LEADER 08019nam 2200385 450 001 9910688456603321 005 20230630153748.0 010 $a3-03842-545-1 035 $a(CKB)5400000000000404 035 $a(NjHacI)995400000000000404 035 $a(EXLCZ)995400000000000404 100 $a20230630d2018 uy 0 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aAdvanced Energy Storage Technologies and Their Applications (AESA) /$fedited by Rui Xiong, Hailong Li, Joe (Xuan) Zhou 210 1$aBasel, Switzerland :$cMDPI,$d2018. 215 $a1 online resource (426 pages) $cillustrations 327 $aAbout the Special Issue Editors -- Preface to "Advanced Energy Storage Technologies and Their Applications (AESA)" -- Rui Xiong, Hailong Li and Xuan Zhou Advanced Energy Storage Technologies and Their Applications (AESA2017) Reprinted from: Energies 2017, 10(9), 1366; doi: 10.3390/en10091366 -- Linhai Liu, Baoshan Zhu, Li Bai, Xiaobing Liu and Yue Zhao Parametric Design of an Ultrahigh-Head Pump-Turbine Runner Based on Multiobjective Optimization, Reprinted from: Energies 2017, 10(8), 1169; doi: 10.3390/en10081169 -- Xiaogang Wu, Zhe Chen and Zhiyang Wang Analysis of Low Temperature Preheating Effect Based on Battery Temperature-Rise Model, Reprinted from: Energies 2017, 10(8), 1121; doi:10.3390/10081121 -- Hossein Safaei and Michael J. Aziz Thermodynamic Analysis of Three Compressed Air Energy Storage Systems: Conventional, Adiabatic, and Hydrogen-Fueled Reprinted from: Energies 2017, 10(7), 1020; doi: 10.3390/en10071020 -- Jichao Hong, Zhenpo Wang and Peng Liu Big-Data-Based Thermal Runaway Prognosis of Battery Systems for Electric Vehicles on Road Reprinted from: Energies 2017, 10(7), 919; doi: 10.3390/en10070919 -- Xiaogang Wu and Tianze Wang Optimization of Battery Capacity Decay for Semi-Active Hybrid Energy Storage System Equipped on Electric City Bus Reprinted from: Energies 2017, 10(6), 792; doi: 10.3390/en10060792 -- Chengning Zhang, Xin Jin and Junqiu Li PTC Self-Heating Experiments and Thermal Modeling of Lithium-Ion Battery Pack in Electric Vehicles Reprinted from: Energies 2017, 10(4), 572; doi: 10.3390/en10040572 -- Xiaofeng Ding, Jiawei Cheng and Feida Chen Impact of Silicon Carbide Devices on the Powertrain Systems in Electric Vehicles Reprinted from: Energies 2017, 10(4), 533; doi: 10.3390/en10040533 -- Jing Sun, Guojing Xing and Chenghui Zhang Data-Driven Predictive Torque Coordination Control during Mode Transition Process of Hybrid Electric Vehicles Reprinted from: Energies 2017, 10(4), 441; doi: 10.3390/en10040441 -- Yonggang Liu, Jie Li, Ming Ye, Datong Qin, Yi Zhang and Zhenzhen Lei Optimal Energy Management Strategy for a Plug-in Hybrid Electric Vehicle Based Grade Information Reprinted from: Energies 2017, 10(4), 412; doi: 10.3390/en10040412 -- Bo Jiang, Haifeng Dai, Xuezhe Wei, Letao Zhu and Zechang Sun Online Reliable Peak Charge/Discharge Power Estimation of Series-Connected Lithium-Ion Battery Packs Reprinted from: Energies 2017, 10(3), 390; doi: 10.3390/en10030390 -- Xiaofeng Ding, Min Du, Jiawei Cheng, Feida Chen, Suping Ren and Hong Guo Impact of Silicon Carbide Devices on the Dynamic Performance of Permanent Magnet Synchronous Motor Drive Systems for Electric Vehicles Reprinted from: Energies 2017, 10(3), 364; doi: 10.3390/en10030364 -- Sebastian Kuboth, Andreas Ko?nig-Haagen and Dieter Bru?ggemann Numerical Analysis of Shell-and-Tube Type Latent Thermal Energy Storage Performance with Different Arrangements of Circular Fins Reprinted from: Energies 2017, 10(3), 274; doi: 10.3390/en10030274 -- Yunlong Shang, Qi Zhang, Naxin Cui and Chenghui Zhang A Cell-to-cell Equalizer Based on Three-Resonant-State Switched-Capacitor Converters for Series- Connected Battery Strings Reprinted from: Energies 2017, 10(2), 206; doi: 10.3390/en10020206 -- Xin Wang, Jun Yang, Lei Chen and Jifeng He Application of Liquid Hydrogen with SMES for Efficient Use of Renewable Energy