26,102 resources related to Energy Storage
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Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies
The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.
APEC focuses on the practical and applied aspects of the power electronics business. Not just a power designer’s conference, APEC has something of interest for anyone involved in power electronics including:- Equipment OEMs that use power supplies and converters in their equipment- Designers of power supplies, dc-dc converters, motor drives, uninterruptable power supplies, inverters and any other power electronic circuits, equipments and systems- Manufacturers and suppliers of components and assemblies used in power electronics- Manufacturing, quality and test engineers involved with power electronics equipment- Marketing, sales and anyone involved in the business of power electronic- Compliance engineers testing and qualifying power electronics equipment or equipment that uses power electronics
2020 IEEE Energy Conversion Congress and Exposition (ECCE)
IEEE-ECCE 2020 brings together practicing engineers, researchers, entrepreneurs and other professionals for interactive and multi-disciplinary discussions on the latest advances in energy conversion technologies. The Conference provides a unique platform for promoting your organization.
IEEE International Conference on Plasma Science (ICOPS) is an annual conference coordinated by the Plasma Science and Application Committee (PSAC) of the IEEE Nuclear & Plasma Sciences Society.
The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.
The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.
Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.
Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission
The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...
2000 Power Engineering Society Summer Meeting (Cat. No.00CH37134), 2000
The author examines both flywheel and superconducting magnetic energy storage technologies. A flywheel is an electromechanical storage system in which energy is stored in the kinetic energy of a rotating mass. Flywheel systems under development include those with steel flywheel rotors and resin/glass or resin/carbon-fiber composite rotors. The mechanics of energy storage in a flywheel system are common to both ...
2016 Chinese Control and Decision Conference (CCDC), 2016
For energy storage heating in the smart building, this paper puts forward a new kind of smart building energy storage system. Air heat pump energy storage heating system consists of energy storage heating platform and the control strategy of energy storage heating. First of all, this paper build energy storage heating platform. The system uses air source heat pump as ...
2016 IEEE Power and Energy Society General Meeting (PESGM), 2016
Energy storage can help accelerate increased renewable adoption and enable a more cost effective path to California's 50% renewable energy by 2030. However, successful energy storage projects depend on creating real value for energy production stakeholders. By mapping energy storage performance to application economics, this paper offers a technology neutral look at the economics of using energy storage to dispatch ...
IEEE Transactions on Power Systems, 2016
This paper presents a generalized energy storage system model for voltage and angle stability analysis. The proposed solution allows modeling most common energy storage technologies through a given set of linear differential algebraic equations (DAEs). In particular, the paper considers, but is not limited to, compressed air, superconducting magnetic, electrochemical capacitor and battery energy storage devices. While able to cope ...
2017 19th European Conference on Power Electronics and Applications (EPE'17 ECCE Europe), 2017
This paper describes selected issues concerning realization of energy storage system (ESS) designed to operate in power distribution system. This paper presents a modular approach of 300 kVA power converter operating with superconducting magnetic energy storage (SMES), which gives high dynamics together with high power and suitable capability for instantaneous energy storage. Analysis and simulation studies of selected power converter ...
International Future Energy Challenge 2018
Flywheel Energy Storage for the 21st Century: APEC 2019
IEEE Green Energy Summit 2015, Panel 1: When will green become the new normal?
