IJSER Home >> Journal >> IJSER
International Journal of Scientific and Engineering Research
ISSN Online 2229-5518
ISSN Print: 2229-5518 2    
Website: http://www.ijser.org
scirp IJSER >> Volume 3,Issue 2,February 2012
Conceptual Framework Of Centrifugal Pumps Towards Industrial Revolution
Full Text(PDF, )  PP.595-601  
Author(s)
SELVARASU.A,KANTHAVEL.K,KRISHNARAJ.R,KARPAGARAJAN.S,RAVI.G,RAMESH.R
KEYWORDS
Centrifugal pumps, CFD, Efficiency, Failure analysis, Impeller design, Numerical analysis, Optimization
ABSTRACT
In recent years, researchers have put a considerable effort to increase the efficiency in a centrifugal pump .The current scenariointhe impeller design interest has considerably increased in recent years in various publication, statingthe pump efficiency, pump performance, impeller design, modification the vane angle through CFD analysis has consideration to elaborate the conceptual frame work of a centrifugal pumps.
References
[1]R. Spence, J. Amaral-Teixeira, A CFD parametric study of geometrical variations on the pressure pulsations and performance characteristics of a centrifugal pump,Computers& Fluids 38 (2009) 1243–1257

[2]. John S. Anagnostopoulos, A fast numerical method for flow analysis and blade design in centrifugalpump impellers, Computers & Fluids 38 (2009) 284–289, Desalination 249 (2009) 654–659

[3]. A. Rossetti, G. Pavesi, G. Ardizzon, A new two stage miniature pump: Design, experimental characterization andnumerical analyses, Sensors and Actuators A 164 (2010) 74–87

[4]. M.A. Langthjem*, N. Olhoff, A numerical study of flow-induced noise in a two-dimensional centrifugal pump, Part I. Hydrodynamics, Journal of Fluids and Structures 19 (2004) 349–368

[5]. Jorge Parrondo, Javier Pérez, RaúlBarrio , José González, A simple acoustic model to characterize the internal low frequency sound fieldin centrifugal pumps,Applied Acoustics 72 (2011) 59–64

[6].RamazanBayindir a, YucelCetincevizb,A water pumping control system with a programmable logic controller (PLC) andindustrial wireless modules for industrial plants—An experimental setup,SA Transactions 50 (2011) 321–328

[7]. Punit Singh *, Franz Nestmann, An optimization routine on a prediction and selection model for the turbineoperation of centrifugal pumps, Experimental Thermal and Fluid Science 34 (2010) 152–164.

[8]. FAN Hui-min, Applications of CFD technique in the design and flowanalysis of implantable axial flow blood pump,Journal of hydrodynamics 2010,22(4):518-525 DOI:10.1016/S1001-6058(09)60084-6.

[9].Wei Zhang 1*, Zheng Ma 2, Yun-Chao Yu 1, Hong-Xun Chen 1,, Applied new rotation correction κ −ω SST model for turbulence simulation ofcentrifugal impeller in the rotating frame of reference 2010, 22(5), supplement :404-407 DOI: 10.1016/S1001-6058(09)60227-4.

[10]. J.W. Mulhollanda,, J.C. Sheltonb, X.Y. Luoc, Blood flow and damage by the roller pumps during Cardiopulmonary by pass, Journal of Fluids and Structures 20 (2005) 129–140.

[11] P. Thanapandi and Rama Prasad, Centrifugal pump transient characteristics and Analysis using the method of characteristics, Int. J. Mech. Sei. Vol. 37, no. 1, pp. 77 89, 1995, Elsevier science ltd, Printed in great britain 0020-7403/95 $9.56 + 0.00

[12]. K.K. Singh, S.M. Mahajani, K.T. Shenoy, A.W. Patwardhan, S.K. Ghosh,CFD modeling of pilot-scale pump-mixer: Single-phase head,and power characteristics,Chemical Engineering Science 62 (2007) 1308 – 1322.

[13]. Jose Caridad , Miguel Asuaje , Frank Kenyery , Andrés Tremante , Orlando Aguillón, Research paper,Characterization of a centrifugal pump impeller under two-phase flow conditions., Journal of Petroleum Science and Engineering 63 (2008) 18–22

[14].Jian-Ye Xia , Si-Jing Wang , Si-Liang Zhang , Jian-Jiang Zhongb, Computational investigation of fluid dynamics in a recently developed centrifugal impeller bioreactor, Biochemical Engineering Journal 38 (2008) 406–413

[15]. HongminLi,Cooling of a permanent magnet electric motor with a centrifugal impeller, International Journal of Heat and Mass Transfer 53 (2010) 797–810

[16].ZHU Zuchao , XIE Peng , OU Guofu , CUI Baolingand LI Yi , Design and Experimental Analyses of Small-flow High-head Centrifugal-vortex Pump for Gas-Liquid Two-phase Mixture*, Chinese Journal of Chemical Engineering, 16(4) 528 534 (2008)

[17].PekkaKilpeläinen, Mika Jaakkola, Pauli Alanaatu, Development of a control system for a multipurpose road repairing machine, Automation in Construction 20 (2011) 662–668

[18]. S. Mihara a,*, T. Haruyama b, T. Iwamoto a,1, Y. Uchiyama a, W. Ootani a, K. Kasami b, R. Sawada a, K. Terasawa c, T. Doke c, H. Natori a, H. Nishiguchi a, A. Maki b, T. Mori a, S. Yamada a,2, Development of a method for liquid xenon purification using a cryogenic centrifugal pump, Cryogenics 46 (2006) 688–693

[19].A. D. Gosman,Developments in industrial computationalfluid dynamics, Trans IChemE, Vol 76, Part A, February 1998.

