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IRJET- Design and Performance Curve Generation by CFD Analysis of Centrifugal Pump

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International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7378 Design and Performance Curve Generation by CFD Analysis of Centrifugal Pump Supriya Jadhav1, Vaibhav Ghodake2, Pavan Chipade3, Shubham Gaikwad4, Vikram Ghule5, Nilesh Gaidhani6 1Supriya Jadhav, UG student, Dr. D Y Patil School of Engineering, Pune 2Vaibhav Ghodake, UG student, Dr. D Y Patil School of Engineering, Pune 3Pavan Chipade, UG student, Dr. D Y Patil School of Engineering, Pune 4Shubham Gaikwad, UG student, Dr. D Y Patil School of Engineering, Pune 5 vikram Ghule, Professor, Dept. of mechanical Engineering, Dr. D Y Patil School of Engineering, Pune 6Nilesh Gaidhani, Design Executive Indo Pump, Pune. ---------------------------------------------------------------------***--------------------------------------------------------------------- Abstract - This work investigates a systematicnumerical approach that employs Computational Fluid Dynamics (CFD) to obtain performance curves of a backward-curved centrifugal pump. Capacity curve obtained from the CFDS analysis of centrifugal pump gives wide approach to parameters such as cavitation and reverse flow. Semi open impeller with single volute casing defines the path of flow. This study is focused on effect varying discharge on its performance parameters such as head, required powerand efficiency. Head discharge relation will give ease of pump selection. Mesh generation technique had discussed in the project work for better CFD results. Key Words: pump design, construction of blade, CFD analysis, cavitation, performance curve. 1.INTRODUCTION A pump is a mechanical device for moving a fluid from a lower to a higher location or from lower to higher pressure area. Performance of the ump may be affected due to some geometrical and input parameters such as blade angle, impellersize,dischargeandheadrequired.To overcome the problem, designers often change the geometry of the pump selection parameters. Specific speed determines the geometry of the impellerandforces in pump due to fluid flow whole design may be depend on the performance curve generation which helps the overcome the selection problem s and the required BEP. While overcoming the losses the designed modification can be done. 1.1 OBJECTIVES 1. Familiar approach to improve the design of centrifugal pump and optimize its operational parameters. 2. To study the centrifugal pump approaching towards the radial flow pumps. 3. To evaluate pressure distribution at blade and shroud region of the centrifugal pump. 4. To obtain the optimumpumpimpellerdesign for effective suction of pump. 5. Plot performance curve of pump(H&Qcurve, Efficiency vs. discharge vs. head curve). 6. To investigate the effective of impeller geometry on pump performance. 7. To analyze the effect of variable dischargeon cavitation pressure counters at impeller blade. 8. To check the performance of pump such as efficiency, hydraulic power output wrt varying discharge. 1.2 METHODOLOGY Fig.1 flow of research
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7379 2. DESIGN AND DEVELOPMENT 2.1 Impeller Pump have to carry 1000m3/hr with abrasive material for the total head of 75 m from the storage tank at atmospheric pressure. Specific gravity of fluid flowing through the pump is 1.0. Pump having the speed for impeller is 1450 rpm. The overall efficiency is assumed to be 80% for the pump. While designing the pump, design will tends towards the missed flow region. While designing the pump modification in the design may vary with respect to results. Table -1 Dimensions of Impeller Parameters Dimensions Outside diameter ( 530 mm Eye diameter ( 288 mm- 290 Vane inlet edge diameter ( 289mm Outlet width 44 mm Inlet width ( ) 81 mm Diameter of shaft ( 59 mm Vane inlet angle Vane outlet angle ( Vane thickness ( t) 8 mm Genration of impeller blade is mainly focused on the blade curveture. Bl;ade curveture the pump performance as it seprstes pressure regions. Blade curve is genratedby multiple arc method.in multiple arc method, impeller is divided into 6-8 curves. Final blade curve genrated is replica of the curves in each section. Also impeller shroud is designed with inlet and outlet width dimensions for smooth flow of fluid. Fig.2 Blade curve by multiple arc method Fig.3 Developement of shroud Fig.4 Developement of Impeller Blade and Shroud 2.2 Single Volute Casing
