[2] Martinez-Garcia, G., Bachmann, RT., Williams, C.J., Burgoyne, A., Edyvean, RGJ.,
Olive Oil Waste as a Biosorbent for Heavy Metals,
Int. Biodeter. Biodegr.,
58: 231–238 (2006).
[6] Molins, C., Hogendoorn, E. A., Heusinkveld, H. A. G., Van Harten, D.C., Van Zoonen, P., Baumann, R.A.,
Microwave-assisted Solvent Extraction (MASE) for the Efficient Determination of Triazines in Soil Samples with Aged Residues,
Chromatographia,
43: 527-532 (1996).
[11] Afnor, “Détermination de l’indice d’acide. Méthode au Mélange Éthanol - Oxyde Diéthylique”, NFT: 60-204 (1968).
[12] Afnor, “Détermination de l’absorbance Spécifique en Rayonnement Ultraviolet”,NFT: 60- 223 (1978).
[13] Afnor, “Détermination de l’indice de Peroxyde”, NFT 60- 220 (1968).
[15] Chatterjee S., Price B., “Regression Analysis by Example”, Wiley, New York (1991).
[16] Mood A.M., Graybill F.A., Boes D.C., “Introduction to the Theory of Statistics”, 3rd Edition, McGraw-Hill, New York (1974).
[20] Mgudu L., Muzenda E., Kabuba J., Belaid M.,
Microwave-Assisted Extraction of Castor Oil, “International Conference on Nanotechnology and Chemical Engineering (ICNCS'2012)”, December 21-22. Bangkok (Thailand), p. 47-51 (2012).
[21] Qu X. J., Fu Y.J., Luo M., Zhao C. J., Zu Y. G., Li C.Y., Wang W., Li J., Wei Z.F.,
Acidic pH Based Microwave-Assisted Aqueous Extraction of Seed Oil from Yellow Horn (Xanthoceras Sorbifolia Bunge.),
Industrial Crops and Products,
43: 420-426 (2013).
[27] Amarni F., Kadi H., Moussaoui R., Extraction par Solvant de L’huile de Grignon D’olive Aassistée par Micro-ondes. Comparaison avec L’extraction Conventionnelle, Olivebioteq Sfax (Tunisie): 301-307 (2009).