Battery Pack Design. Mechanical and electrical layout, Thermal modeling, Battery management. Avo Reinap, IEA/LU
|
|
- Mercy Martin
- 5 years ago
- Views:
Transcription
1 mvkf25vt18 Battery Pack Design Mechanical and electrical layout, Thermal modeling, Battery management Avo Reinap, IEA/LU Energy Management Battery management system Information Energy Monitoring measure what is important Control keep it optimal and constrained Diagnosis keep battery cells healthy Avo R MVKF25-vt18 Battery Pack Design 81
2 Battery usage & degradation vs control & management Battery = most costly component respect both usage and durability Durability = calendric + cyclic Loss of active material = power and capacity fade Degradation cannot be eliminated, only inhibited. Operating parameters vs state functions Avo R MVKF25-vt18 Battery Pack Design 82 Battery degradation basics Chemical origin Loss of capacity & Increased self discharge Loss of power & increased internal resistance Mechanical origin Loss of electric contact Avo R MVKF25-vt18 Battery Pack Design 83
3 Battery degradation mechanisms Loss of energy loss in active electrode materials and voltage Loss of power capability loss in active materials (side reactions) increase resistance and decrease carging/discarging current Loss of capacity reduced capability to preserve charge Avo R MVKF25-vt18 Battery Pack Design 84 Control parameters current: charge and discharge rates, especially high currents voltage: upper and lower cut-off voltages SOC: range and variations temperature: maximum and minimum, as well as temperature cycling energy throughput Avo R MVKF25-vt18 Battery Pack Design 85
4 Modeling Capacity Fade of Lithium-Ion Batteries Challenges in Identifying and Quantifying Possible Mechanisms AIChe 2009 Capacity fade Capacity fade regions i-iv loss of cyclable lithium due to the build-up of an Solid Elelctrolyte Interphase layer Loss of negative electrode active material is dominant loss of active material in the positive electrode starts to be accountable the amount of active material is less than the amount of cyclable lithium ions, Avo R MVKF25-vt18 Battery Pack Design 86 A. Kraytsberg, Y- Ein-Eli, A critical review-promises and barriers of conversion electrodes for Li-ion batteries B. Journal of Solid State Electrochemistry July 2017, Volume 21, Issue 7, pp Origins of capacity fade Loss of cyclable lithium Loss of active electrode material Loss of cyclable lithium and loss of active electrode material Avo R MVKF25-vt18 Battery Pack Design 87
5 H. Berg, Accelerated degradation vs ideal operating conditions Temperature Optimal range, can be narrowed down during life Voltage Within SOC range Current rates C-rate (energy vs power) Avo R MVKF25-vt18 Battery Pack Design 88 Building a safer, denser lithium ion battery, IEEE Spectrum Mar 2018 Degradation of cells Identification of degradation mechanisms and their rate of speed Irreversible chemical reaction Mechanical stress and distortion Changes Mechanical and electrical Bulk materials Interfaces between components Side reactions Avo R MVKF25-vt18 Battery Pack Design 89
6 Common degradation mechanisms Avo R MVKF25-vt18 Battery Pack Design 90 H. Berg 7.3 Degradation analysis methods Galvanostatic cycling Electrochemical impedance spectroscopy Incremental capacity Differential voltage Half cell Post-mortem Avo R MVKF25-vt18 Battery Pack Design 91
7 Physics coupled equivalent circuits Battery equivalent circuit models Rint model Eo, Ro First order (adds) R1, C1 Second order (adds) R2, C2 Impedance model Electrochemical impedance spectroscopy (EIS) Coupled to pfysics (?) Avo R MVKF25-vt18 Battery Pack Design 92 Testing batteries Electrochemical dynamic response Respons is related to ioncurrent/diffusion rate in the cell Slower response for weaker batteries Characterization LF dubbed diffusion MF charge transfer HF migration Batteries with faded capacity suffer from low charge transfer and slow active Liion diffusion. Avo R MVKF25-vt18 Battery Pack Design 93