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7380 Volute of centrifugal pumpisgeneratedinsoftware CF Turbo. CF turbo is popular tool for impeller and volute generation due to Rapid design of hydraulic high-quality pumps. Integration of established pump design theory. Comfortable, reliable and user friendly Direct interfaces for many CAE-software packages .Comprehensive and detailed documentation manual. Table-2 Input parameters for volute in CF Turbo Required discharge 1000 Head required 75 m Inner diameter 557 mm Inner width of volute 90 mm Outlet nozzle diameter 250nmm Neck of volute Fig.4 Generation Single volute in CF turbo 3. MODIFICATIONS OF STATOR COMPONENT:- 3.1 In-pipe And Elbow: In pipe is used to guide the inlet water to theelbow. Elbow is intermediate part between the Inpipe and impeller shroud. Fig (2). Interference is created between the Inpipe elbow and impeller in CFX pre. 3.2 Out-pipe Function is to guide the flow of watercomingout from the volute casting. This is required to minimize the whirl component and to achieve better results. Table-3 dimensions of auxiliary components Element Diameter length In Pipe 250 1000 Elbow 250-290 175 Out pipe 250 500 Interference is creates between the Inpipe and Elbow is needed during CFD simulations, so the dimensions must match with other component. Outpipe coming out from the casing outlet is increasing in cross-sectional area to create more head at outlet by converting the kinetic energy into pressure. Fig.5 auxiliary component Inlet pipe, Elbow, Outlet pipe 4. CFD ANALYSIS As the impeller moves through the fluid, low-pressure areas are formed because the fluid accelerates aroundthe blades. The higher the fluid velocity, the lower becomes the local pressure. If it falls below vapor pressure, the fluid vaporizes and forms small bubbles of gas. These are dragged to areas of higher pressure, where they collapse and can cause very strong local shockwaves in the fluid, which may even damage the blades. CFD helps to design pumps with favorable cavitation behavior over a wide operating range. i) Preparation of surface model oftheimpellerandCasing using software like PRO-E, CATIA, Uni-Graphics. ii) Grid generation by using software like ANSYS-IECM.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7381 iii) Application of boundary conditions usingsoftwarelike CFX PRE. iv) Solution and analysis of results using software like ANSYS-CFX POST, Fluent. v) Analysis of flow through hydraulic passages and prediction of pump performance characteristics by application of computational fluid dynamic (CFD) techniques. 4.1. MESHING The subdivision of the domain into no of smaller, non- overlapping sub-domains: a grid (or mesh) of cells (or control volumes or elements).For the meshingofimpeller we used hexahedral mesh and for the volute we used tetrahedral mesh. Meshing plays main role in the outcome of the cfd results. fine mesh is required near the region where more chances of turbulence, cavitations such as impeller blade wall, volute tongue and low pressure regions. Different meshing techniques can be used to generate the mesh to different parts of pump. Also the conditionofsurfacesand quantity play main role in mesh quality. For the same degree of polynomial the finite element space generated by hexahedral elements is richerthanthespacegenerated by tetrahedral elements. However the tetrahedral elements are best to model complex geometry domain with little distortion of mesh. Moreover, the computational cost for assembling the global stiffness matrix for tetrahedral elements is lower because there is not necessary numerical integration. Table-3 The mesh statistics is given bellow for each component:- Sr. no Component Mesh type Node point Element No. 1 Impeller(Rot ating Domain) Hexahedral 2308800 2438112 2 volute Tetrahedral 564769 1920449 3 In pipe Hexahedral 237600 244900 4 Out pipe Tetrahedral 34435 93026 5 Elbow Hexahedral 408988 398634 Fig.5 Blocking of impeller Fig.6 Hexahedral mesh for single fluid passage Fig.7 Hexahedral mesh by blocking method
