| 1 - 11 |
Supercritical carbon dioxide fractionation of peppermint oil with low menthol content - Experimental study and simulation analysis for the recovery of piperitenone
Ganan NA, Dambolena JS, Martini RE, Bottini SB |
| 12 - 16 |
Crossing the Widom-line - Supercritical pseudo-boiling
Banuti DT |
| 17 - 24 |
Extraction of lignans from the seed of Schisandra chinensis by supercritical fluid extraction and subsequent separation by supercritical fluid simulated moving bed
Lin CH, Lin HW, Wu JY, Houng JY, Wan HP, Yang TY, Liang MT |
| 25 - 32 |
Purification of post-consumer polyolefins via supercritical CO2 extraction for the recycling in food contact applications
Anouar BS, Guinot C, Ruiz JC, Charton F, Dole P, Joly C, Yvan C |
| 33 - 43 |
Supercritical CO2 extraction of grape seed oil: Effect of process parameters on the extraction kinetics
Duba KS, Fiori L |
| 44 - 49 |
Prediction of CO2 solubility in bitumen using the cubic-plus-association equation of state (CPA-EoS)
Zirrahi M, Hassanzadeh H, Abedi J |
| 50 - 64 |
Prediction carbon dioxide solubility in presence of various ionic liquids using computational intelligence approaches
Baghban A, Ahmadi MA, Shahraki BH |
| 65 - 69 |
Easy emission-color-control of Mn-doped zinc silicate phosphor by use of pH and supercritical water conditions
Toyama S, Takesue M, Aida TM, Watanabe M, Smith RL |
| 70 - 78 |
Solubility of all-trans retinoic acid in supercritical carbon dioxide
Rosa ABS, Marceneiro S, Braga MEM, Dias AMA, de Sousa HC |
| 79 - 85 |
Extraction of Campomanesia xanthocarpa fruit using supercritical CO2 and bioactivity assessments
Czaikoski K, Mesomo MC, Kruger RL, Queiroga CL, Corazza ML |
| 86 - 101 |
Modeling of the volumetric properties and estimation of the solubility parameters of ionic liquid plus ethanol mixtures with the Sanchez-Lacombe and Simha-Somcynsky equations of state: [EMIM]Ac plus ethanol and [EMIM]Cl plus ethanol mixtures
Dickmann JS, Hassler JC, Kiran E |
| 102 - 110 |
Thermodynamic properties of CO2 during controlled decompression of supercritical extraction vessels
Richter EA, del Valle JM, Nunez GA |
| 111 - 118 |
Hydrogen rich gas production via supercritical water gasification of sugarcane bagasse using unpromoted and copper promoted Ni/CNT nanocatalysts
Rashidi M, Tavasoli A |
| 119 - 126 |
A trade-off between maxima in efficiency and specific work output of super- and trans-critical CO2 Brayton cycles
Garg P, Kumar P, Srinivasan K |
| 127 - 136 |
Economical and Efficient Hybrid Surfactant with Low Fluorine Content for the Stabilisation of Water-in-CO2 Microemulsions
Mohamed A, Ardyani T, Sagisaka M, Ono SJ, Narumi T, Kubota M, Brown P, James C, Eastoe J, Kamari A, Hashim N, Isa IM, Abu Bakar S |
| 137 - 146 |
Drying of supercritical carbon dioxide with membrane processes
Lohaus T, Scholz M, Koziara BT, Benes NE, Wessling M |
| 147 - 152 |
Insight into alcohol reduction by saccharides and their homologues in supercritical water via aldehyde-mediated radical formation
Ohtani M, Okimoto Y, Oishi Y, Wang PY, Kobiro K |
| 153 - 166 |
Experimental and theoretical investigation of supercritical drying of silica alcogels
Ozbakir Y, Erkey C |
| 167 - 171 |
Copaiba (Copaifera sp.) leaf extracts obtained by CO2 supercritical fluid extraction: Isotherms of global yield, kinetics data, antioxidant activity and neuroprotective effects
Botelho JRS, Santos AG, Araujo ME, Braga MEM, Gomes-Leal W, Carvalho RN, Meireles MAA, Oliveira MS |
| 172 - 182 |
Recovery of phenolics from apple peels using CO2 + ethanol extraction: Kinetics and antioxidant activity of extracts
Massias A, Boisard S, Baccaunaud M, Calderon FL, Subra-Paternault P |
| 183 - 193 |
Relating iron carbonate morphology to corrosion characteristics for water-saturated supercritical CO2 systems
Hua Y, Barker R, Charpentier T, Ward M, Neville A |
| 194 - 203 |
Cocrystallization induced by compressed CO2 as antisolvent: Simulation of a batch process for the estimation of nucleation and growth parameters
Erriguible A, Neurohr C, Revelli AL, Laugier S, Fevotte G, Subra-Paternault P |
| 204 - 210 |
Transformation of glucose into added value compounds in a hydrothermal reaction media
Cantero DA, Alvarez A, Bermejo MD, Cocero MJ |
| 211 - 221 |
Simulation for scale-up of a confined jet mixer for continuous hydrothermal flow synthesis of nanomaterials
Ma CY, Liu JJ, Zhang Y, Wang XZ |
