Extraction Technologies for Medicinal and Aromatic ... - Capacity4Dev
Extraction Technologies for Medicinal and Aromatic ... - Capacity4Dev
Extraction Technologies for Medicinal and Aromatic ... - Capacity4Dev
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
8 MICRODISTILLATION,THERMOMICRODISTILLATION AND MOLECULAR DISTILLATION TECHNIQUES<br />
Jadh av, S. V. <strong>and</strong> Pangarkar, V. G., 1989, Gas-liquid <strong>and</strong> solid-liquid mass transfer in<br />
three phase sparged reactors with <strong>and</strong> without ultrasound, Journal of the American<br />
Oil Chemists’ Society (JAOCS), 66(3): 362-364<br />
Jogdeo, D. A., Niranjan, K. <strong>and</strong> Pangarkar, V. G., 2000, Recovery of alkyl isothiocyanate<br />
from steam distillation condensate using adsorption, Journal of Chemical<br />
Technology & Biotechnology, l75(8): 673-680<br />
Kanani, D. M., Nikhade, B. P., Balakrishnan, P., Singh, G. <strong>and</strong> Pangarkar V. G., 2003,<br />
Recovery of valuable tea aroma components from steam distillation condensate<br />
by pervaporation, Industrial & Engineering Chemistry Research, 42(26):<br />
6924-6932<br />
Kaufmann, B. <strong>and</strong> Christen, P., 2002, Recent extraction techniques <strong>for</strong> natural products:<br />
microwave-assisted extraction <strong>and</strong> pressurized solvent extraction, Phytochemical<br />
Analysis, 13(2): 105-113<br />
Kosar, M., Özek, T., Göger, F., Kürkcüoglu, M. <strong>and</strong> Baser, K. H. C., 2005, Comparison of<br />
microwave-assisted hydrodistillation <strong>and</strong> hydrodistillation methods <strong>for</strong> the analysis<br />
of volatile secondary metabolites, Pharmaceutical Biology, 43(6): 491-495<br />
Longares-Patron, A. <strong>and</strong> Canizares-Macias, M. P., 2006, Focused microwaves-assisted<br />
extraction <strong>and</strong> simultaneous spectrophotometric determination of vanillin <strong>and</strong><br />
p-hydroxybenzaldehyde, Talanta, 69: 882-887<br />
Machale, K. W., Niranjan, K. <strong>and</strong> Pangarkar, V. G., 1997, Recovery of dissolved essential<br />
oils from condensate water of basil <strong>and</strong> Mentha arvensis distillation, Journal<br />
of Chemical Technology & Biotechnology, 69(3): 362-366<br />
Nelida, E. G. <strong>and</strong> Witte, L., 1999, International Society of Ecology 99–Marseille,<br />
Microwave assisted solvent extraction from macerated species, Poster presentation.<br />
Available at: http://www.chemecol.org<br />
Netke, S. A., Sawant, S. B., Joshi, J. B. <strong>and</strong> Pangarkar, V. G., 1995, Comparative<br />
study of membranes <strong>for</strong> pervaporation of trace organics from aqueous solutions,<br />
In: Bowen, W. R., Field, R. W. <strong>and</strong> Howell, J. A. (Eds.), Proceedings of Euro-membrane-95<br />
Conference, p. 116-121<br />
Pangarkar, V. G., 2002, Process Intensifi cation in Chemical Industry, Guest Editorial:<br />
Chemical Industry News, Indian Chemical Manufacturers Association (ICMA),<br />
XLVII (5): 5-6<br />
Pangarkar, V. G., Yawalkar, A. A., Sharma, M. M. <strong>and</strong> Beenackers, A. A. C. M., 2002,<br />
Particle–liquid mass transfer coeffi cient in two/three-phase stirred tank reactors,<br />
Industrial & Engineering Chemistry Research, 41(17): 4141-4167<br />
Pare, J. R. J., 1995, Microwave-assisted extraction from materials containing organic<br />
matter, United States Patent 5458897<br />
Save, S. V. <strong>and</strong> Pangarkar, V. G. 1994, Liquid-liquid extraction using aphrons, Separation<br />
Technology, 4(2): 104-111<br />
Save, S. V., <strong>and</strong> Pangarkar, V.G., 1995, Harvesting of Saccharomyces cerevisiae using<br />
colloidal gas aphrons, Journal of Chemical Technology & Biotechnology, 62(2):<br />
192-199<br />
Save, S. V., Pangarkar, V. G. <strong>and</strong> Kumar, S. V., 1993, Intensifi cation of mass transfer<br />
142