Energy Storage. Группа авторов

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Название Energy Storage
Автор произведения Группа авторов
Жанр Физика
Серия
Издательство Физика
Год выпуска 0
isbn 9781119555582



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Introduction 8.2 Design of Latent Heat Storage (LHS) System 8.3 Analysis of Phase Change Systems 8.4 Simulation 8.5 Results and Discussion 8.6 Conclusion Acknowledgement Abbreviation References

      14  Index

      15  End User License Agreement

      List of Illustrations

      1 Chapter 1Figure 1.1 Number of CSP projects in various countries.Figure 1.2 Current status of worldwide CSP plants.Figure 1.3 CSP receiver concepts.Figure 1.4 CSP receiver concepts as used worldwide.Figure 1.5 Integration of thermal energy storage systems to a CSP plant.Figure 1.6 Reported integration of thermal energy storage systems in worldwide C...Figure 1.7 Active two-tank direct thermal energy storage.Figure 1.8 Active single tank thermocline thermal energy storage.Figure 1.9 Active two-tank indirect thermal energy storage.Figure 1.10 Passive thermal energy storage.

      2 Chapter 2Figure 2.1 Classification of primary energy sources.Figure 2.2 Secondary energy sources.Figure 2.3 Classification of solar energy.Figure 2.4 Classification of CSP systems.Figure 2.5 Parabolic trough collector.Figure 2.6 Linear fresnel reflector.Figure 2.7 Solar tower.Figure 2.8 PDC system.Figure 2.9 Energy storage systems.Figure 2.10 Parabolic solar reflector.Figure 2.11 Flexible parabola.Figure 2.12 Various actuators.Figure 2.13 (a) Plan of receiver coil drawing (b) Elevation of receiver coil blo...Figure 2.14 Size and photo mixed alkali halide compounds doped with metallic imp...Figure 2.15 Cast-iron core crucible design.Figure 2.16 Schematic of experimental set up.Figure 2.17 Installation of the solar thermal storage and solar tracker unit.Figure 2.18 Solar thermal storage with solar tracker unit.Figure 2.19 Tracking motor.Figure 2.20 Tracking rope & chain.Figure 2.21 Changes in aperture area of reflector.Figure 2.22 Results for the temperature distribution in the storage under specif...Figure 2.23 Heat loss and radiation for different receivers in a module.Figure 2.24 Receiver charging-discharging.Figure 2.25 Receiver with grooving.Figure 2.26 PID logic implemented in the control logic.Figure 2.27 Operation parameters and results.Figure 2.28 Ave. DNI of the location for 2016.Figure 2.29 Thermal behavior of the receiver without front glass.Figure 2.30 Thermal behavior of the cover at receiver opening front glass.Figure 2.31 Thermal behavior of the Receiver with front glass covering at the re...Figure 2.32 Filling of salt at core of receiver.Figure 2.33 Focus of lens at tip of receiver.Figure 2.34 Temperature (max.) recorded during field test.Figure 2.35 Salt heating and cooling cycle during lab test.

      3 Chapter 3Figure 3.1 Global Wind Installation in GW...Figure 3.2 Services provided by ESD...Figure 3.3 Role of storage technologies in wind power...Figure 3.4 Energy storage technology...Figure 3.5 Superconducting magnet energy storage...Figure 3.6 Supercapacitor...Figure 3.7 Flywheel energy storage...Figure 3.8 Pumped hydroelectric storage...Figure 3.9 Compressed air energy storage...Figure 3.10 Fuel cell...Figure 3.11 Maturity level of storage technology...Figure 3.12 Hybrid configuration...Figure 3.13 Different HESS topologies. (a) passive (b) semi-active (c) series ac...Figure 3.14 Comparison of different topology.Figure 3.15 Energy management classification of HESS.Figure 3.16 Filter-based control scheme for HESS.Figure 3.17 MPC control scheme for HESS.

      4 Chapter 4Figure 4.1 Different types of electrical energy storage systems.Figure 4.2 Schematic representation of supercapacitor.Figure 4.3 Schematic representation of various designs of supercapacitor devices...Figure 4.4 The TechSci research provided a clear database of India’s supercapaci...Figure 4.5 Diagram of different types of supercapacitor.Figure 4.6 Schematic representation of (a) Helmholtz model, (b) Gouy-Chapman mod...Figure 4.7 Equivalent circuit diagram of EDLC supercapacitor.Figure 4.8 Equivalent circuit diagram of pseudocapacitor.Figure 4.9 Schematic representation of different types of EDLC electrode materia...Figure 4.10 (a) Overlap CV plot of rGO/CQDs-HP at different scan rates (b) overl...Figure 4.11 Schematic representation of different types of pseudocapacitive elec...Figure 4.12 (a) DFT optimized structure of VO2(D), (c) overlap CV plot, (d) overlap CD plot of...Figure 4.13 (a) TEM image of rGO/MoS2-S, (b) overlap CV plot and (c) operational stability...

      5 Chapter 5Figure 5.1 Classification of different TES systems.Figure 5.2 Schematic of a typical water tank storage system.Figure 5.3 Different degree of stratification with same amount of stored heat wi...Figure 5.4 Schematic of a solar air heating system integrated with packed bed th...Figure 5.5 Schematic of a typical ATES system.Figure 5.6 Encapsulated PCM...Figure 5.7 Classification of sorption thermal storage system.Figure 5.8 Schematic of absorption cycle (a) charging, (b) discharging.Figure 5.9 Schematic of a closed adsorption cycle (a) charging, (b) discharging.Figure 5.10 Working of a conventional VAR system with LiBr/H2O as working fluid.Figure 5.11 Integration of ATES system with solar pump for space heating/cooling...Figure 5.12 Integration of solar pond with packed bed THS system for space heati...Figure 5.13 Solar FPC with LTES.Figure 5.14 The components of Solar PV/T (water-based)...Figure 5.15 Classification of PV/T collectors...

      6 Chapter 6Figure 6.1 (a) Ragone plot of various electrochemical storing and conversion dev...Figure 6.2 Factors affecting performance of supercapacitors.Figure 6.3 (a) Evolution of global supercapacitor market (b) the predicted super...Figure 6.4 Two types of supercapacitor assembly representation: cylindrical and ...Figure 6.5 Classification of batteries.Figure 6.6 Internal view and construction of lead-storage cell.Figure 6.7 (a) inner construction of sodium-sulphur battery (b) Schematic illust...Figure 6.8 (a) Battery whole life cycle: design, production, EV application and ...Figure 6.9 The expected annual lithium ion battery demand from 2015 to 2030.

      7 Chapter 7Figure 7.1 Design basis for energy storage evaluation using time dependent simul...Figure 7.2 Sequence of steps in recycling of lead acid battery.

      8 Chapter 8Figure 8.1 Experimental set-up: opaque view (left), transparent view (right).Figure 8.2 Simplified simulation model: without fins (left), with fins (right).Figure 8.3 Mesh of full body – (a) Main component (PCM), (b) pipe, (c) pipe-fins...Figure 8.4 Mesh of the one-fourth symmetry sector – (a) Main component (PCM), (b...Figure 8.5 Graphs showing variation of temperature and liquid fraction during me...Figure 8.6 Contours of static temperature showing melting of PCM (in case of fin...Figure 8.7 Contours of liquid fraction showing melting