3 edition of Supercritical fluid technology in oil and lipid chemistry found in the catalog.
Includes bibliographical references and index.
|Statement||editors, Jerry W. King, Gary R. List.|
|Contributions||King, Jerry W., List, Gary R.|
|LC Classifications||TP670 .S83 1996|
|The Physical Object|
|Pagination||viii, 435 p. :|
|Number of Pages||435|
|LC Control Number||96015367|
The effect of supercritical carbon dioxide (SC-CO2) extraction conditions (temperature, pressure, extraction time, and moisture content of the samples) on the myrosinase activity and glucosinolate hydrolysis in flaked and whole canola seeds was studied. Combined effects of high temperature (75 °C), pressure ( MPa), and moisture (∼20% w/w) were necessary to achieve 90% . The ester ethyl oleate was synthesized from oleic acid and ethanol by using the lipase, Candida cylindracea, immobilized on Celite and in supercritical carbon dioxide (SC‐CO 2) as the enzymatic esterification reaction is much faster in SC‐CO 2 than in organic solvents. This technique was then applied to the hydrolysis products of milk fat to determine the .
Tomato seed oil was extracted with supercritical carbon dioxide in a semibatch‐flow extractor within the temperature range – K and the pressure range –MPa. The extraction rates increased with pressure, but decreased with temperature increase because of the variation in solvent density and resultant differences in oil solubility. This review illustrates how supercritical fluid (SCF) technologies can be superior in controlling the morphology of API particles and in the production of drug carriers due to SCF’s non-toxic, inert, economical, and environmentally friendly properties. The SCF’s advantages, benefits, and various preparation methods are discussed.
A supercritical fluid extraction (SFE) method has been developed for the extraction of lipids in bilberry. Experimental design was used to optimize pressure, temperature and extraction time using CO 2 as solvent. Best SFE condition for total lipids was bar, 60 °C and 45 min. Supercritical fluid extraction technology for essential oil extraction of Murraya exotica. Akram A, Khan MA, Younis A, Ashfaq M. Exogenous application of epibrassinolide on morpho-physiological, biochemical attributes and essential oil contents of Jasminum sambac L. Pakistan Journal of Agricultural Scien Anitescu G, Doneanu C, Radulescu V.
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Supercritical Fluid Technology in Oil and Lipid Chemistry Jerry W. King, Gary R. List The American Oil Chemists Society, - Technology & Engineering - pages. ISBN: OCLC Number: Description: viii, pages: illustrations ; 24 cm: Responsibility: editors, Jerry W.
King, Gary R. List. ISBN: OCLC Number: Description: 1 vol. (viii p.): ill. ; 24 cm. Responsibility: editors, Jerry W. King, Gary R. List. lipid solubilities in supercritical fluids . Figure 6 also reveals that later in the SFE rate curve, as the oil becomes depleted from the seed matrix, there is the onset of a mass.
Supercritical Fluid Technology in Oil and Lipid Chemistry. Edited by J. King and G. and pages, figures and 86 tables. AOCS Press, Champaign, Illinois, Cited by: 1.
Supercritical Fluid Technology. In general, the difficulties arising in the pharmaceutical industry are mostly owing to find a new method for development of novel drugs. Supercritical fluid technology is one of the techniques applied in the formulation of several nanoparticles with the aid of supercritical CO 2 and H 2 O.
In the. Author by: Jerry W. King Languange: en Publisher by: The American Oil Chemists Society Format Available: PDF, ePub, Mobi Total Read: 60 Total Download: File Size: 44,9 Mb Description: Thermodynamics of supercritical fluids with respect to lipid-containing systems; Solubility measurement of lipid constituents in supercritical fluids; Supercritical fluid extraction of oilseeds/lipids.
We explored the changes in viability and lipid profile occurring in Supercritical fluid technology in oil and lipid chemistry book cells, murine melanoma cells (B16F10 cells) and human cervical carcinoma cells (HeLa cells), when exposed to 24 h-treatments with an n-3 PUFA-rich oil obtained by supercritical extraction with CO 2 from Mugil cephalus processed roe (bottarga).