[20]. Wen-Guang Li, Effects of viscosity of Fluids on centrifugal pump performance andFlow pattern in the impeller, International Journal of Heat and Fluid Flow 21 (2000) 207-212

[21]. Antonio de la Torre, Efficiency optimization in SWRO plant: high efficiency & low maintenance pumps, Desalination 221 (2008) 151–157.

[22]..R. Barrio, J. Fernández, E. Blanco, J. Parrondo, Estimation of radial load in centrifugal pumps using computationalfluid dynamics, European Journal of Mechanics B/Fluids 30 (2011) 316–324.

[23]. G. Rzentkowski, Atomic Energy Control Board, P. O. Box 1046, Station B, Ottawa, Ontario, K1P 5S9 Canada and S. ZbrojaOntario Hydro Technologies, Toronto, Ontario, Canada, Experimental characterization of centrifugal pumps as an acoustic source at, the blade-passing frequency,Journal of Fluids and Structures (2000) 14, 529}558

[24].ShahramDerakhshan, Ahmad Nourbakhsh,Theoretical, numerical and experimental investigation of centrifugal pumps inreverseoperation,Experimental Thermal and Fluid Science 32 (2008) 1620–1627

[25].DanielWolfram,ThomasH.Carolus,Experimentalandnumerical investigationoftheunsteadyflowfield and to regenerationinanisolatedcentrifugalanimpeller , Journal of Sound and Vibration 329 (2010) 4380–4397

[26]. Jong-Soo Choi, Dennis K. McLaughlin, Donald E. Thompson,Experiments on the unsteady flow field and noise generation ina centrifugal pump impeller., Journal of Sound and Vibration 263 (2003) 493–514

[27]. G.Das ,A.N. Sinha, S.K. Mishra "Pathak, B.K.Bhattacharya,Failure analysis of counter shafts of a centrifugal pump, Engineering Failure Analysis 6(1999)267-267

[28]. OM PRAKASH and R. K. PANDEY, Failure analysis of the impellers of a feed pump Engineering Failure Analysis, Vol. 3, No. 1, pp. 45-52, 1996.

[29]. HE Qing-hua, HE Xiang-yu, ZHU Jian-xin, Fault detection of excavator’s hydraulic system based on Dynamic principal component analysis, J. Cent. South Univ. Technol. (2008) 15: 700−705, DOI: 10.1007/s11771−008−0130−8

[30]. A. Ismaier, E. Schlücker, Fluid dynamic interaction between water hammer and centrifugal pumps Nuclear Engineering and Design 239 (2009) 3151–3154.

[31]. B. Baudouy, M. Takeda and S.W. Van Sciver, Hydraulic characterization of centrifugalpumps in He I near saturated conditions, Cryogenics 38 (1998) 737–742

[32] P. Kalokasis; C. B. Akritidis, Improvement in the Effciency of an Impeller by Projecting the Vane into the Eye, J. agric. Engng Res. (2000) 75, 383}387

[33].Mario Šavar ,HrvojeKozmar , Igor Sutlović, Improving centrifugal pump efficiency by impeller trimming Desalination 249 (2009) 654–659

[34]. J.P. Boylan1, Improving pump performance in severe applications, Materials and Design 19 _1998. 279]281

[35]. Daniele Fiaschi *, Roberto Graniglia, GiampaoloManfrida, Improving the effectiveness of solar pumping systems by using modular centrifugal pumps with variable rotational speed, Solar Energy 79 (2005) 234–244

[36]. Punit Singh , Franz Nestmann, Internal hydraulic analysis of impeller rounding in centrifugal pumps as turbines, Experimental Thermal and Fluid Science 35 (2011) 121–134

[37]. R. Spence a,*, J. Amaral-Teixeira b, Investigation into pressure pulsations in a centrifugal pump using numerical methods supported by industrial tests, Computers & Fluids 37 (2008) 690–704

[38]. M.M.A. Shahin, Microcomputer technique for optimum design of centrifugal pumps, North-Holland Microprocessing and Microprogramming 29 (1990) 43-51

[39].Raúl Barrio *, Jorge Parrondo, Eduardo Blanco, Numerical analysis of the unsteady flow in the near-tongue region in a volute-type centrifugal pump for different operating points, Computers & Fluids 39 (2010) 859–870

[40].LI Yao-jun, WANG Fu-junNumerical investigation of performance of an axial-flow pump with inducer*, Journal of hydrodynamics Ser.B, 2007,19(6):705-711.

