Online citations, reference lists, and bibliographies.
Please confirm you are human
(Sign Up for free to never see this)
← Back to Search

Supercritical Fluid Applications: Industrial Developments And Economic Issues

M. Perrut
Published 2000 · Chemistry

Save to my Library
Download PDF
Analyze on Scholarcy
Share
After 2 decades of development of extraction/fractionation processes mainly dedicated to natural products, many “new” applications of supercritical fluids are now either under investigation or already at commercial scale in various areas.
This paper references



This paper is referenced by
10.1016/S1570-7946(04)80018-X
Chapter 16 - Challenges and Opportunities for Property Modeling
G. M. Kontogeorgis (2004)
10.1007/978-3-319-90893-9_55
Modeling the Extraction Process of Sage ( Salvia Officinalis L.) with Supercritical CO 2 at Different Temperatures
S. Begić (2018)
10.1016/J.FBP.2017.02.008
Quercetin loaded particles production by means of supercritical fluid extraction of emulsions: Process scale-upstudy and thermo-economic evaluation
G. Lévai (2017)
10.1016/J.SUPFLU.2012.01.004
Defatting of annatto seeds using supercritical carbon dioxide as a pretreatment for the production of bixin: Experimental, modeling and economic evaluation of the process
C. L. Albuquerque (2012)
Development of a "green process" for the isolation of natural functional extracts with anti-cancer activity - Application of high-pressure technology
L. A. Rodrigues (2014)
10.1080/10408390500215670
Low Oxygen and Inert Gas Processing of Foods
K. Sanjeev (2006)
10.1016/j.compchemeng.2011.04.002
Simulation of a supercritical carbon dioxide extraction plant with three extraction vessels
Gonzalo A. Núñez (2011)
10.4236/AJAC.2012.312A129
Use of SFC in Extraction of Adaptogens from Brazilian Plants
Marcelle Fernanda Carulo (2012)
10.1111/IJFS.14104
Supercritical CO2 extraction of grape seeds oil: scale‐up and economic analysis
K. S. Duba (2019)
A review on microalgae and cyanobacteria in biofuel production
M. A. Nguyen (2016)
10.1177/0040517520971363
Sustainable low liquor ratio dyeing of cotton with C.I. Reactive Blue 21 using dioctyl sodium sulfosuccinate
S. M. M. Kabir (2020)
10.1016/j.trac.2020.115895
Recent advances in scaling-up of non-conventional extraction techniques: Learning from successes and failures
Tarun Belwal (2020)
10.1016/J.SUPFLU.2016.11.002
Supercritical CO2 oilseed extraction in multi-vessel plants. 3. Effect of extraction pressure and plant size on production cost
Gonzalo A. Núñez (2017)
DOTTORATO DI RICERCA IN BIOFARMACEUTICA-FARMACOCINETICA
P. Colombo (2008)
10.1111/J.1745-4530.2008.00279.X
MANUFACTURING COST OF SUPERCRITICAL-EXTRACTED OILS AND CAROTENOIDS FROM AMAZONIAN PLANTS
J. Prado (2010)
10.1016/S0926-9614(01)80026-5
Economics of high pressure processes
E. Lack (2001)
10.1051/MECA:2004055
Applications industrielles des technologies supercritiques : état de l'art et perspectives
G. Charbit (2004)
10.1002/JPS.20565
Preliminary evaluation of polymer-based drug composite microparticle production by coacervate desolvation with supercritical carbon dioxide.
T. Yasuji (2006)
10.1007/978-1-4939-1598-9_19
Amorphous Solid Dispersion Using Supercritical Fluid Technology
Pratik Sheth (2014)
10.1016/J.JFOODENG.2011.10.011
Supercritical fluid extraction of fish oil from fish by-products: A comparison with other extraction methods
Nuria Rubio-Rodríguez (2012)
10.1021/JE5002736
Solubility of 4-Aminosalicylic Acid in Supercritical Carbon Dioxide and Subcritical 1,1,1,2-Tetrafluoroethane
Junsu Jin (2014)
10.1016/J.MOLLIQ.2018.11.165
Supercritical heat transfer characteristics of couple stress convection flow from a vertical cylinder using an equation of state approach
H. Basha (2019)
Development of process for purification of α and β-vetivone from Vetiver essential oil & Investigation of effects of heavy metals on quality and quantity of extracted Vetiver oil Thai
Danh Luu (2007)
10.1016/J.FOODCHEM.2010.08.042
Extraction of β-carotenes from palm oil mesocarp using sub-critical R134a
A. N. Mustapa (2011)
10.1556/AALIM.35.2006.2.6
Supercritical fluid extraction of oil from microalga Spirulina (arthrospira) platensis
G. Andrich (2006)
10.1616/1750-2683.0018
A review of supercritical fluid technology and its applications in the food industry
A. Green (2008)
10.1108/ACMM-03-2017-1773
An investigation on microstructural and mechanical properties of porous zirconia-alumina nanocomposite prepared by solid state sintering method
Ebrahim Yousefi (2018)
10.1016/J.ADDR.2007.03.025
Particle design of poorly water-soluble drug substances using supercritical fluid technologies.
Takehiko Yasuji (2008)
10.1016/J.SUPFLU.2007.12.001
Optimization of reaction calorimetry with supercritical fluids: A complete term-by-term analysis of the heat flow equation
C. Mantelis (2008)
10.1016/J.SUPFLU.2007.10.007
Impact of seed structure modification on the rate of supercritical CO2 extraction
K. Rochova (2008)
10.1016/J.CCLET.2016.12.018
Synthesis of 5-vinyl-2-norbornene through Diels-Alder reaction of cyclopentadiene with 1, 3-butadiene in supercritical carbon dioxide
Fan-qiang Meng (2017)
10.1201/B18533-16
Supercritical CO2, the Key Solvent for Sustainable Processes
D. Barth (2014)
See more
Semantic Scholar Logo Some data provided by SemanticScholar