8 State functions State of charge Ratio of available capacity SOC(t)=Q(t)/Qn [%] Current counting, voltage look up table, battery model State of health Remaining full battery capacity State of function or power Chargeability or power capability Avo R MVKF25-vt18 Battery Pack Design 94 Battery management system Charge and discharge control and methods Control of energy flows Thermal control and management Maintain (thermal) boundary conditions Battery monitoring State functions for usage Avo R MVKF25-vt18 Battery Pack Design 95
9 Battery Management System - BMS Best and safe use of energy Voltage U+ U and temperature + management: cell balancing or equalizer, check margins Charge/discharge Integration of current SoC Power and capacity fade SoH Avo R MVKF25-vt18 Battery Pack Design 96 Charge and discharge control maintain the voltage limits while respecting the current and temperature limits LOW Constant current charging followed by voltage and temperature control HIGH current for CV charging Combined CV+CC Avo R MVKF25-vt18 Battery Pack Design 97
10 Cell balancing Voltage equalization, which is to fill up energy and maximize capacity and life by removing unbalanced weak links Active/passive taking/wasting energy Avo R MVKF25-vt18 Battery Pack Design 98 BMS development Overall functional safety is better match to global FPGA than to local micro processor units parallelism for performance with fail-safe logic Avo R MVKF25-vt18 Battery Pack Design 99
11 Ageing model Thermal model Electrical model BMS function structure I/O, monitoring, decisions and safety relevant funtions Avo R MVKF25-vt18 Battery Pack Design BMS control sequence Intelligent batteries due to base functions of a battery management system Avo R MVKF25-vt18 Battery Pack Design 101
12 BMS basic functions Cell protection, charge control, demand management, SoC and SoH determination, cell balancing, authentication and identification, communication are some objectives for BMS Avo R MVKF25-vt18 Battery Pack Design BMS Scope and Failure Consequences Avo R MVKF25-vt18 BTMS Battery Pack Design 103
13 BMS architectures for xevs Communication, reliability and accuracy Practical attachment, number of components and connections Few architectures with different features in connections and communication Avo R MVKF25-vt18 Battery Pack Design 104 Practical implementation Added intelligence, where and how? Sharing information, history and communication Avo R MVKF25-vt18 Battery Pack Design 105
14 Multicell Battery Stack Monitor Component name LTC6802-1, Up to 12 cells, 13 ms measurement interval, up to 1000V, passive cell balancing Avo R MVKF25-vt18 Battery Pack Design BMS sensor module MM9Z Cell Lithium Battery BMS unit battery stack monitor IC can measure a number of cell voltages and provide for the discharge of individual cells to bring them into balance with the rest of the stack Avo R MVKF25-vt18 Battery Pack Design 107
15 Some future trends by Bosch Avo R MVKF25-vt18 Battery Pack Design 108 Back to Battery modelling power_battery, power_pattery_temperature State of the art model for concept development and evaluation Avo R MVKF25-vt18 Battery Pack Design 109
16 Design impact on reliability and safety Manufacturing constrains, identification of actual cells / modules, BMS Small cell variation at BOL can grow large and bring to EOL Thermal chock due to welding termination of cell-to-cell Avo R MVKF25-vt18 Battery Pack Design 110 Useful links and Aknowledgement mpoweruk.com Batteryuniversity.com liionbms.com/php/cells.php Aknowledged authors and their results shown on the previous pages (with some links and references) Avo R MVKF25-vt18 Battery Pack Design 111
17 Thermal control and management..by thermal design and active cooling J. Li, Z. Zhu, Battery Thermal Management Systems of Electric Vehicles, MSc Chalmers /17.7 kwh 1700/270 kg Avo R MVKF25-vt18 Battery Pack Design 112
Battery Pack Design MVKF25-vt17
Battery Pack Design MVKF25-vt17 Mechanical and electrical layout, Thermal modeling, Battery management 25-27/4 Avo Reinap, IEA/LU Goals Design and dimensioning of battery pack based on suitable models
More informationState of Health Estimation for Lithium Ion Batteries NSERC Report for the UBC/JTT Engage Project
