The Experts below are selected from a list of 63321 Experts worldwide ranked by ideXlab platform
Jiang Bian - One of the best experts on this subject based on the ideXlab platform.
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supersonic Separation Technology for natural gas processing a review
Chemical Engineering and Processing, 2019Co-Authors: Xuewen Cao, Jiang BianAbstract:Abstract Supersonic Separation Technology is a new approach to condense and separate water, heavy hydrocarbons and other impurities from natural gas. This paper reviews the research advances in condensation characteristics of the Laval nozzle and Separation mechanism of the supersonic separator in detail from the perspectives of theoretical analysis, experiments and numerical simulation, and summarizes the new application of this Technology including natural gas liquefaction and removal of the acid gases. This review points out that while several aspects of this Technology have been well studied, there still exist several issues in the practice. The further research topics are clarified to promote future applications such as the model modification of gas spontaneous nucleation rate to improve the prediction accuracy, and the combination the molecular dynamics Technology with interface mechanics theory to study the collision and coalescence of the droplets and the interaction between gas and droplets under supersonic conditions.
Kyung Ho Row - One of the best experts on this subject based on the ideXlab platform.
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Recent applications of ionic liquids in Separation Technology
Molecules, 2010Co-Authors: Dandan Han, Kyung Ho RowAbstract:Ionic liquids (ILs) have been applied in different areas of Separation, such as ionic liquid supported membranes, as mobile phase additives and surface-bonded stationary phases in chromatography Separations and as the extraction solvent in sample preparations, because they can be composed from various cations and anions that change the properties and phase behavior of liquids. Although the applications of ILs in Separations are still in their early stages, the academic interest in ILs is increasing. An overview of the principle applications of ILs in Separation Technology is present in this work. Furthermore, the prospects of the ILs in Separation techniques are discussed.
Xuewen Cao - One of the best experts on this subject based on the ideXlab platform.
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supersonic Separation Technology for natural gas processing a review
Chemical Engineering and Processing, 2019Co-Authors: Xuewen Cao, Jiang BianAbstract:Abstract Supersonic Separation Technology is a new approach to condense and separate water, heavy hydrocarbons and other impurities from natural gas. This paper reviews the research advances in condensation characteristics of the Laval nozzle and Separation mechanism of the supersonic separator in detail from the perspectives of theoretical analysis, experiments and numerical simulation, and summarizes the new application of this Technology including natural gas liquefaction and removal of the acid gases. This review points out that while several aspects of this Technology have been well studied, there still exist several issues in the practice. The further research topics are clarified to promote future applications such as the model modification of gas spontaneous nucleation rate to improve the prediction accuracy, and the combination the molecular dynamics Technology with interface mechanics theory to study the collision and coalescence of the droplets and the interaction between gas and droplets under supersonic conditions.
Dandan Han - One of the best experts on this subject based on the ideXlab platform.
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Recent applications of ionic liquids in Separation Technology
Molecules, 2010Co-Authors: Dandan Han, Kyung Ho RowAbstract:Ionic liquids (ILs) have been applied in different areas of Separation, such as ionic liquid supported membranes, as mobile phase additives and surface-bonded stationary phases in chromatography Separations and as the extraction solvent in sample preparations, because they can be composed from various cations and anions that change the properties and phase behavior of liquids. Although the applications of ILs in Separations are still in their early stages, the academic interest in ILs is increasing. An overview of the principle applications of ILs in Separation Technology is present in this work. Furthermore, the prospects of the ILs in Separation techniques are discussed.
Rui Li - One of the best experts on this subject based on the ideXlab platform.
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two stage foam Separation Technology for recovering potato protein from potato processing wastewater using the column with the spiral internal component
Journal of Food Engineering, 2013Co-Authors: Zhaoliang Wu, Rui LiAbstract:Abstract For recovering potato protein from potato processing wastewater, the effects of temperature, pH, volumetric airflow rate, liquid loading volume and sparging time on the foam Separation performances were investigated using the column with the spiral internal component (SIC). A two-stage foam Separation Technology was designed to improve both the enrichment ratio and recovery percentage of potato protein. The results showed that the SIC and specially the increase of temperature were effective for improving the enrichment ratio of potato protein. A best enrichment ratio of potato protein of 4.69 was obtained under the optimal conditions of temperature 45 °C, pH 7, volumetric airflow rate 100 mL/min, liquid loading volume 300 mL and sparging time 90 min. The total recovery percentage of potato protein was as high as 73.4% by using the two-stage foam Separation Technology. So the two-stage Technology was effective for the protein recovery from potato processing wastewater.