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7382 Fig.7 Tetrahedral Meshing of volute Fig. 8 Meshing of In pipe, Out pipe and Elbow pipe 4.2 Boundary Conditions Pre-processing consist of the input flow problem to cfd program by means of operator friendly interface and subsequent transformation of this input into a form suitable for use by the solver. The user activities at the preprocessing stage involve: 1. Selection of physical and chemical phenomenon that need to be modelled. 2. Definition of fluid properties, fluid iswaterhence select the water as fluid. 3. Specification of appropriate boundary condition at cells which coincide with or touch the domain boundary. We give boundary condition as the flow rate of 1000 m3 /hr, and speed of 1450 rpm as per our problem statement. Inlet discharge conditions vary in 250, 500, 750, 1000,1250, 1500,1750 m3/hr. 4. Boundary conditions given to the pump are depends upon the type input data and desired results. 5. Input to impeller is given in mass flow rate condition in kg / sec. 6. For rotating domain in pump, wall are consider as the no slip wall and coordinate frame as the rotating. 7. For stator domain, wall is considered as No slip wall and wall roughness consider as smooth wall. Table-4 Boundary condition given to CFX Pre Fluid Water (200 ) Inlet condition 101353 Pa Mass flow inlet 277 Kg/sec Domain motion ( Angular) -1450 RPM Interference model General Connection Interference type Fluid- Fluid Mass and momentum option for interference Conservative Interference flux Analysis type Steady state Turbulence model Shear stress transport 5. RESULTS Visualization of the counters of pressure and velocity variation are presented bellow. This contours give the better understanding of low and high pressure areas which are useful in modification in geometrical parameters. By solving different expressions in the cfx solvers, we can get pump performance parameters such as power, discharge , head obtained, and efficiency of pump on both impeller and pump side.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7383 Table-5 Result table at 1000 m3/hr Mass flow rate 277 kg/sec Total pressure inlet -799659 [Pa] Total pressure outlet 17193.4 [Pa] Volumetric efficiency 96.4123 % Impeller efficiency 80.57 % RPM 1450 Overall efficiency 75.37% Total head output 83.51 m Hydraulic power 237751 [W] Total torque 1982.92 J 5.1 Pressure and velocity distribution for different discharge Fig.9 Pressure distribution in the pump volume at 1000 m3/hr Fig.9 Pressure distribution over the blades at 1000 m3/hr Fig.10 velocity distribution at sectional plane at 1000 m3/hr
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7384 Fig.11 Velocity distribution at 250 m3 /hr Fig.12 Pressure distribution at 250 m3 /hr Fig.13 Velocity distribution at 500 m3 /hr Fig.14 Pressure distribution at 500 m3/hr Fig.15 Pressure distribution at 750 m3/hr Fig.16 Velocity distribution at 750 m3/hr
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7385 Fig.17 Pressure distribution at 1250 m3/hr Fig.18 Velocity distribution at 1250 m3 /hr Fig.19 Pressure distribution at 1500 m3/hr Fig.20 Velocity distribution at 1500 m3 /hr Fig.21 Pressure distribution at 1500 m3/hr Fig.22 Velocity distribution at 1750 m3/hr
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7386 Graph-1 Performance curve 3. CONCLUSIONS The pump performance calculated by the cfd simulations is well suitable for the given pump requirement. The required head is 77m and designed head of impeller id between 89 m. After simulation of pump, results satisfactory with total head of 83 m , which Is above the required head. Observations obtained are bellow:- 1. As discharge increases, the power is increases in constant proportion. 2. At low discharge condition( 250, 500 m3/hr), pressure distribution at volute is dense and increase rapidly. Cavitation is seems to be more near blade inward curve side. 3. Pump efficiency is higher at 1000- 1200 m3/ hr range. Pump performance is satisfactory at our designed condition (1000 m3/ hr). 4. Whirl component is more at volute neck, means back flow is observed at neck and impeller- volute interface. 5. Efficiency of the pump likely to be reduced after 1500 m3/hr. Head also reduced sharply. 