa and the shell. The shell was grated, and extracted with n-hexane using Soxhlet extractor. The Soxhlet extraction lasted for 12 hrs. The relative percent of the shell, kernel and the testa to the cashew nut were 65.49, 29.02 and 1.80 % respectively. The Deffated cashew nut shell was weighed into a thimble and extracted with eighty percent (80 %) ethanol; the extraction process was done exhaustively until the solution was colorless to yield 17.9 and 82.10 % of alcohol extractives and cashew nut shell respectively. The defatted and alcohol extracted Cashew Nut Shell was de-lignified with 17.5 % sodium hydroxide. After drying, about 2 g of the de-lignified Cashew Nut Shell cellulose was reacted with acetic acid and acetic anhydride in the presence of sulfuric acid to yield cellulose acetate. The cellulose acetate obtained was found to be soluble in acetone.

Balser, K., Hoppe, L., Eicher, T., Wandel, M., Astheimer, H. J., Steinmeier, H., & Allen, J. M. (1986). Cellulose esters. In W. Gerhartz, Y. Y. Stephen, C. F. Thomas, R. Pfefferkorn, & F. James (Eds.), Ullmann’Sencyclopedia of Industrial Chemistry. New York: Wiley.

Barkalow, David G., & Whistler, Roy L. (2014). Cellulose. Access Science. Doi:10.1036/1097-8542.118200.

Frankel, E. (1991). Poison ivy, poison oak, poison somac and their relative pistachios: Mangoes and cashew. The Boxwood Press Pacific Grove CA 2, 15-16.

Hattori, K., Abe, E., Yoshida, T., & Cuculo, J. A. (2004). New solvents for cellulose II ethylenediamine/thiocyanate salt system. Polymer Journal, 36(2), 123-130.

Hermanutz, F., Meister, F., & Uerdingen, E. (2006). Chemical Fibres Int., 6, 342-344.

Hobgood, R. K. (2011). Cars could run on recycled newspaper, Tulane scientists say. Tulane University news webpage. Tulane University. Retrieved March 14, 2012.

Holt-Gimenez, Eric (2007). Biofuels: myths of the Agrofuels transition. Backgrounder. Institute for Food and Development Policy, Oakland, CA. 13:2 “Archived copy”.Archived from the original on 2013-09-05.Retrieved 2013-09-05.”Archived copy”.Archived from the original on 2013-09-06.Retrieved 2013-09-05.

Hon, D. N. S. (1996). Chemical modification of lignocellulosic material, Marcel Dekker, New York.

Juvy, J., Monserate, J. R., Salazar, A. M., Tuates, J. R., & Ofero, A. C. (2016). Synthesis and characterization of nanocomposites from coconut waste (coconut husk).

Klemm, D., & Fink, H. P. (2005). Angew. Chem. Int. Ed. 44, 3358.

Klemm, D., Philipp, B., Heinze, T., Heinze, U., & Wagenknecht, W. (1998). Comprehensive Cellulose Chemistry, Volume 1, Fundamentals and Analytical Methods. Wiley-VCH, Weinheim,

Krassig, H. A. (1993). Cellulose, structure, accessibility and reactivity. Gordon and Breach Publishers, 5301 Taconystreet, Philadelphia, PA.

Payen, A. (1838) Mémoire sur la composition du tissu propre des plantes et du ligneux. (Memoir on the composition of the tissue of plants and of woody [material]). Comptes Rendus Hebdomadaires des Séances de l’Académie des Sci-ences, 7, 7.

Rachtanapun, P. (2009). Blended films of carboxymethyl cellulose from papaya peel (CMC_p) and corn starch. Kasetsart Journal (Natural Sciences), 43(5), 259-266.

Singh, R. K., & Khatri, O. P. (2012). A Scanning electron microscope based new method for determining degree of substitution of sodium carboxymethyl cellulose. Journal of Microscopy, 246, 43-52.

Singh, R. K., & Singh, A. K. (2012). Optimization of reaction conditions for preparingcarboxymethyl cellulose from corn cobic agricultural waste. Waste Biomass Valor.

Swatloski, R., Spears, S., & Holbrey, J. J. (2002). Am. Chem. Soc., 124, 4974.

USEPA. (1999). Determining the Adequacy of Existing Data. Guidance for the HPV Challenge Programme. Draft dated 2/10/99.

Weiner, M. L.; & Kotkoskie, L. A. (2000). Excipient toxicity and safety. New York: Dekker. P. 210 ISBN 0-8247-8210-0

Zhou, R., Mo, Y., Li, Y., Zhao, Y., Zhang, G., & Hu, Y. (2008). Quality and internal characteristics of Huanghua pears (Pyruspyrifolia Nakai, cv. Hanghua) treated with different kinds of coating during storage. Postharvest Biology and Technology, 49, 171-179.