IFEC 2011-International Future Energy Challenge 2011
ENERGY HARVESTERS AND ENERGY PROCESSING CIRCUITS
Nanotechnology, we are already there: APEC 2013 KeyTalk with Dr. Terry Lowe
A Nuclear Waste Repository Grows In Finland
Validating Cyber-Physical Energy Systems, Part 4: IECON 2018
Advances in MgB2 - ASC-2014 Plenary series - 7 of 13 - Wednesday 2014/8/13
Validating Cyber-Physical Energy Systems, Part 1: IECON 2018
Validating Cyber-Physical Energy Systems, Part 2: IECON 2018
Validating Cyber-Physical Energy Systems, Part 3: IECON 2018
APEC 2011- Methode Electronics at APEC 2011
WIE ILC: Exception to Expectation: Women in Engineering
What's New in Storage Devices - Jim Gathman from IBM
The Memory of Cars Talk by Tom Coughlin
Residential Nanogrids with Battery Storage; Is This Our Future? - Antonio Ginart at APEC 2016
Spin Dynamics in Inhomogeneously Magnetized Systems - Teruo Ono: IEEE Magnetics Society Distinguished Lecture 2016
Future of Computing: Memory/Storage - Steve Pawlowski - ICRC San Mateo, 2019
The author examines both flywheel and superconducting magnetic energy storage technologies. A flywheel is an electromechanical storage system in which energy is stored in the kinetic energy of a rotating mass. Flywheel systems under development include those with steel flywheel rotors and resin/glass or resin/carbon-fiber composite rotors. The mechanics of energy storage in a flywheel system are common to both steel- and composite-rotor flywheels. Superconducting magnetic energy storage (SMES) is an energy storage device that stores electrical energy in a magnet field without conversion to chemical or mechanical forms. In SMES, a coil of superconducting wire allows a direct electrical current to flow through it with virtually no loss. This current creates the magnetic field that stores the energy. On discharge, switches tap the circulating current and release it to serve a load.
For energy storage heating in the smart building, this paper puts forward a new kind of smart building energy storage system. Air heat pump energy storage heating system consists of energy storage heating platform and the control strategy of energy storage heating. First of all, this paper build energy storage heating platform. The system uses air source heat pump as an energy conversion device converting the energy power to heat energy in the smart building; Using energy storage tank as energy storage container, this paper store the thermal energy in the storage containers; The system uses a fan as energy release device. Secondly, energy storage heating control strategy is derived. According to the law of conservation of energy, air source heat pump heating temperature function is established, the function constitutes energy storage method in the daytime; This paper establish the relationship between the outdoor temperature and the energy storage temperature and propose the energy storage method in the night. Finally, from two aspects of conversion efficiency and energy consumption, this paper compares air source heat pump energy storage heating system with the battery energy storage system. The results illustrate that it is less than 1.27% of battery energy storage system in terms of the energy conversion efficiency, but reduces by 58.44% in the aspect of energy consumption.
Energy storage can help accelerate increased renewable adoption and enable a more cost effective path to California's 50% renewable energy by 2030. However, successful energy storage projects depend on creating real value for energy production stakeholders. By mapping energy storage performance to application economics, this paper offers a technology neutral look at the economics of using energy storage to dispatch grid scale solar in California. It evaluates the existing PPA structures and identifies gaps in the market. Finally, it highlights the market dynamics and the need for continued use of value analytics methodology to optimally design and dispatch energy storage.
This paper presents a generalized energy storage system model for voltage and angle stability analysis. The proposed solution allows modeling most common energy storage technologies through a given set of linear differential algebraic equations (DAEs). In particular, the paper considers, but is not limited to, compressed air, superconducting magnetic, electrochemical capacitor and battery energy storage devices. While able to cope with a variety of different technologies, the proposed generalized model proves to be accurate for angle and voltage stability analysis, as it includes a balanced, fundamental-frequency model of the voltage source converter (VSC) and the dynamics of the dc link. Regulators with inclusion of hard limits are also taken into account. The transient behavior of the generalized model is compared with detailed fundamental-frequency balanced models as well as commonly-used simplified models of energy storage devices. A comprehensive case study based on the WSCC 9-bus test system is presented and discussed.
This paper describes selected issues concerning realization of energy storage system (ESS) designed to operate in power distribution system. This paper presents a modular approach of 300 kVA power converter operating with superconducting magnetic energy storage (SMES), which gives high dynamics together with high power and suitable capability for instantaneous energy storage. Analysis and simulation studies of selected power converter topologies are conducted, which are also commonly used to connect electric power distribution system and energy storage system. In order to verify assumed technical parameters, a single prototype of ESS is presented together with experimental results. Proposed solution supports scalability of the system in power as well as in energy storage capacity of ESS. Presented full scale prototype module is a result of conducted analysis and proposition for future renewable energy storage installations.
In order to improve the wind power penetration, control the volatility of the wind, this paper has carried out the research on the integration of energy storage and generating wind turbine system model. The idea has been gained based on the analysis of the current wind turbine system, wind turbine system with low wind speed starting and running and the integration of energy storage and generating wind turbine system. Local energy storage, distributed energy storage and centralized energy storage has been discussed in this paper. Two kinds of wind turbine system model based on local energy storage which are energy storage in the front of generator and in the back of generator also have been studied.