6. At lower discharge condition, pump is showing vibration, uneven pressure and velocity distribution. REFERENCES [1] Mohamad hazeri Ismail. Design and development of centrifugal pump impeller for performanceenhancement. https://www.researchgate.net/publication/285055176 [2] Farah Elida Selamat.DesignandAnalysisofCentrifugal Pump Impeller for Performance Enhancement. Journal of Mechanical Engineering Vol SI 5(2), 36-53, 2018 [3] David Cowan, Thomas Liebner, Simon Bradshaw. . Influence of impeller suction specific speed on vibration performance. Proceedings of the Twenty-Ninth International Pump Users Symposium October 1-3, 2013, Houston, Texas [4] Jianhua Liu, Xiangyang Zhao and Miaoxin Xiao. Study on the Design Method of Impeller on Low Specific Speed Centrifugal Pump. The Open Mechanical Engineering Journal, 2015, 9, 594-600 [5] Mukesh Sahdev. Basics Concepts of operation, Maintenance, and Troubleshooting. The Chemical Engineers’ Resource Page, www.cheresources.com [6] Marcus Beck, Paul Uwe Thamsen. How to design a centrifugal pump withconstantpowerconsumptionforall flow rates Distributed under a Creative Commons Attribution| 4.0 International License https://hal.archives-ouvertes.fr/hal-01549128 [7] R. M. Pande, S. U. Kandharkar, R. B. Patthe, V.M.Nandedkar, V.B. Tungikar. Computational Fluid Dynamics (CFD) of Centrifugal Pump to Study the Cavitation Effect. International Journal onTheoretical and Applied Research in Mechanical Engineering (IJTARME) [8] Tilahun Nigussie, Edessa Dribssa Design and CFD Analysis of Centrifugal Pump International Journal of Engineering Research and General Science Volume 3, Issue 3, May-June, 2015 [9] Raghavendra S Muttalli , Shweta Agrawal , Harshla Warudkar , CFD Simulation of Centrifugal Pump Impeller Using ANSYS-CFX International Journal of Innovative Research in Science, Engineering and Technology [10] Mr. Nilesh Patil , Prof.G.S.Joshi , Prof.Dr.V.R.Naik Validation in the improved performance of Centrifugal pump using CFD International Research Journal of Engineering and Technology (IRJET) [11] Mr. Jekim J. Damor, Prof. Dilip S. Patel, Prof. Kamlesh H.Thakkar , Prof. Pragnesh K. Brahmbhatt Experimental and CFD Analysis Of Centrifugal Pump Impeller- A Case Study international journal of engineering and research technology
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7387 [12] Mehta Mehul Pravinchandra Improving The Head And Efficiency of A Pump 2016 IJEDR | Volume 4, Issue 2 [13] X Q Zheng et al Study on internal flowfieldsimulation accuracy of centrifugal impellers based on different meshing types IOP Conference Series: Earth and Environmental Science

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IRJET- Design and Performance Curve Generation by CFD Analysis of Centrifugal Pump

  • 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7378 Design and Performance Curve Generation by CFD Analysis of Centrifugal Pump Supriya Jadhav1, Vaibhav Ghodake2, Pavan Chipade3, Shubham Gaikwad4, Vikram Ghule5, Nilesh Gaidhani6 1Supriya Jadhav, UG student, Dr. D Y Patil School of Engineering, Pune 2Vaibhav Ghodake, UG student, Dr. D Y Patil School of Engineering, Pune 3Pavan Chipade, UG student, Dr. D Y Patil School of Engineering, Pune 4Shubham Gaikwad, UG student, Dr. D Y Patil School of Engineering, Pune 5 vikram Ghule, Professor, Dept. of mechanical Engineering, Dr. D Y Patil School of Engineering, Pune 6Nilesh Gaidhani, Design Executive Indo Pump, Pune. ---------------------------------------------------------------------***--------------------------------------------------------------------- Abstract - This work investigates a systematicnumerical approach that employs Computational Fluid Dynamics (CFD) to obtain performance curves of a backward-curved centrifugal pump. Capacity curve obtained from the CFDS analysis of centrifugal pump gives wide approach to parameters such as cavitation and reverse flow. Semi open impeller with single volute casing defines the path of flow. This study is focused on effect varying discharge on its performance parameters such as head, required powerand efficiency. Head discharge relation will give ease of pump selection. Mesh generation technique had discussed in the project work for better CFD results. Key Words: pump design, construction of blade, CFD analysis, cavitation, performance curve. 1.INTRODUCTION A pump is a mechanical device for moving a fluid from a lower to a higher location or from lower to higher pressure area. Performance of the ump may be affected due to some geometrical and input parameters such as blade angle, impellersize,dischargeandheadrequired.To overcome the problem, designers often change the geometry of the pump selection parameters. Specific speed determines the geometry of the impellerandforces in pump due to fluid flow whole design may be depend on the performance curve generation which helps the overcome the selection problem s and the required BEP. While overcoming the losses the designed modification can be done. 1.1 OBJECTIVES 1. Familiar approach to improve the design of centrifugal pump and optimize its operational parameters. 