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001467793 001__ 1467793
001467793 003__ OCoLC
001467793 005__ 20230707003339.0
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001467793 008__ 230506s2023\\\\si\\\\\\ob\\\\000\0\eng\d
001467793 019__ $$a1378369091
001467793 020__ $$a9789819918225$$q(electronic bk.)
001467793 020__ $$a9819918227$$q(electronic bk.)
001467793 020__ $$z9819918219
001467793 020__ $$z9789819918218
001467793 0247_ $$a10.1007/978-981-99-1822-5$$2doi
001467793 035__ $$aSP(OCoLC)1378392817
001467793 040__ $$aEBLCP$$beng$$cEBLCP$$dYDX$$dGW5XE
001467793 049__ $$aISEA
001467793 050_4 $$aTJ919
001467793 08204 $$a621.6/7$$223/eng/20230511
001467793 1001_ $$aZhu, Zuchao.
001467793 24510 $$aSolid-liquid two-phase flow in centrifugal pump /$$cZuchao Zhu, Yi Li, Zhe Lin.
001467793 260__ $$aSingapore :$$bSpringer,$$c2023.
001467793 300__ $$a1 online resource (240 p.).
001467793 4901_ $$aFluid Mechanics and Its Applications ;$$vv. 136
001467793 500__ $$a6 Engineering Calculation of Solid-Liquid Two-Phase Pump
001467793 504__ $$aIncludes bibliographical references.
001467793 5050_ $$aIntro -- Contents -- 1 Introduction -- 1.1 Two-Phase Flow Model and Calculation Method -- 1.2 Two-Phase Transport Performance and Prediction -- 1.3 Two-Phase Wear Properties -- References -- 2 Solid-Liquid Two-Phase Calculation Model and Method -- 2.1 Solid-Liquid Two-Phase Model -- 2.1.1 Analysis of the Force of Moving Particles in Fluids -- 2.1.2 Calculation Model of Solid-Liquid Two-Phase Flow -- 2.1.3 Model Suitability Study -- 2.2 Collision Rebound Model -- 2.2.1 Wet and Dry Wall Collision Rebound -- 2.2.2 Rotating Wall Collision Rebound -- References
001467793 5058_ $$a3 Wear Characteristics of Static Walls -- 3.1 Calculation Method and Experiment -- 3.1.1 Computational Method and Geometric Model -- 3.1.2 Experimental System and Measurement Method -- 3.1.3 Results Comparison and Calculation Method Verification -- 3.2 Particle Motion and Wear Characteristics in the Bend Pipe -- 3.2.1 Analysis of Particle Motion in the Bend Pipe -- 3.2.2 Analysis of Wall Wear Characteristics -- 3.3 Effect of Wall Shape Change on Wear -- 3.3.1 Wear Analysis of Wall Surface with Bump in Bend Pipe -- 3.3.2 Wear Analysis of Wall Surface with Groove in Bend Pipe -- References
001467793 5058_ $$a4 Two-Phase Flow Characteristics and Transportation Performance in Centrifugal Pump -- 4.1 Calculation of Two-Phase Flow in Pump Based on Mixture Model -- 4.1.1 Calculation Scheme and Grid -- 4.1.2 Different Solid Particle Sizes Conditions -- 4.1.3 Different Solid Concentration Conditions -- 4.1.4 Different Flow Conditions -- 4.1.5 Different Solid Density Conditions -- 4.2 Two Phase Flow Calculation in Pump Based on DPM Model -- 4.2.1 Calculation Scheme -- 4.2.2 Different Solid Particle Sizes Conditions -- 4.2.3 Different Solid Concentration Conditions -- 4.2.4 Different Flow Conditions
001467793 5058_ $$a4.3 Two Phase Flow Calculation in Pump Based on DEM Model -- 4.3.1 Calculation Method and Scheme -- 4.3.2 Analysis of Particle Motion Characteristics -- 4.3.3 Influence of Particle Mass Concentration on Flow Field in Centrifugal Pump -- Reference -- 5 Wear Characteristics of the Wall Surface in Centrifugal Pump -- 5.1 Solid-Liquid Two-Phase Transport Experiment and Calculation Method Verification -- 5.1.1 Experimental Apparatus -- 5.1.2 Grid and Calculation Settings -- 5.1.3 Calculation Method Verification -- 5.2 Wear of the Centrifugal Pump Runner -- 5.2.1 Impeller Wear Analysis
001467793 5058_ $$a5.2.2 Volute Wear Analysis -- 5.2.3 Wear Analysis of Front and Rear Wear Plates -- 5.3 Wear of the Pipeline Matched with Centrifugal Pump -- 5.3.1 Vertical Pipe Wear Analysis -- 5.3.2 Bend Pipe Wear Analysis -- 5.3.3 Horizontal Pipe Wear Analysis -- 5.3.4 Particle Motion Analysis Inside Pipes -- 5.4 Wear of the Flow Channel for Conveying Mixed Size Particle -- 5.4.1 Calculation Method and Scheme -- 5.4.2 Calculation Method Verification -- 5.4.3 Runner Wear Analysis -- 5.4.4 Relationship Analysis Between the Flow Characteristics and Wear Characteristics -- Reference
001467793 506__ $$aAccess limited to authorized users.
001467793 520__ $$aThis book conducts a systematic study on internal flow characteristics and performance of centrifugal pump for solidliquid mixed transportation. First, the applicability of the computational model for two-phase flow is analyzed. Then the relationship between the two-phase flow characteristics and wall wear in the pipeline is revealed. And the flow characteristics in centrifugal pumps are analyzed in relation to conveying performance and wall wear. Finally, the engineering application calculation of the mixed transportation pump with different impeller structures is carried out. The target audience of this book is researchers who perform calculations and engineering applications of solidliquid two-phase pumps. This book considers the influence of the particle size on the force magnitude of the particles and analyzes the applicability of different solidliquid two-phase calculation models. Considering the different motion trajectories of particles colliding with dry wall, wet wall, stationary wall, and moving wall, visual experiments are used to study the collision rebound model of different walls. The collision rebound model is applied to the numerical simulation of solidliquid mixed transport.
001467793 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed May 11, 2023).
001467793 650_0 $$aCentrifugal pumps.
001467793 650_0 $$aTwo-phase flow.
001467793 655_0 $$aElectronic books.
001467793 7001_ $$aLi, Yi.
001467793 7001_ $$aLin, Zhe.
001467793 77608 $$iPrint version:$$aZhu, Zuchao$$tSolid-Liquid Two-Phase Flow in Centrifugal Pump$$dSingapore : Springer Singapore Pte. Limited,c2023$$z9789819918218
001467793 830_0 $$aFluid mechanics and its applications ;$$vv. 136.
001467793 852__ $$bebk
001467793 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-99-1822-5$$zOnline Access$$91397441.1
001467793 909CO $$ooai:library.usi.edu:1467793$$pGLOBAL_SET
001467793 980__ $$aBIB
001467793 980__ $$aEBOOK
001467793 982__ $$aEbook
001467793 983__ $$aOnline
001467793 994__ $$a92$$bISE