in the Energy Internet Reprinted from: Energies 2017, 10(2), 185; doi: 10.3390/en10020185 -- Zijie Wang, Baoshan Zhu, Xuhe Wang and Daqing Qin Pressure Fluctuations in the S-Shaped Region of a Reversible Pump-Turbine Reprinted from: Energies 2017, 10(1), 96; doi: 10.3390/en10010096 -- Jiangong Zhu, Zechang Sun, Xuezhe Wei and Haifeng Dai Battery Internal Temperature Estimation for LiFePO. Battery Based on Impedance Phase Shift under Operating Conditions Reprinted from: Energies 2017, 10(1), 60; doi: 10.3390/en10010060 -- Zhenzhen Lei, Dong Cheng, Yonggang Liu, Datong Qin, Yi Zhang and Qingbo Xie A Dynamic Control Strategy for Hybrid Electric Vehicles Based on Parameter Optimization for Multiple Driving Cycles and Driving Pattern Recognition Reprinted from: Energies 2017, 10(1), 54; doi: 10.3390/en10010054 -- Jufeng Yang, Bing Xia, Yunlong Shang, Wenxin Huang and Chris Mi Improved Battery Parameter Estimation Method Considering Operating Scenarios for HEV/EV Applications Reprinted from: Energies 2017, 10(1), 5; doi: 10.3390/en10010005 -- Caiping Zhang, Jiuchun Jiang, Linjing Zhang, Sijia Liu, Leyi Wang and Poh Chiang Loh A Generalized SOC-OCV Model for Lithium-Ion Batteries and the SOC Estimation for LNMCO Battery Reprinted from: Energies 2016, 9(11), 900; doi:10.3390/9110900 -- Copyrighted materi Dafen Chen, Jiuchun Jiang, Xue Li, Zhanguo Wang and Weige Zhang Modeling of a Pouch Lithium Ion Battery Using a Distributed Parameter Equivalent Circuit for Internal Non-Uniformity Analysis Reprinted from: Energies 2016, 9(11), 865; doi: 10.3390/en9110865 -- Michael Lanahan and Paulo Cesar Tabares-Velasco Seasonal Thermal-Energy Storage: A Critical Review on BTES Systems, Modeling, and System Design for Higher System Efficiency Reprinted from: Energies 2017, 10(6), 743; doi: 10.3390/en10060743 -- Roberto Benato, Gianluca Bruno, Francesco Palone, Rosario M. Polito and Massimo Rebolini Large-Scale Electrochemical Energy Storage in High Voltage Grids: Overview of the Italian Experience Reprinted from: Energies 2017, 10(1), 108; doi: 10.3390/en10010108. 330 $aThe depletion of fossil fuels, the increase of energy demands, and the concerns over climate change are the major driving forces for the development of renewable energy, such as solar energy and wind power. However, the intermittency of renewable energy has hindered the deployment of large-scale intermittent renewable energy, which, therefore, has necessitated the development of advanced large-scale energy storage technologies. The use of large-scale energy storage can effectively improve the efficiency of energy resource utilization, and increase the use of variable renewable resources, the energy access, and the end-use sector electrification (e.g., electrification of transport sector). This Special Issue will provide a platform for presenting the latest research results on the technology development of large-scale energy storage. We welcome research papers about theoretical, methodological and empirical studies, as well as review papers, that provide critical overview on the state of the art of technologies. This special issue is open to all types of energy, such as thermal energy, mechanical energy, electrical energy and chemical energy, using different types of systems, such as phase change materials, batteries, supercapacitors, fuel cells, compressed air, etc., which are applicable to various types of applications, such as heat and power generation, electrical/hybrid transportation, etc. 517 $aAdvanced Energy Storage Technologies and Their Applications 606 $aSolar energy 615 0$aSolar energy. 676 $a621.47 702 $aXiong$b Rui 702 $aLi$b Hailong 702 $aZhou$b Joe Xuan 801 0$bNjHacI 801 1$bNjHacl 906 $aBOOK 912 $a9910688456603321 996 $aAdvanced Energy Storage Technologies and Their Applications (AESA)$93060086 997 $aUNINA