Virtual Synchronous Generators (VSG) is an effective way to solve the problem of high-permeability new energy grid-connected. However, due to the influence of the external power grid, the filtering circuit oscillation of the LC-type energy storage virtual synchronous generator may be excited, causing a harmonic resonance of the energy storage virtual synchronous generator when connected to the grid, and generating a harmonic resonance risk. First of all, according to the existing LC-type energy storage VSG grid-connected system control strategy, this paper constructs a closed-loop mathematical model to deeply analyze the grid-connected system of energy storage VSG under different grid parameters, and it is found that the harmonic resonance is mainly related to the network side link. Then, in order to suppress the harmonic resonance, this paper introduces the virtual impedance algorithm based on the control strategy of the existing energy storage VSG grid-connected system, and proposes a new type of damping control strategy for energy storage VSG. Finally, a Matlab/Simulink simulation model is established to verify the harmonic resonance phenomenon in the energy storage VSG and the effectiveness of the proposed damping strategy.
A superconducting flywheel energy storage (SFES) system is an energy storage device with unprecedented small kinetic energy loss by utilizing diamagnetic levitation property of superconductor. The system, therefore, is expected to be one of the most promising candidates in the application of renewable energy field such as PV (photovoltaic) or wind energy development where the power generation is intermittent. An innovative concept to store cold thermal energy as well as kinetic energy in the SFES system is proposed in this paper to decrease required cooling energy during the energy storage period. We have found that the cooling energy can be considerably decreased by the suggested cooling concept. The methodology of cold thermal energy storage is introduced, and the experimental validation is carried out. A specially designed thermosiphon is adopted as a thermal bridge between the high temperature superconductor (HTS) bulks and the cold head of cryocooler, and the working fluid of the thermosiphon is utilized as the thermal energy storage material. Solid nitrogen is generated in the thermosiphon by surplus electricity, and then the mock up HTS bulks are successfully cooled around 64 K by the existence of solid nitrogen even though the implemented cryocooler is turned off.
With the recent advances in the field of applications which require a certain power level over a short period of timeand with the air-quality constraints which have become more stringent in the last few decades, the energy storagesystems (ESSs) have come to play a crucial role for the electric grid. Various aspects such as the historical evolutionof ESSs, technical characteristics, and applications for the ESSs are thoroughly addressed. Special emphasis is given tothe interaction between the smart grid (SG) and microcrogrids applications, on the one hand, and the ESSs, on the otherhand. Thus, the main goal of this work is to present the specialist and nonspecialist review of the most important ESSscurrently available on the market.
High-permeability renewable energy output exceeds consumptive capability of distribution network, which leads to tidal current countercurrent and voltage rise or even overvoltage. Improving the local consumption rate of renewable energy in distribution network is getting more and more attention. The local consumption rate is related to the matching degree of the power output characteristics and the load characteristics. Energy storage system has bi- directional flow characteristics of energy, which provides more flexibility for the distribution network to absorb renewable energy locally. However, the cost of energy storage system is high at present, and the economic efficiency of blindly increasing energy storage capacity to improve local renewable energy consumption is poor. Therefore, reducing construction costs of energy storage system is the key to optimizing planning and configuration of energy storage capacity. In this paper, the energy balance of charge and discharge in a typical day is taken as constraints. A solution model of energy storage dynamic planning and configuration based on bi-objective with minimum capacity and charging and discharging power is established. Through an improved ant colony algorithm based on stratified sequencing method, the multi-objective optimal planning and configuration is realized by finding the optimal solution of energy storage power in the optimal target constraint of energy storage capacity. For planning and configuration of multi-objective energy storage system, the feasibility and effectiveness of the improved ant colony optimization algorithm are verified by an example.
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Assistant, Associate, or Full Professor at the Andlinger Center for Energy and the Environment
Andlinger Center, Princeton University
Battery Management System Architect
Manager of Advanced Cell Technology Development
Physical Chemist- Postdoctoral Researcher
Lawrence Livermore National Laboratory
Kinetics - Research Scientist
Lawrence Livermore National Laboratory
Kinetics - Research Scientist
Lawrence Livermore National Laboratory