Ternary system approach in separation and purification of biodiesel fuel: An organised review
Application of a ternary system (TS) approach involving ternary phase diagrams from liquid-
liquid equilibrium (LLE) data can assist in highlighting constituent components in biodiesel …
liquid equilibrium (LLE) data can assist in highlighting constituent components in biodiesel …
Component distribution associated with phase separation and purification of tropical almond biodiesel at different temperatures
Accurate knowledge of the components in the purification of biodiesel is important in
achieving consistency in quality for the separation and purification process. In this paper …
achieving consistency in quality for the separation and purification process. In this paper …
Separation of formic acid from aqueous solutions by liquid extraction technique at different temperatures
In this study, the separation of formic acid from aqueous solutions was investigated. Liquid-
liquid equilibrium (LLE) data including tie-lines was reported for water+ formic acid+ 2 …
liquid equilibrium (LLE) data including tie-lines was reported for water+ formic acid+ 2 …
Effect of EPPS Buffer on the Liquid–Liquid Equilibria of Carboxylic Acids (Acetic Acid or Propionic Acid)–Water–Methyl Isobutyl Ketone at Elevated Temperatures
The capacity of methyl isobutyl ketone (MIBK) containing 5 wt% 4-(2-hydroxyethyl)-1-
piperazine propanesulfonic acid (EPPS) buffer has been demonstrated to boost the …
piperazine propanesulfonic acid (EPPS) buffer has been demonstrated to boost the …
Salt effect on the liquid–liquid equilibrium for the water–ethylene glycol–ethylene glycol diacetate system
J He, X Li, Y Shen, X Zhang - Journal of Chemical & Engineering …, 2019 - ACS Publications
The salt effect on the liquid–liquid equilibrium (LLE) for the water–ethylene glycol (EG)–
ethylene glycol diacetate (EGDA) system was studied at 303.2 K and 101.3 kPa. The …
ethylene glycol diacetate (EGDA) system was studied at 303.2 K and 101.3 kPa. The …
Salt effect on the liquid-liquid equilibrium of water-furfuryl alcohol-furfural system at 298.15 K
N Kunthakudee, U Pancharoen, K Fulajtárová… - Korean Journal of …, 2017 - Springer
Salt effect on the liquid phase equilibrium of the water-furfuryl alcohol-furfural system at
298.15 K was studied. The effects of salt concentration (1, 3 and 10% w/wNaCl) and type of …
298.15 K was studied. The effects of salt concentration (1, 3 and 10% w/wNaCl) and type of …
Purification of Phosphoric Acid by Liquid‐Liquid Equilibrium
K Bahrpaima - Phosphoric Acid Industry-Problems and Solutions, 2017 - books.google.com
Various ternary and quaternary liquid-liquid phase equilibrium data for water+ phosphoric
acid+ solvent (s) have been reported. Salting-out, solvent, and temperature effects on the …
acid+ solvent (s) have been reported. Salting-out, solvent, and temperature effects on the …
Temperature and Salt Effects on the Liquid–Liquid Equilibrium of the Water+ Cyclopentanone+(Propan-2-yl) Benzene System
The separation of cyclopentanone from aqueous solutions with recommended (propan-2-yl)
benzene (cumene) solvent was investigated at different temperatures of 293.2, 298.2, and …
benzene (cumene) solvent was investigated at different temperatures of 293.2, 298.2, and …
Production, characterization and application of Ternary phase Diagrams for the purification of Biodiesel produced from Tropical Almond seed oil
This study presents the application of ternary phase diagrams to tropical almond biodiesel
components separation and purification at two temperatures. The seed oil was extracted …
components separation and purification at two temperatures. The seed oil was extracted …
Experimental and Modeling Study for the Salting-Out Extraction of Acetic Acid from Aqueous Solutions with Kerosene
The outstanding salting-out effect on the liquid–liquid equilibrium of water+ acetic acid+
kerosene was studied at a temperature of T= 298.2 K and under the ambient pressure of p …
kerosene was studied at a temperature of T= 298.2 K and under the ambient pressure of p …