State of Health Estimation for Lithium Ion Batteries NSERC Report for the UBC/JTT Engage Project Arman Bonakapour Wei Dong James Garry Bhushan Gopaluni XiangRong Kong Alex Pui Daniel Wang Brian Wetton
More informationarxiv:submit/ [math.gm] 27 Mar 2018
arxiv:submit/2209270 [math.gm] 27 Mar 2018 State of Health Estimation for Lithium Ion Batteries NSERC Report for the UBC/JTT Engage Project Arman Bonakapour Wei Dong James Garry Bhushan Gopaluni XiangRong
More informationLi-Ion battery Model. Octavio Salazar. Octavio Salazar
Li-Ion battery Model 1 Energy Storage- Lithium Ion Batteries C-PCS: Control and Power Conditioning System Energy Storage- Lithium Ion Batteries Nature [0028-0836] Tarascon (2001) volume: 414 issue: 6861
More informationSOH Estimation of LMO/NMC-based Electric Vehicle Lithium-Ion Batteries Using the Incremental Capacity Analysis Technique
Aalborg Universitet SOH Estimation of LMO/NMC-based Electric Vehicle Lithium-Ion Batteries Using the Incremental Capacity Analysis Technique Stroe, Daniel-Ioan; Schaltz, Erik Published in: Proceedings
More informationOptimizing Battery Accuracy for EVs and HEVs
Optimizing Battery Accuracy for EVs and HEVs Introduction Automotive battery management system (BMS) technology has advanced considerably over the last decade. Today, several multi-cell balancing (MCB)
More informationElectrochemical study of durability aspects in large vehicle batteries
KTH ROYAL INSTITUTE OF TECHNOLOGY Electrochemical study of durability aspects in large vehicle batteries Abdilbari Shifa Mussa, Matilda Klett, Göran Lindbergh, Rakel Wreland Lindström Energirelaterad fordonsforskning
More informationEnergy Storage (Battery) Systems
Energy Storage (Battery) Systems Overview of performance metrics Introduction to Li Ion battery cell technology Electrochemistry Fabrication Battery cell electrical circuit model Battery systems: construction
More informationPOWERTRAIN SOLUTIONS FOR ELECTRIFIED TRUCKS AND BUSES
POWERTRAIN SOLUTIONS FOR ELECTRIFIED TRUCKS AND BUSES PDiM 2017 (Heimo Schreier) Burak Aliefendioglu Fredrik Haag AVL H. Schreier, B Aliefendioglu, F. Haag PDIM 2017 30 November 2017 1 TRUCK & BUS ELECTRIFICATION
More information80V 300Ah Lithium-ion Battery Pack Data Sheet
80V 300Ah Lithium-ion Battery Pack Data Sheet 80 V, 300 amp-hour capacity, maintenance-free energy storage, IP65 design, fully integrated BMS, integrated fuse and safety relay protection, highly configurable
More informationBattery durability. Accelerated ageing test method
Battery durability Accelerated ageing test method Battery performance degradation ageing Four principal types of battery performance degradation Capacity fade Loss of cycleable Li Loss of electroactive
More informationThis short paper describes a novel approach to determine the state of health of a LiFP (LiFePO 4
Impedance Modeling of Li Batteries for Determination of State of Charge and State of Health SA100 Introduction Li-Ion batteries and their derivatives are being used in ever increasing and demanding applications.
More informationOverview. Battery Monitoring
Wireless Battery Management Systems Highlight Industry s Drive for Higher Reliability By Greg Zimmer Sr. Product Marketing Engineer, Signal Conditioning Products Linear Technology Corporation Overview
More informationModeling the Lithium-Ion Battery
Modeling the Lithium-Ion Battery Dr. Andreas Nyman, Intertek Semko Dr. Henrik Ekström, Comsol The term lithium-ion battery refers to an entire family of battery chemistries. The common properties of these
More informationA Battery Smart Sensor and Its SOC Estimation Function for Assembled Lithium-Ion Batteries
R1-6 SASIMI 2015 Proceedings A Battery Smart Sensor and Its SOC Estimation Function for Assembled Lithium-Ion Batteries Naoki Kawarabayashi, Lei Lin, Ryu Ishizaki and Masahiro Fukui Graduate School of
More informationEnd-To-End Cell Pack System Solution: Rechargeable Lithium-Ion Battery
White Paper End-To-End Cell Pack System Solution: Industry has become more interested in developing optimal energy storage systems as a result of increasing gasoline prices and environmental concerns.