2. To study the centrifugal pump approaching towards the radial flow pumps. 3. To evaluate pressure distribution at blade and shroud region of the centrifugal pump. 4. To obtain the optimumpumpimpellerdesign for effective suction of pump. 5. Plot performance curve of pump(H&Qcurve, Efficiency vs. discharge vs. head curve). 6. To investigate the effective of impeller geometry on pump performance. 7. To analyze the effect of variable dischargeon cavitation pressure counters at impeller blade. 8. To check the performance of pump such as efficiency, hydraulic power output wrt varying discharge. 1.2 METHODOLOGY Fig.1 flow of research
  • 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7379 2. DESIGN AND DEVELOPMENT 2.1 Impeller Pump have to carry 1000m3/hr with abrasive material for the total head of 75 m from the storage tank at atmospheric pressure. Specific gravity of fluid flowing through the pump is 1.0. Pump having the speed for impeller is 1450 rpm. The overall efficiency is assumed to be 80% for the pump. While designing the pump, design will tends towards the missed flow region. While designing the pump modification in the design may vary with respect to results. Table -1 Dimensions of Impeller Parameters Dimensions Outside diameter ( 530 mm Eye diameter ( 288 mm- 290 Vane inlet edge diameter ( 289mm Outlet width 44 mm Inlet width ( ) 81 mm Diameter of shaft ( 59 mm Vane inlet angle Vane outlet angle ( Vane thickness ( t) 8 mm Genration of impeller blade is mainly focused on the blade curveture. Bl;ade curveture the pump performance as it seprstes pressure regions. Blade curve is genratedby multiple arc method.in multiple arc method, impeller is divided into 6-8 curves. Final blade curve genrated is replica of the curves in each section. Also impeller shroud is designed with inlet and outlet width dimensions for smooth flow of fluid. Fig.2 Blade curve by multiple arc method Fig.3 Developement of shroud Fig.4 Developement of Impeller Blade and Shroud 2.2 Single Volute Casing
  • 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7380 Volute of centrifugal pumpisgeneratedinsoftware CF Turbo. CF turbo is popular tool for impeller and volute generation due to Rapid design of hydraulic high-quality pumps. Integration of established pump design theory. Comfortable, reliable and user friendly Direct interfaces for many CAE-software packages .Comprehensive and detailed documentation manual. Table-2 Input parameters for volute in CF Turbo Required discharge 1000 Head required 75 m Inner diameter 557 mm Inner width of volute 90 mm Outlet nozzle diameter 250nmm Neck of volute Fig.4 Generation Single volute in CF turbo 3. MODIFICATIONS OF STATOR COMPONENT:- 3.1 In-pipe And Elbow: In pipe is used to guide the inlet water to theelbow. Elbow is intermediate part between the Inpipe and impeller shroud. Fig (2). Interference is created between the Inpipe elbow and impeller in CFX pre. 3.2 Out-pipe Function is to guide the flow of watercomingout from the volute casting. This is required to minimize the whirl component and to achieve better results. Table-3 dimensions of auxiliary components Element Diameter length In Pipe 250 1000 Elbow 250-290 175 Out pipe 250 500 Interference is creates between the Inpipe and Elbow is needed during CFD simulations, so the dimensions must match with other component. Outpipe coming out from the casing outlet is increasing in cross-sectional area to create more head at outlet by converting the kinetic energy into pressure. Fig.5 auxiliary component Inlet pipe, Elbow, Outlet pipe 4. CFD ANALYSIS As the impeller moves through the fluid, low-pressure areas are formed because the fluid accelerates aroundthe blades. The higher the fluid velocity, the lower becomes the local pressure. If it falls below vapor pressure, the fluid vaporizes and forms small bubbles of gas. These are dragged to areas of higher pressure, where they collapse and can cause very strong local shockwaves in the fluid, which may even damage the blades. CFD helps to design pumps with favorable cavitation behavior over a wide operating range. i) Preparation of surface model oftheimpellerandCasing using software like PRO-E, CATIA, Uni-Graphics. ii) Grid generation by using software like ANSYS-IECM.
