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Effects of crude oil-water emulsions at various water-cut on the performance of the centrifugal pump
Bellary, Sayed A.,Siddique, Md. Hamid,Samad, Abdus,Sangwai, Jitendra S.,Chon, Bohyun Inderscience Enterprises Ltd. 2017 International journal of oil, gas and coal technol Vol.16 No.1
<P>The viscosity of the oil-in-water or water-in-oil depends on the water-cut (WC) present in the system. At a certain WC, the water-crude oil emulsion gives the highest viscosity, showing phase inversion, at which the performance of a centrifugal pump drops. In this article, experimental and analytical investigations have been carried out to study the performance of a centrifugal pump for the crude oil-water emulsion systems prepared by mixing crude oil obtained from an Indian oil field and water. The viscosities of the emulsions having different WC were recorded and a phase inversion point within 60%-70% WC range was obtained. During testing of the pump, emulsion samples were collected and stability of the emulsions was determined. A performance study on the centrifugal pump has been carried out using various samples of the emulsions. The study shows that the increasing WC reduces the pump performance till the phase inversion point. It has been observed that the quality crude oil and the emulsion affect the performance of the centrifugal pump.</P>
Centrifugal Impeller Blade Shape Optimization Through Numerical Modeling
Bellary, Sayed Ahmed Imran,Samad, Abdus Korean Society for Fluid machinery 2016 International journal of fluid machinery and syste Vol.9 No.4
Surrogate model based shape optimization methodology to enhance performance of a centrifugal pump has been implemented in this work. Design variables, such as blade number and blade angles defining the pump impeller blade shape were selected and a three-level full factorial design approach was used for efficiency enhancement. A three-dimensional simulation using Reynolds-averaged Navier Stokes (RANS) equations for the performance analysis was carried out after designing the geometries of the impellers at the design points. Standard $k-{\varepsilon}$ turbulence model was used for steady incompressible flow simulations. The optimized impeller incurred lower losses by shifting the trailing edge towards the impeller pressure side. It is observed that the surrogates are problem dependent and most accurate surrogate does not deliver the best design always.
Numerical Analysis of Centrifugal Impeller for Different Viscous Liquids
Bellary, Sayed Ahmed Imran,Samad, Abdus Korean Society for Fluid machinery 2015 International journal of fluid machinery and syste Vol.8 No.1
Oil and gas industry pumps viscous fluids and investigation of flow physics is important to understand the machine behavior to deliver such fluids. 3D numerical flow simulation and analysis for different viscous fluids at different rotational speeds of a centrifugal impeller have been reported in this paper. Reynolds-averaged Navier Stokes (RANS) equations were solved and the performance analysis was made. Standard two equation k-${\varepsilon}$ model was used for the turbulence closure of steady incompressible flow. An inlet recirculation and reverse flow in impeller passage was observed at low impeller speeds. It was also found that the higher viscosity fluids have higher recirculation which hinders the impeller performance.
Centrifugal Impeller Blade Shape Optimization Through Numerical Modeling
Sayed Ahmed Imran Bellary,Abdus Samad 한국유체기계학회 2016 International journal of fluid machinery and syste Vol.9 No.4
Surrogate model based shape optimization methodology to enhance performance of a centrifugal pump has been implemented in this work. Design variables, such as blade number and blade angles defining the pump impeller blade shape were selected and a three-level full factorial design approach was used for efficiency enhancement. A threedimensional simulation using Reynolds-averaged Navier Stokes (RANS) equations for the performance analysis was carried out after designing the geometries of the impellers at the design points. Standard k-ε turbulence model was used for steady incompressible flow simulations. The optimized impeller incurred lower losses by shifting the trailing edge towards the impeller pressure side. It is observed that the surrogates are problem dependent and most accurate surrogate does not deliver the best design always.
Effectiveness of meta-models for multi-objective optimization of centrifugal impeller
Sayed Ahmed Imran Bellary,Afzal Husain,Abdus Samad 대한기계학회 2014 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.28 No.12
The major issue of multiple fidelity based analysis and optimization of fluid machinery system depends upon the proper constructionof low fidelity model or meta-model. A low fidelity model uses responses obtained from a high fidelity model, and the meta-model isthen used to produce population of solutions required for evolutionary algorithm for multi-objective optimization. The Pareto-optimalfront which shows functional relationships among the multiple objectives can produce erroneous results if the low fidelity models are notwell-constructed. In the present research, response surface approximation and Kriging meta-models were evaluated for their effectivenessfor the application in the turbomachinery design and optimization. A high fidelity model such as CFD technique along with the metamodelswas used to obtain Pareto-optimal front via multi-objective genetic algorithm. A centrifugal impeller has been considered as casestudy to find relationship between two conflicting objectives, viz., hydraulic efficiency and head. Design variables from the impellergeometry have been chosen and the responses of the objective functions were evaluated through CFD analysis. The fidelity of each metamodelhas been discussed in context of their predictions in entire design space in general and near optimal region in particular. Exploitationof the multiple meta-models enhances the quality of multi-objective optimization and provides the information pertaining to fidelityof optimization model. It was observed that the Kriging meta-model was better suited for this type of problem as it involved less approximationerror in the Pareto-optimal front.
Numerical Analysis of Centrifugal Impeller for Different Viscous Liquids
Abdus Samad,Sayed Ahmed Imran Bellary 한국유체기계학회 2015 International journal of fluid machinery and syste Vol.8 No.1
Oil and gas industry pumps viscous fluids and investigation of flow physics is important to understand the machine behavior to deliver such fluids. 3D numerical flow simulation and analysis for different viscous fluids at different rotational speeds of a centrifugal impeller have been reported in this paper. Reynolds-averaged Navier Stokes (RANS) equations were solved and the performance analysis was made. Standard two equation k-ε model was used for the turbulence closure of steady incompressible flow. An inlet recirculation and reverse flow in impeller passage was observed at low impeller speeds. It was also found that the higher viscosity fluids have higher recirculation which hinders the impeller performance.