More informationBatteries for electric commercial vehicles and mobile machinery
Batteries for electric commercial vehicles and mobile machinery Tekes EVE annual seminar, Dipoli 6.11.2012 Dr. Mikko Pihlatie VTT Technical Research Centre of Finland 2 Outline 1. Battery technology for
More informationPower Management Solution: Constant Voltage (CV) Pulse Charging of Hybrid Capacitors
VISHAY BCCOMPONENTS www.vishay.com Aluminum Capacitors By Gerald Tatschl ENYCAP TM 196 HVC SERIES GENERAL INFORMATION Rechargeable energy storage solutions are of high interest because of their flexibility,
More informationUse of EV battery storage for transmission grid application
Use of EV battery storage for transmission grid application A PSERC Proposal for Accelerated Testing of Battery Technologies suggested by RTE-France Maryam Saeedifard, GT James McCalley, ISU Patrick Panciatici
More informationRené Uyttebroeck. Li-Ion batteries in passenger cars
René Uyttebroeck Li-Ion batteries in passenger cars Johnson Controls Automotive Experience Power Solutions Largest global provider of lead acid batteries with 36 percent market share A global leader in
More informationFrom materials to vehicle what, why, and how? From vehicle to materials
From materials to vehicle what, why, and how? From vehicle to materials Helena Berg Outline 1. Electric vehicles and requirements 2. Battery packs for vehicles 3. Cell selection 4. Material requirements
More informationAccurate and available today: a ready-made implementation of a battery management system for the new 48V automotive power bus
Accurate and available today: a ready-made implementation of a battery management system for the new 48V automotive power bus Gernot Hehn Today s personal vehicles have an electrical system operating from
More informationLithium Ion Medium Power Battery Design
Bradley University Lithium Ion Medium Power Battery Design Project Proposal By: Jeremy Karrick and Charles Lau Advised by: Dr. Brian D. Huggins 12/10/2009 Introduction The objective of this project is
More informationEU-Commission JRC Contribution to EVE IWG
EU-Commission JRC Contribution to EVE IWG M. De Gennaro, E. Paffumi European Commission, Joint Research Centre Directorate C, Energy, Transport and Climate Sustainable Transport Unit June 6 th 2017, Geneva
More informationState-of-Charge (SOC) governed fast charging method for lithium based batteries. Fahmida Naznin M/s. TVS Motor Company Ltd.
State-of-Charge (SOC) governed fast charging method for lithium based batteries Fahmida Naznin M/s. TVS Motor Company Ltd. Hosur, Tamilnadu Hybrid technology & battery requirement References: 1. Battery
More informationA Software Configurable Battery
EVS26 Los Angeles, California, May 6-9, 2012 A Software Configurable Battery Barrie Lawson Chairman of CHEEVC Ltd, Aberdour, Scotland, blawson@cheevc.com Keywords: battery calendar life, charge equalization,
More informationPhosphate-base Lithium-ion Battery Pack Model:LFP V 1350Ah Product Specifications Lithium Energy Solution 1/8
Phosphate-base Lithium-ion Battery Pack Model:LFP1350-48 48V 1350Ah Product Specifications Lithium Energy Solution 1/8 1. Product overview LFP1350-48 Products are mainly for customized development of high
More informationMing Cheng, Bo Chen, Michigan Technological University
THE MODEL INTEGRATION AND HARDWARE-IN-THE-LOOP (HIL) SIMULATION DESIGN FOR THE ANALYSIS OF A POWER-SPLIT HYBRID ELECTRIC VEHICLE WITH ELECTROCHEMICAL BATTERY MODEL Ming Cheng, Bo Chen, Michigan Technological
More informationINSTALLATION INFORMATION
INSTALLATION INFORMATION BMS ZE6000i-PCBT.xxxx / ver. 2 Programmable battery management system for Lithium Ion battery cells, for up to 32 round or prismatic cells, 10 to 400Ah NOTE: This installation
More informationBattery Power Management
Battery Power Management for Portable Devices Yevgen Barsukov Jinrong Qian ARTECH HOUSE BOSTON LONDON artechhouse.com Contents Preface xi Acknowledgments xiii Foreword xv 1 Battery Chemistry Fundamentals
More informationHOPPECKE Lithium-ion battery systems
HOPPECKE Lithium-ion battery systems Motive Power Systems Reserve Power Systems Special Power Systems Service Your benefits: Highly flexible due to modular system structure Highest possible level of operational
More informationgan power Energy-efficient power electronics with Gallium Nitride transistors Leti, technology research institute Contact:
gan power Energy-efficient power electronics with Gallium Nitride transistors, technology research institute Contact: leti.contact@cea.fr A market in growth GaN devices for next-era power-electronics applications
More informationAccelerated Lifetime Testing of High Power Lithium Titanate Oxide Batteries