  • 4. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7381 iii) Application of boundary conditions usingsoftwarelike CFX PRE. iv) Solution and analysis of results using software like ANSYS-CFX POST, Fluent. v) Analysis of flow through hydraulic passages and prediction of pump performance characteristics by application of computational fluid dynamic (CFD) techniques. 4.1. MESHING The subdivision of the domain into no of smaller, non- overlapping sub-domains: a grid (or mesh) of cells (or control volumes or elements).For the meshingofimpeller we used hexahedral mesh and for the volute we used tetrahedral mesh. Meshing plays main role in the outcome of the cfd results. fine mesh is required near the region where more chances of turbulence, cavitations such as impeller blade wall, volute tongue and low pressure regions. Different meshing techniques can be used to generate the mesh to different parts of pump. Also the conditionofsurfacesand quantity play main role in mesh quality. For the same degree of polynomial the finite element space generated by hexahedral elements is richerthanthespacegenerated by tetrahedral elements. However the tetrahedral elements are best to model complex geometry domain with little distortion of mesh. Moreover, the computational cost for assembling the global stiffness matrix for tetrahedral elements is lower because there is not necessary numerical integration. Table-3 The mesh statistics is given bellow for each component:- Sr. no Component Mesh type Node point Element No. 1 Impeller(Rot ating Domain) Hexahedral 2308800 2438112 2 volute Tetrahedral 564769 1920449 3 In pipe Hexahedral 237600 244900 4 Out pipe Tetrahedral 34435 93026 5 Elbow Hexahedral 408988 398634 Fig.5 Blocking of impeller Fig.6 Hexahedral mesh for single fluid passage Fig.7 Hexahedral mesh by blocking method
  • 5. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7382 Fig.7 Tetrahedral Meshing of volute Fig. 8 Meshing of In pipe, Out pipe and Elbow pipe 4.2 Boundary Conditions Pre-processing consist of the input flow problem to cfd program by means of operator friendly interface and subsequent transformation of this input into a form suitable for use by the solver. The user activities at the preprocessing stage involve: 1. Selection of physical and chemical phenomenon that need to be modelled. 2. Definition of fluid properties, fluid iswaterhence select the water as fluid. 3. Specification of appropriate boundary condition at cells which coincide with or touch the domain boundary. We give boundary condition as the flow rate of 1000 m3 /hr, and speed of 1450 rpm as per our problem statement. Inlet discharge conditions vary in 250, 500, 750, 1000,1250, 1500,1750 m3/hr. 4. Boundary conditions given to the pump are depends upon the type input data and desired results. 5. Input to impeller is given in mass flow rate condition in kg / sec. 6. For rotating domain in pump, wall are consider as the no slip wall and coordinate frame as the rotating. 7. For stator domain, wall is considered as No slip wall and wall roughness consider as smooth wall. Table-4 Boundary condition given to CFX Pre Fluid Water (200 ) Inlet condition 101353 Pa Mass flow inlet 277 Kg/sec Domain motion ( Angular) -1450 RPM Interference model General Connection Interference type Fluid- Fluid Mass and momentum option for interference Conservative Interference flux Analysis type Steady state Turbulence model Shear stress transport 5. RESULTS Visualization of the counters of pressure and velocity variation are presented bellow. This contours give the better understanding of low and high pressure areas which are useful in modification in geometrical parameters. By solving different expressions in the cfx solvers, we can get pump performance parameters such as power, discharge , head obtained, and efficiency of pump on both impeller and pump side.