[41]. Chi Nan Pai , TadahikoShinshi , Akira Shimokohbe, Sensorless measurement of pulsatile flow rate using a disturbance force observerin a magnetically levitated centrifugal blood pump during ventricular assistance, Flow Measurement and Instrumentation 21 (2010) 33_39

[42]. N. Tauveron, I. Dor, Simulation of performance of centrifugal circulatorswithvaneless diffuser for GCR applications, L. AlfayezNuclear Engineering and Design 240 (2010) 2421–2435

[43]. L. Alfayeza, D. Mbab,*, G. Dysonc,The application of acoustic emission for detecting incipient cavitation and the best efficiency point of a 60 kW centrifugal pump: case study,NDT&E International 38 (2005) 354–358

[44]. S.C.M. Yu *, B.T.H. Ng, W.K. Chan, L.P. Chua,The flow patterns within the impeller passages of a centrifugalbblood pump model, Medical Engineering & Physics 22 (2000) 381–393

[45]. S.C.M. Yu *, B.T.H. Ng, W.K. Chan, L.P. Chua, The flow patterns within the impeller passages of a centrifugal blood pump model, Medical Engineering & Physics 22 (2000) 381–393

[46]. Li Chunxi ,, Wang Song Ling , JiaYakui, The performance of a centrifugal fan with enlarged impeller Energy, Conversion and Management 52 (2011) 2902–2910

[47]. Ah Nemdlh, Dieter-Heinz Hellmann, The requirements to successful centrifugal pump application for desalination and power plant processes, Desalination 126 (1999) 199- 205.

[48]. Wu Dazhuan, Wu Peng, Li Zhifeng, Wang Leqin, The transient flow in a centrifugal pump during the discharge valve rapid opening process ,Nuclear Engineering and Design 240 (2010) 4061–4068

[49]. Katharine H. Fraser, M. ErtanTaskin, Bartley P. Griffith, Zhongjun J. Wu,Review The use of computational fluid dynamics in the development of ventricular assist devices, Medical Engineering & Physics 33 (2011) 263–280

[50]. A. Lucius *, G. Brenner, Unsteady CFD simulations of a pump in part load conditions using scale-adaptive simulation,International Journal of Heat and Fluid Flow 31 (2010) 1113–1118

[51]. N.R. Sakthivel, V. Sugumaran , S. Babudevasenapati ,Vibration based fault diagnosis of monoblock centrifugal pump using decision tree, Expert Systems with Applications 37 (2010) 4040–4049

[52]. E. M. Kraeva,Calculation of Energy Parametersin High-Speed Centrifugal Pumps of Low Specific Speed, RUSSIAN AERONAUTICS Vol. 53 No. 1 2010

[53].Andrzej Misiewicz1_, Janusz Skrzypacz2, Cavitation behaviours of low specyfic speed pump impellers designed according to the „tight inlet” rule, Cent. Eur. J. Eng. • 1(2) • 2011 • 195-201

[54]. Khin Cho Thin, MyaMyaKhaing, and KhinMaung Aye, Design and Performance Analysis of Centrifugal Pump, World Academy of Science, Engineering and Technology 46 2008

[55]. TahsinEngin a,*, MesutGur a, ReinhardScholz, Effects of tip clearance and impeller geometry on the performance of semi-open ceramic centrifugal fan impellers at elevated temperatures, Experimental Thermal and Fluid Science 30 (2006) 565–577.

[56]. Y.H. Lee, D.M. Scott*, R.B. Thorpe, Energy losses due to large bubbles beneath spargers in circulating bubble columns, Chemical Engineering Science 55 (2000) 97}112

[57].M. J. Tummers, D. M. Passchier, R. A. W. M. Henkes, Experimental Investigation of an Adverse Pressure Gradient Wake and Comparison with Calculations, Experimental Thermal and Fluid Science 1997; 14:17-24

[58].Bao-ling Cui1, Yong-gang Lin2 and Ying-zi Jin1, Numerical Simulation of Flow in Centrifugal Pump with Complex Impeller, Journal of Thermal Science Vol.20, No.1 (2011) 4752

[59]. Amy l. Throckmorton,1jugal y. Kapadia,1 steven g. Chopski,1 sonya s. Bhavsar,1William b. Moskowitz,2 scott d. Gullquist,2 james j. Gangemi,3 christopher m. Haggerty,4And ajit p. Yoganathan, Numerical, Hydraulic, and Hemolytic Evaluation of an Intravascular Axial Flow Blood Pump to Mechanically Support Fontan Patients, Annals of Biomedical Engineering, Vol. 39, No. 1, January 2011 (_ 2010) pp. 324–336.

[60]. F. Berndta, A. van Bennekom, Pump shaft failures Ð a compendium of case studies, Engineering Failure Analysis 8 (2001) 135±144

Untitled Page