Downloaded from vbn.aau.dk on: April 13, 219 Aalborg Universitet Accelerated Lifetime Testing of High Power Lithium Titanate Oxide Batteries Stroe, Ana-Irina; Stroe, Daniel-Ioan; Knap, Vaclav; Maciej,
More informationBattery Management Network for Fully Electrical Vehicles Featuring Smart Systems at Cell and Pack Level
Advanced Microsystems for Automotive Applications 2012 Berlin / Germany, 30 May 2012 Battery Management Network for Fully Electrical Vehicles Featuring Smart Systems at Cell and Pack Level Aleander Otto,
More informationModeling of Battery Systems and Installations for Automotive Applications
Modeling of Battery Systems and Installations for Automotive Applications Richard Johns, Automotive Director, CD-adapco Robert Spotnitz, President, Battery Design Predicted Growth in HEV/EV Vehicles Source:
More information48V Battery System Design for Mild Hybrid Applications. Angela Duren 11 February 2016
48V Battery System Design for Mild Hybrid Applications Angela Duren 11 February 2016 OEM Portfolio Planning; A Balanced Strategy for Fuel Economy Low voltage hybrids are a cost effective solution for higher
More informationLi-Ion Charge Balancing and Cell Voltage Monitoring for Performance and Safety
Li-Ion Charge Balancing and Cell Voltage Monitoring for Performance and Safety 2010 Advanced Energy Conference Thomas Mazz Program Manager Aeroflex Inc. Outline / Objectives of this talk Basic advantages
More informationBattery Pack Design. Thermal design
mvkf25vt18 Battery Pack Design Mechanical and electrical layout, Thermal modeling, Battery management Avo Reinap, IEA/LU BPD:TH Thermal design CELL PACK SYSTEM Electricity Chemistry Geometry Properties
More informationLi-ion Technology Overview NTSB Hearing Washington, D.C. July 12-13, 2006
Li-ion Technology Overview NTSB Hearing Washington, D.C. July 12-13, 2006 Jason Howard, Ph.D. Distinguished Member of the Technical Staff, Motorola, Inc. Board of Directors, Portable Rechargeable Battery
More informationAbstract. Introduction
Performance Testing of Zinc-Bromine Flow Batteries for Remote Telecom Sites David M. Rose, Summer R. Ferreira; Sandia National Laboratories Albuquerque, NM (USA) 871285 Abstract Telecommunication (telecom)
More informationEnergy Storage Systems Discussion
Annual Meeting and Technology Showcase Logan, Utah September 27-28, 2016 Energy Storage Systems Discussion SELECT Energy Storage Systems Lead Dr. Gregory L. Plett (UCCS) Energy Storage Systems The battery
More informationTechnology for Estimating the Battery State and a Solution for the Efficient Operation of Battery Energy Storage Systems
Technology for Estimating the Battery State and a Solution for the Efficient Operation of Battery Energy Storage Systems Soichiro Torai *1 Masahiro Kazumi *1 Expectations for a distributed energy system
More informationHigh Energy cell target specification for EV, PHEV and HEV-APU applications
Project HELIOS - High Energy Lithium-Ion Storage Solutions (www.helios-eu.org) Project number: FP7 2333765 (A 3 year project, supported by the European Commission, to study and test the comparative performances
More informationClaude Chanson General Manager RECHARGE Association THE CHALLENGES FOR THE BATTERY INDUSTRY DEVELOPMENT FOR E-MOBILITY IN EUROPE
Claude Chanson General Manager RECHARGE Association THE CHALLENGES FOR THE BATTERY INDUSTRY DEVELOPMENT FOR E-MOBILITY IN EUROPE TECHNICAL ROAD MAP Many new technologies are under study or development:
More informationImpact of Vehicle-to-Grid (V2G) on Battery Life
Impact of Vehicle-to-Grid (V2G) on Battery Life The Importance of Accurate Models David Howey, Jorn Reniers, Grietus Mulder, Sina Ober-Blöbaum Department of Engineering Science, University of Oxford EnergyVille,
More informationNanopower IoT Power Supply Accurately Monitors Battery Discharge. by Samuel Nork Director, Boston Design Center Linear Technology Corporation
Nanopower IoT Power Supply Accurately Monitors Battery Discharge by Samuel Nork Director, Boston Design Center Linear Technology Corporation The Internet of Things, or IoT, refers to the growing number
More informationSTUDY OF HIGH ENERGY CATHODE MATERIALS : LI-RICH MATERIALS
STUDY OF HIGH ENERGY CATHODE MATERIALS : LI-RICH MATERIALS Jean-François Colin, A. Boulineau, L. Simonin, D. Peralta, C. Bourbon, F. Fabre CEA LITEN DEHT October 28 th, 2014 MATERIALS FOR POSITIVE ELECTRODE
More informationMulti-Option Fuze for Artillery (MOFA) Post-launch Battery
Multi-Option Fuze for Artillery (MOFA) Post-launch Battery presented at 48 th Annual NDIA Fuze Conference Charlotte, NC 28 April 2004 by Paul F. Schisselbauer 215-773-5416 Slide 1 Presentation Outline