  • 6. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7383 Table-5 Result table at 1000 m3/hr Mass flow rate 277 kg/sec Total pressure inlet -799659 [Pa] Total pressure outlet 17193.4 [Pa] Volumetric efficiency 96.4123 % Impeller efficiency 80.57 % RPM 1450 Overall efficiency 75.37% Total head output 83.51 m Hydraulic power 237751 [W] Total torque 1982.92 J 5.1 Pressure and velocity distribution for different discharge Fig.9 Pressure distribution in the pump volume at 1000 m3/hr Fig.9 Pressure distribution over the blades at 1000 m3/hr Fig.10 velocity distribution at sectional plane at 1000 m3/hr
  • 7. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7384 Fig.11 Velocity distribution at 250 m3 /hr Fig.12 Pressure distribution at 250 m3 /hr Fig.13 Velocity distribution at 500 m3 /hr Fig.14 Pressure distribution at 500 m3/hr Fig.15 Pressure distribution at 750 m3/hr Fig.16 Velocity distribution at 750 m3/hr
  • 8. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7385 Fig.17 Pressure distribution at 1250 m3/hr Fig.18 Velocity distribution at 1250 m3 /hr Fig.19 Pressure distribution at 1500 m3/hr Fig.20 Velocity distribution at 1500 m3 /hr Fig.21 Pressure distribution at 1500 m3/hr Fig.22 Velocity distribution at 1750 m3/hr
  • 9. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7386 Graph-1 Performance curve 3. CONCLUSIONS The pump performance calculated by the cfd simulations is well suitable for the given pump requirement. The required head is 77m and designed head of impeller id between 89 m. After simulation of pump, results satisfactory with total head of 83 m , which Is above the required head. Observations obtained are bellow:- 1. As discharge increases, the power is increases in constant proportion. 2. At low discharge condition( 250, 500 m3/hr), pressure distribution at volute is dense and increase rapidly. Cavitation is seems to be more near blade inward curve side. 3. Pump efficiency is higher at 1000- 1200 m3/ hr range. Pump performance is satisfactory at our designed condition (1000 m3/ hr). 4. Whirl component is more at volute neck, means back flow is observed at neck and impeller- volute interface. 5. Efficiency of the pump likely to be reduced after 1500 m3/hr. Head also reduced sharply. 6. At lower discharge condition, pump is showing vibration, uneven pressure and velocity distribution. REFERENCES [1] Mohamad hazeri Ismail. Design and development of centrifugal pump impeller for performanceenhancement. https://www.researchgate.net/publication/285055176 [2] Farah Elida Selamat.DesignandAnalysisofCentrifugal Pump Impeller for Performance Enhancement. Journal of Mechanical Engineering Vol SI 5(2), 36-53, 2018 [3] David Cowan, Thomas Liebner, Simon Bradshaw. . Influence of impeller suction specific speed on vibration performance. Proceedings of the Twenty-Ninth International Pump Users Symposium October 1-3, 2013, Houston, Texas [4] Jianhua Liu, Xiangyang Zhao and Miaoxin Xiao. Study on the Design Method of Impeller on Low Specific Speed Centrifugal Pump. The Open Mechanical Engineering Journal, 2015, 9, 594-600 [5] Mukesh Sahdev. Basics Concepts of operation, Maintenance, and Troubleshooting. The Chemical Engineers’ Resource Page, www.cheresources.com [6] Marcus Beck, Paul Uwe Thamsen. How to design a centrifugal pump withconstantpowerconsumptionforall flow rates Distributed under a Creative Commons Attribution| 4.0 International License https://hal.archives-ouvertes.fr/hal-01549128 [7] R. M. Pande, S. U. Kandharkar, R. B. Patthe, V.M.Nandedkar, V.B. Tungikar. Computational Fluid Dynamics (CFD) of Centrifugal Pump to Study the Cavitation Effect. International Journal onTheoretical and Applied Research in Mechanical Engineering (IJTARME) [8] Tilahun Nigussie, Edessa Dribssa Design and CFD Analysis of Centrifugal Pump International Journal of Engineering Research and General Science Volume 3, Issue 3, May-June, 2015 [9] Raghavendra S Muttalli , Shweta Agrawal , Harshla Warudkar , CFD Simulation of Centrifugal Pump Impeller Using ANSYS-CFX International Journal of Innovative Research in Science, Engineering and Technology [10] Mr. Nilesh Patil , Prof.G.S.Joshi , Prof.Dr.V.R.Naik Validation in the improved performance of Centrifugal pump using CFD International Research Journal of Engineering and Technology (IRJET) [11] Mr. Jekim J. Damor, Prof. Dilip S. Patel, Prof. Kamlesh H.Thakkar , Prof. Pragnesh K. Brahmbhatt Experimental and CFD Analysis Of Centrifugal Pump Impeller- A Case Study international journal of engineering and research technology
  • 10. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 06 Issue: 05 | May 2019 www.irjet.net p-ISSN: 2395-0072 © 2019, IRJET | Impact Factor value: 7.211 | ISO 9001:2008 Certified Journal | Page 7387 [12] Mehta Mehul Pravinchandra Improving The Head And Efficiency of A Pump 2016 IJEDR | Volume 4, Issue 2 [13] X Q Zheng et al Study on internal flowfieldsimulation accuracy of centrifugal impellers based on different meshing types IOP Conference Series: Earth and Environmental Science