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000826534 019__ $$a1027109932$$a1027362782$$a1027650417$$a1027711734$$a1029091525$$a1030295977
000826534 020__ $$a9783319709505$$q(electronic book)
000826534 020__ $$a331970950X$$q(electronic book)
000826534 020__ $$z9783319709499
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000826534 0247_ $$a10.1007/978-3-319-70950-5$$2doi
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000826534 050_4 $$aTA357.5.D37
000826534 08204 $$a620.1/064$$223
000826534 24500 $$aCFD techniques and energy applications /$$cZied Driss, Brahim Necib, Hao-Chun Zhang, editors.
000826534 264_1 $$aCham, Switzerland :$$bSpringer,$$c2018.
000826534 300__ $$a1 online resource (xii, 194 pages) :$$billustrations
000826534 336__ $$atext$$btxt$$2rdacontent
000826534 337__ $$acomputer$$bc$$2rdamedia
000826534 338__ $$aonline resource$$bcr$$2rdacarrier
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000826534 5050_ $$aIntro; Preface; Acknowledgements; Contents; 1 Theoretical Analysis of the Performance of a Solar Chimney Coupled with a Geothermal Heat Exchanger; 1 Introduction; 2 Description of the Solar Chimney; 2.1 Classical Solar Chimney; 2.2 Geothermalâ#x80;#x93;Solar Chimney; 2.2.1 Night Operation; 2.2.2 Daytime Operation; 3 Thermal Modeling of the Heating System; 4 The Collector Theoretical Model; 4.1 For the Classical Solar Chimney; 4.2 For the Hybrid Solar Chimney; 4.3 Night Operation; 4.3.1 Energy Dissipation in the Collector; 4.3.2 Air Exit Velocity (Without Collector Losses)
000826534 5058_ $$a4.3.3 Air Exit Velocity (with Collector Losses)4.4 Daytime Operation; 5 Numerical Solution; 6 Results and Discussion; 6.1 Validation; 6.2 Performance During Nighttime; 6.2.1 Effect of Collector Radius; 6.2.2 Effect of Water Flow Rate; 6.2.3 Effect of Water Inlet Temperature; 6.2.4 Effect of Collector Losses; 6.3 Plant Performance During Daytime; 6.3.1 Effect of Collector Radius; 6.3.2 Effect of Solar Radiation; 6.3.3 Effect of Water Flow Rate; 6.3.4 Thermal Heat Losses; 6.4 Effect of Heat Exchanger Integration; 6.5 Comparison of Different Operating Modes; 7 Conclusion; References
000826534 5058_ $$a2 Study of the Turbulence Model Effect on the Airflow Characteristics Inside a Solar Chimney Power Plant1 Introduction; 2 Geometrical Parameters; 3 Numerical Model; 3.1 Boundary Conditions; 3.2 Meshing; 4 Comparison with Experimental Results; 5 Numerical Results; 5.1 Temperature; 5.2 Velocity Magnitude; 5.3 Static Pressure; 5.4 Dynamic Pressure; 5.5 Turbulent Kinetic Energy; 5.6 Turbulent Kinetic Energy Dissipation Rate of the; 6 Conclusion; References; 3 Numerical Study of the Fluid Characteristics Effect on the Penetration of a Negatively Buoyant Jet; 1 Introduction
000826534 5058_ $$a2 Geometrical Arrangement3 Numerical Method; 4 Fluid Characteristics Study; 4.1 Molecular Diffusivity Effect; 4.1.1 Volume Fraction; 4.1.2 Penetration Depth; 4.1.3 Mixing Layer Between the Jet and the Salt Water; 4.2 Difference of the Density \frac{\Delta \uprho }{\uprho } Effect; 4.2.1 Volume Fraction; 4.2.2 Transient Penetration; 4.2.3 Jet Stationary Profile; 4.3 Kinematic Viscosity of the Salt Water (ν) Effect; 4.3.1 Volume Fraction; 4.3.2 Transient Penetration; 4.3.3 The Jet Stationary Profile; 5 Conclusion; References
000826534 5058_ $$a4 Computer Simulation of Liquid Motion in a Container Subjected to Sinusoidal Excitation with Different Turbulence Models1 Introduction; 2 Geometry Configuration; 3 Numerical Model; 4 Numerical Results; 4.1 Free Surface Deformation; 4.2 Static Pressure; 4.3 Magnitude Velocity; 4.4 Turbulent Kinetic Energy; 4.5 Turbulent Kinetic Energy Dissipation Rate; 5 Comparison with Experimental Results; 6 Conclusion; References; 5 Numerical Investigation for a Vanned Mixed Flow Turbine Volute Under Steady Conditions; 1 Introduction; 2 Turbine Geometry; 3 Numerical Model; 3.1 Meshing Generation
000826534 506__ $$aAccess limited to authorized users.
000826534 520__ $$aThis book focuses on CFD (Computational Fluid Dynamics) techniques and the recent developments and research works in energy applications. It is devoted to the publication of basic and applied studies broadly related to this area. The chapters present the development of numerical methods, computational techniques, and case studies in the energy applications. Also, they offer the fundamental knowledge for using CFD in energy applications through new technical approaches. Besides, they describe the CFD process steps and provide benefits and issues for using CFD analysis in understanding the flow complicated phenomena and its use in the design process. The best practices for reducing errors and uncertainties in the CFD analysis are further described. The book reveals not only the recent advances and future research trends of CFD Techniques but also provides the reader with valuable information about energy applications. It aims to provide the readers, such as engineers and PhD students, with the fundamentals of CFD prior to embarking on any real simulation project. Additionally, engineers supporting or being supported by CFD analysts can take advantage from the information of the book’s different chapters.
000826534 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed March 1, 2018).
000826534 650_0 $$aComputational fluid dynamics.
000826534 7001_ $$aDriss, Zied,$$eeditor.
000826534 7001_ $$aNecib, Brahim,$$eeditor.
000826534 7001_ $$aZhang, Hao-Chun,$$eeditor.
000826534 77608 $$iPrint version:$$z3319709496$$z9783319709499$$w(OCoLC)1006440603
000826534 852__ $$bebk
000826534 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-3-319-70950-5$$zOnline Access$$91397441.1
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