More informationTechnical Challenges for Vehicle 14V/28V Lithium Ion Battery Replacement
: Dist A. Approved for public release Technical Challenges for Vehicle 14V/28V Lithium Ion Battery Replacement David Skalny Deputy Team Leader, Energy Storage Team, US Army TARDEC May 4, 2011 Agenda Goals
More informationBATTERIES & SUPERCAPS POST MORTEM ANALYSIS PLATFORM EXTERNAL SERVICES
BATTERIES & SUPERCAPS POST MORTEM ANALYSIS PLATFORM EXTERNAL SERVICES CONTEXT Over the last years a remarkable evolution has taken place by the introduction of new batteries & supercapacitors technologies
More informationImproved Functional Safety with Advanced Real Time Embedded Battery Diagnostics
Improved Functional Safety with Advanced Real Time Embedded Battery Diagnostics Content Motivation EV Battery Management Thermal Runaway Thermal Model Behavior and Thermal Management New Advanced Diagnostics
More informationEENERGY EFFICIENCY. German-Japanese Energy Symposium Lithium-Ion-Technology in mobile und stationary applications. February 10 th, 2011
German-Japanese Energy Symposium 2011 Lithium-Ion-Technology in mobile und stationary applications EENERGY EFFICIENCY CO EENERGY EFFICIENCY CLIMATE PROTECTION2 February 10 th, 2011 Carsten Kolligs Evonik
More informationDr. Pierrot S. Attidekou RA Newcastle University
Dr. Pierrot S. Attidekou RA Newcastle University Research collaboration between 2 schools: CEAM & EEE School of Chemical Engineering and Advance Materials School of Electrical and Electronic Engineering
More informationProduct Overview. 1.0 About VRB-ESS. 2.0 System Description. MW-Class VRB-ESS
1.0 About VRB-ESS Pu Neng s VRB-ESS is an electrical energy storage system based on the patented vanadium redox battery (VRB ) that converts chemical to electrical energy. Energy is stored chemically in
More informationLi Ion Battery Design. International Distribution Seminar April 2014
Li Ion Battery Design International Distribution Seminar April 2014 Saft MP176065 INT Design 2 Safety : high level via redundant features Level one : fail safe charging device > limited current and voltage
More informationAARHUS UNIVERSITET FLOW BATTERIER PÅ VEJ IND I KOMMERCIEL DANSK SERIEPRODUKTION
FLOW BATTERIER PÅ VEJ IND I KOMMERCIEL DANSK SERIEPRODUKTION Background Associate Professor Department of Engineering -Research in batteries and solar energy conversion Co-founder of VisBlue commercialisation
More informationSimpliPhi Power PHI Battery
Power. On Your Terms. SimpliPhi Power PHI Battery INTEGRATION GUIDE: VICTRON Optimized Energy Storage & Management for Residential & Commercial Applications Utilizing Efficient, Safe, Non-Toxic, Energy
More informationEnergy Storage. 9. Power Converter Demo. Assoc. prof. Hrvoje Pandžić. Vedran Bobanac, PhD
Energy Storage 9. Power Converter Demo Assoc. prof. Hrvoje Pandžić Vedran Bobanac, PhD Lecture Outline Rechargeable batteries basics Power converter for experimenting with rechargeable batteries Rechargeable
More informationNaS (sodium sulfura) battery modelling
In the name of GOD NaS (sodium sulfura) battery modelling Course: Energy storage systems University of Tabriz Saeed abapour Smart Energy Systems Laboratory 1 Introduction: This study address wind generation
More informationLithium-Ion Battery for Audi A6 PHEV. Steve Lehnert, AUDI AG
Steve Lehnert, AUDI AG 2 Contents Overview of the battery system Mechanical Overview Advantages/disadvantages of common battery package Architecture Modular set part concept Advantages of set part concept
More informationFRAUNHOFER INSTITUTE FOR CHEMICAL TECHNOLOGY ICT REDOX-FLOW BATTERY
FRAUNHOFER INSTITUTE FOR CHEMICAL TECHNOLOGY ICT REDOX-FLOW BATTERY REDOX-FLOW BATTERY REDOX-FLOW BATTERY Redox-flow batteries are efficient and have a longer service life than conventional batteries.
More informationChapter 1: Battery management: State of charge
Chapter 1: Battery management: State of charge Since the mobility need of the people, portable energy is one of the most important development fields nowadays. There are many types of portable energy device
More informationThere are several technological options to fulfill the storage requirements. We cannot use capacitors because of their very poor energy density.
ET3034TUx - 7.5.1 - Batteries 1 - Introduction Welcome back. In this block I shall discuss a vital component of not only PV systems but also renewable energy systems in general. As we discussed in the
More informationSupercapacitors: A Comparative Analysis
Supercapacitors: A Comparative Analysis Authors: Sneha Lele, Ph.D., Ashish Arora, M.S.E.E., P.E. Introduction Batteries, fuel cells, capacitors and supercapacitors are all examples of energy storage devices.
