Solvent Extraction Condition Optimization for Extracting Oil from Wood Apple Seed using Response Surface Methodology

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Authors

  • Department of Food Science and Nutrition, Periyar University, Salem, Tamil Nadu ,IN
  • Department of Food Science and Nutrition, Periyar University, Salem, Tamil Nadu ,IN

Keywords:

Wood Apple Seed, Solvent Extraction, Hexane, Response Surface Methodology, Central Composite Rotatable Design.

Abstract

The seed oils have been characterized for the nutritional and functional importance but its industrial extraction process is not yet adequately studied. The present investigation was done to optimize the pre soaking time in solvent (hexane) and extraction time in solvent extraction method to extract the oil from wood apple seed. The pre soaking time and extraction time ranged from 2 h to 10 h and was optimized using Central Composite Rotatable Design (CCRD) and the second order quadratic polynomial regression equation model. At linear and quadratic level, the pre-soaking time revealed a significant influence on oil recovery at p<0.01. The magnitude of influence of pre soaking time on oil recovery from wood apple seed was greater than extraction time. The predicted R2 of 0.7512 was in reasonable agreement with the adjusted R2 of 0.9424. Adequate precision ratio of 22.526 indicated an adequate signal for the proposed model. According to numerical and graphical optimization, the wood apple seed could be pre soaked in solvent (hexane) for 8 hours and extracted for 8 hours in Soxhlet method of extraction to get maximum oil recovery of 32.99%. The actual oil recovery at optimum point prediction of independent variables was significantly (p<0.01) agreed with the predicted oil recovery.

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Published

2015-06-01

How to Cite

Ravindran, D., & Poongodi Vijayakumar, T. (2015). Solvent Extraction Condition Optimization for Extracting Oil from Wood Apple Seed using Response Surface Methodology. The Indian Journal of Nutrition and Dietetics, 52(2), 205–212. Retrieved from http://informaticsjournals.com/index.php/ijnd/article/view/2463

 

References

Aberoumand, A. and Deokule, S.S., Determination of elements profile of some wild edible plants. Fd. Anal. Methods, 2009, 2, 116-119.

Islam, R., Hossain, M., Karim, M.R. and Joarder, O.I., Regeneration of Aegle marmelos (L.) Corr., plantlets in vitro from callus cultures of embryonic tissues. Curr. Sci., 1995, 69, 494-495.

Morton, J., Wood Apple. J. Fd. Sc. Agric, 1987, 15, 190-191.

Sachin Sonawane and Arya, S.S., Antioxidant activity of Jambhul, Wood Apple, Ambadi and Ambat Chukka: An indigenous lesser known fruits and vegetables of India. Adv. J. Fd. Sci. Technol, 2013, 5, 270-275.

Ramakrishna, G., Azeemoddin, G., AtchyutaRamayya, D., ThirumalaRao, S.D., Sita Devi, K. and Pantulu, A.J., Characteristics and composition of Indian wood apple seed and oil. J. Am. Oil Chem. Soc, 1979, 56, 870-871.

Durdev, S., Perdih, A., Turkulov, J. and Djurdjev, S., Quality of sunflower oil obtained by continuous pressing and solvent. Fabrik Ulja INUS., 1982, 23, 245-246.

Badwaik, L.S., Prasad, K. and Deka, S.C., Optimization of extraction conditions by Response Surface Methodology for preparing partially defatted peanut. Intern. Fd. Res. J., 2012, 19, 341-346.

Rustom, I.Y.S., Lopez-Leiva, M.H. and Nair, B.M., Optimization of extraction of peanut proteins with water by Response Surface Methodology. J. Fd. Sci., 1991, 56, 1660-1663.

Pericin, D., Radulovic, L., Trivic, S. and Dimic, E., Evaluation of solubility of pumpkin seed globulins by response surface method. J. Fd. Engg., 2008, 84, 591-594.

Tan, M.C., Tan, C.P., Khoo, H.E. and Ho, C.W., Optimization for extraction on total phenolic content and radical scavenging capacity of Henna (Lawsonia inermis) stems using response surface methodology. Intern. Fd. Res. J., 2014, 21, 789-794.

Xinhui Tang, Lifang Yan and Na Lin., Optimization of extraction process and investigation of antioxidant effect of polysaccharides from the root of Limonium sinense Kuntze. Pharm. Mag., 2011, 7, 186-192.

Shweta Tewari, Kulathooran Ramalakshmi, Laxmi Methre and Lingamallu Jagan Mohan Rao. Microwave-Assisted extraction of inulin from chicory roots using response surface methodology. J. Nutr. Fd. ScL, 2015, 5, 1-7.

Patel Shivani, Patel Khushbu, Nilkanth Faldu, Vasudev Thakkar and Shubramanian, R.B. Extraction and analysis of Jatropha curcas L. seed oil. African J. BiotechnoL, 2011, 10, 18210-18213.

Anil Bukya and Vijayakumar, T.P., Optimisation of conditions to isolate protein from germinated Green Gram (Vigna radiata L.) using response surface methodology. Intern. J. Adv. Res. Comp. Sc. Software Engg., 2015, 5, 430-434.

Ali Abas Wani., Sogi, D.S., Grover, L. and Saxena, D.C., Effect of temperature, alkali concentration, mixing time and meal/solvent ratio on the extraction of watermelon seed proteins-a Response Surface Approach. Biosys. Engg., 2006, 94, 67-73.