The Experts below are selected from a list of 309 Experts worldwide ranked by ideXlab platform
Simon Halstead - One of the best experts on this subject based on the ideXlab platform.
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flowsheet simulation of cobalt nickel separation by Solvent Extraction with trihexyl tetradecyl phosphonium chloride
Industrial & Engineering Chemistry Research, 2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalezmiquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results.
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Flowsheet Simulation of Cobalt–Nickel Separation by Solvent Extraction with Trihexyl(tetradecyl)phosphonium Chloride
2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalez-miquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results
Hongyan Chen - One of the best experts on this subject based on the ideXlab platform.
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flowsheet simulation of cobalt nickel separation by Solvent Extraction with trihexyl tetradecyl phosphonium chloride
Industrial & Engineering Chemistry Research, 2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalezmiquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results.
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Flowsheet Simulation of Cobalt–Nickel Separation by Solvent Extraction with Trihexyl(tetradecyl)phosphonium Chloride
2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalez-miquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results
Megan Jobson - One of the best experts on this subject based on the ideXlab platform.
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flowsheet simulation of cobalt nickel separation by Solvent Extraction with trihexyl tetradecyl phosphonium chloride
Industrial & Engineering Chemistry Research, 2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalezmiquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results.
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Flowsheet Simulation of Cobalt–Nickel Separation by Solvent Extraction with Trihexyl(tetradecyl)phosphonium Chloride
2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalez-miquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results
Andrew J Masters - One of the best experts on this subject based on the ideXlab platform.
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flowsheet simulation of cobalt nickel separation by Solvent Extraction with trihexyl tetradecyl phosphonium chloride
Industrial & Engineering Chemistry Research, 2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalezmiquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results.
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Flowsheet Simulation of Cobalt–Nickel Separation by Solvent Extraction with Trihexyl(tetradecyl)phosphonium Chloride
2018Co-Authors: Hongyan Chen, Megan Jobson, Andrew J Masters, Maria Gonzalez-miquel, Simon HalsteadAbstract:Solvent Extraction is widely used for selective separation of metals from solutions. Ionic liquids are showing potential for this purpose. To date, little research has focused on design, operation, and optimization of Solvent Extraction flowsheets using ionic liquids. This work addresses this gap in knowledge, aiming to support development, design, and optimization of such Solvent Extraction processes. In this work, a general flowsheet simulation model is developed and applied for the case of cobalt–nickel separation using ionic liquid trihexyl(tetradecyl)phosphonium chloride ([P66614]Cl). All components are treated as distributing between the two phases and are modeled using distribution coefficient models derived from published experimental data and ab initio computational results. The rate of mass transfer between the two phases is calculated using a mass transfer model. Simulation results are shown to be generally in good agreement with published experimental results
Timothy J. Mason - One of the best experts on this subject based on the ideXlab platform.
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Investigation of the effects of ultrasound on vegetal tissues during Solvent Extraction.
Ultrasonics sonochemistry, 2001Co-Authors: Maricela Toma, Mircea Vinatoru, Larysa Paniwnyk, Timothy J. MasonAbstract:The paper presents an insight into the mechanism of the ultrasonic enhancement of Solvent Extraction through the effect of ultrasound on the vegetal material involved. Thus, a series of experiments has been developed to investigate the effect of ultrasonic energy on the vegetal material and the Solvent used. Several results concerning the ultrasonic extractive value, ultrasonic swelling index and the effects of frequency on vegetal material are presented.