More informationMaxwell s Highest Power and Energy Cell
DATASHEET 3.0V 3400F ULTRACAPACITOR CELL BCAP3400 P300 K04/05 Maxwell s Highest Power and Energy Cell Maxwell Technologies 3V 3400F ultracapacitor cell is designed to support the latest trends in renewable
More informationOpen-circuit voltages (OCV) of various type cells:
Open-circuit voltages (OCV) of various type cells: Re-Chargeable cells: Lead Acid: 2.10V/cell to 1.95 NiMH and NiCd: 1.20 V/cell Li Ion: 3.60 V/cell Non-re-chargeable (primary) cells: Alkaline: 1.50 V/cell
More informationStefan van Sterkenburg Stefan.van.sterken
Stefan van Sterkenburg Stefan.vansterkenburg@han.nl Stefan.van.sterken burgr@han.nl Contents Introduction of Lithium batteries Development of measurement equipment Electric / thermal battery model Aging
More information2009 JSPE - Saft. Advanced Lithium Power Sources Real World Experience
2009 JSPE - Saft Advanced Lithium Power Sources Real World Experience 5 May 2009 2 Real World Experience Key Topics Saft Background Improved Target Acquisition System Lithium Battery Box Battery Life Expectations
More informationPower Management Solution: Constant Voltage (CV) Pulse Charging of Hybrid Capacitors
VISHAY BCCOMPONENTS www.vishay.com Aluminum Capacitors By Gerald Tatschl ENYCAP TM 196 HVC SERIES GENERAL INFORMATION In order to fully utilize the performance of ENYCAP 196 HVC capacitors, a reliable
More informationCapacity fade analysis of a battery/super capacitor hybrid and a battery under pulse loads full cell studies
Journal of Applied Electrochemistry (25) 35:15 113 Ó Springer 25 DOI 1.17/s18-5-6728-8 Capacity fade analysis of a battery/super capacitor hybrid and a battery under pulse loads full cell studies RAJESWARI
More informationIN EVERY application where batteries are deployed, the state
708 IEEE TRANSACTIONS ON ENERGY CONVERSION, VOL. 23, NO. 2, JUNE 2008 An Improved Battery Characterization Method Using a Two-Pulse Load Test Martin Coleman, William Gerard Hurley, Fellow, IEEE, and Chin
More informationHIGH-RELIABILITY POUCH CELL CONNECTION AND COST ASPECTS OF A ROBUST BMS SOLUTION
HIGH-RELIABILITY POUCH CELL CONNECTION AND COST ASPECTS OF A ROBUST BMS SOLUTION 3rd Israeli Power Sources, Batteries, Fuel-Cells, Smart-Grid & EV Conference May 29 th / 30 th 2013, Herzelia Dr. Uwe Wiedemann
More informationAnalysis of Fuel Economy and Battery Life depending on the Types of HEV using Dynamic Programming
World Electric Vehicle Journal Vol. 6 - ISSN 2032-6653 - 2013 WEVA Page Page 0320 EVS27 Barcelona, Spain, November 17-20, 2013 Analysis of Fuel Economy and Battery Life depending on the Types of HEV using
More informationgan power Energy-efficient Power Electronics using Gallium Nitride Transistors Leti, technology research institute Contact:
gan power Energy-efficient Power Electronics using Gallium Nitride Transistors, technology research institute Contact: leti.contact@cea.fr A GROWTH MARKET GaN Devices for Next-Era Power Electronics $ 600.0M
More informationCURRENT AND FUTURE PROPAGATION TEST AND THE EMBEDDING IN PRODUCT SAFETY THOMAS TIMKE, JRC
CURRENT AND FUTURE PROPAGATION TEST AND THE EMBEDDING IN PRODUCT SAFETY THOMAS TIMKE, JRC 09.03.2018 SOLARWATT COMMITMENT Safety Not negotiable Lifetime & Performance Current main topic in Germany Complete
More informationIntelligent Control Algorithm for Distributed Battery Energy Storage Systems
International Journal of Engineering Works ISSN-p: 2521-2419 ISSN-e: 2409-2770 Vol. 5, Issue 12, PP. 252-259, December 2018 https:/// Intelligent Control Algorithm for Distributed Battery Energy Storage
More informationHouse/Building Wind Power Storage Facility Supply Factory Supply. Ferry Energy Adjustment Grid Peaking Shaving
House/Building Wind Power Storage Facility Supply Factory Supply Ferry Energy Adjustment Grid Peaking Shaving Power Shifting for Peak Shaving (on-grid) Pulse Load Compensation (on-grid) Power Shifting