The composition of the major lipid classes of bottarga oil. Uğur Salgın, Sema Salgın, Effect of main process parameters on extraction of pine kernel lipid using supercritical green solvents: Solubility models and lipid profiles, The Journal of Supercritical Fluids, /, 73, (), ().
The goal of Dr. Ciftci’s research program is to bring innovative solutions to important issues related to food lipid chemistry and processing using green approaches.
Research areas in the Ciftci Lab include lipid particle formation using nanoscale science and engineering and supercritical fluid technology to improve health benefits and. Extraction of sunflower oil from sunflower seeds (Heliantus annuus L.) using supercritical CO 2 was shrinking core model was applied to the modeling of the packed-bed extraction process.
The experimental data were obtained for extraction conducted at the pressures of 20, 30, 40, 50 and 60 MPa; the temperatures ofand K, the CO.
Supercritical fluids combine useful properties of gas and liquid phases, as it can behave like both a gas and a liquid in terms of different aspects. A supercritical fluid provides a gas-like characteristic when it fills a container and it takes the shape of the container. The motion of the molecules are quite similar to gas molecules.
Supercritical fluids have properties between those of a gas and a liquid. A supercritical fluid can effuse through solids like a gas and dissolve materials like a liquid. All supercritical fluids are completely miscible with each other, so for a mixture a single phase can be guaranteed, if the critical point of the mixture is exceeded.
Supercritical fluid technology in oil and lipid chemistry. AOCS Press, IL, USA (). Google Scholar; 17 Hermanson M, Uphoff A, Kakela R, Somerharju P. Automated quantitative analysis of complex lipidomes by liquid chromatography–mass spectrometry. Anal. Chem. 77,– ().Crossref, Medline, Google Scholar.
Applications of Supercritical Fluid Extraction (SFE) of Palm Oil and Oil from Natural Sources. Molecules17 (2), DOI: /molecules JERRY W. KING. Supercritical fluid chromatography (SFC) - global perspective and applications in lipid technology. , DOI: / King JW, List GR (eds) () Supercritical fluid technology in oil and lipid chemistry.
AOCS, Champaign Google Scholar King JW, Eller FJ, Snyder J et al () Extraction of fat from ground beef for nutrient analysis using analytical supercritical fluid extraction.
He has over 40 years of experience in supercritical fluid technology and separation science, is the author of publications, holds three patents, and has received numerous scientific awards. He is chairman of the 10th International Symposium on Supercritical Fluids being held in San Francisco, California, USA, May 13–16, information.
Supercritical fluid extraction (SFE) can be applied as a green technology to the oil extraction of spent coffee grounds (SCGs), as a waste product of the coffee industry, demonstrated in this work. Extraction using supercritical carbon dioxide is a feasible food processing unit operation, and no regulatory hurdles.
Includes details on the chemistry and chemical synthesis, biosynthesis and biological effects, functional and nutritional properties, applications, and future trends of a variety of polar lipids; Presents the latest analytical techniques for use in polar lipids research, including NMR and Supercritical Fluid Chromatography/Mass Spectrometry.
Ozan Nazim Ciftci, Feral Temelli, Continuous production of fatty acid methyl esters from corn oil in a supercritical carbon dioxide bioreactor, The Journal of Supercritical Fluids, /, 58, 1, (), (). Polar Lipids is a valuable reference resource providing thorough and comprehensive coverage of different types of polar lipids known to lipid science and industry today.
This book covers important applications and utilization of polar lipids, either in the area of food and nutrition, or health and disease.It is shown that how the combinatorial approach can be used in supercritical fluid extraction optimization, fractionation schemes in supercritical fluid media, and reactions on lipid.
This book covers a wide range of applications of hydrothermal processing that result in almost zero waste, high energy efficiency, sustainable chemical processes, and minimal impact over the life cycle.
These applications include processing of hazardous waste, bioproducts, coal, lipids, heavy oil and bitumen, and carbon materials.