More informationBreaking Lithium-Ion Market Barriers: Safety and Total Cost of Ownership. Dr. Tomasz Poznar
Breaking Lithium-Ion Market Barriers: Safety and Total Cost of Ownership Dr. Tomasz Poznar 1 Storing Energy = Risks Risks are presents in all energy storage systems Storing energy always poses inherent
More informationAPPLIED ELECTROCHEMISTRY Technion s Chemical Power Sources Research
ה ט כ נ י ו ן מ כ ו ן ט כ נ ו ל ו ג י ל י ש ר א ל TECHNION - ISRAEL INSTITUTE OF TECHNOLOGY הפקולטה למדע והנדסה של חומרים DEPARTMENT OF MATERIALS SCIENCE & ENGINEERING - APPLIED ELECTROCHEMISTRY Technion
More informationLithium Battery Specification
Customer: Lithium Battery Specification MODEL: Prepared By/Date Checked By/Date Approved By/Date Signature/Date Customer Approval Company Name Company Stamp Page 1 o f 7 Amendment Records Edition Description
More informationMicrogrid Storage Integration Battery modeling and advanced control
Alexandre Oudalov, ABB Switzerland Ltd., 1th Microgrid Symposium, Beijing, November 13-14, 214 Microgrid Storage Integration Battery modeling and advanced control Microgrid Storage Integration Outline
More informationData Sheet BP v 100Ah LiFePO 4 (Peli TM Case Kit)
Data Sheet BP2589-12v 100Ah LiFePO 4 (Peli TM Case Kit) Product Name Battery Model Spec File Revision LiFePO4 Battery in Peli TM Case LiFePO4-11198141 4S5P 12.8V 100Ah A2 Amendment Records Revision Description
More informationSmart Battery Systems. for Energy Storage
Smart Battery Systems for Energy Storage Creative Energy & Materials Solution Leader Samsung SDI is creating a future energy world on the foundation of technology and innovation. As a global leading provider
More informationThermal Analysis of Laptop Battery Using Composite Material
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) e-issn: 2278-1676,p-ISSN: 2320-3331, Volume 12, Issue 3 Ver. IV (May June 2017), PP 01-08 www.iosrjournals.org Thermal Analysis of Laptop
More informationModeling, Design, and Control of Hybrid Energy Systems and Wireless Power Transfer systems
Modeling, Design, and Control of Hybrid Energy Systems and Wireless Power Transfer systems Chengbin Ma, Ph.D. Assistant Professor Univ. of Michigan-SJTU Joint Institute, Shanghai Jiao Tong University (SJTU),
More informationAn Experimental System for Battery Management Algorithm Development
An Experimental System for Battery Management Algorithm evelopment Jonas Hellgren, Lei Feng, Björn Andersson and Ricard Blanc Volvo Technology, Göteborg, Sweden E-mail: {jonas.hellgren, lei.feng, bjorn.bj.andersson,
More informationNOVEL MODULAR MULTIPLE-INPUT BIDIRECTIONAL DC DC POWER CONVERTER (MIPC) FOR HEV/FCV APPLICATION
NOVEL MODULAR MULTIPLE-INPUT BIDIRECTIONAL DC DC POWER CONVERTER (MIPC) FOR HEV/FCV APPLICATION 1 Anitha Mary J P, 2 Arul Prakash. A, 1 PG Scholar, Dept of Power Electronics Egg, Kuppam Engg College, 2
More informationComparative Analysis of Features for Determining State of Health in Lithium-Ion Batteries
Comparative Analysis of Features for Determining State of Health in Lithium-Ion Batteries Nick Williard, Wei He, Michael Osterman, and Michael Pecht Center for Advanced Life Cycle Engineering, College
More informationSmart Batteries. Smart Battery Management SMBus v1.1. Rev
Smart Batteries Smart Battery Management SMBus v1.1 1 Rev 1.5 01.12.2014 Smart Battery Packs STANDARD PACKS CUSTOMISED PACKS 2 Hazardous failures of lithium-ion 1. Lithium ions travel through the separator
More informationElectric Vehicle Battery Durability and Reliability Under Electric Utility Grid Operations
Electric Vehicle Battery Durability and Reliability Under Electric Utility Grid Operations Dr. Matthieu Dubarry Hawaii Natural Energy Institute University of Hawaii at Manoa 1680 East West Road, POST 109
More informationPower Electronics for Grid Scale Energy Storage
University of Oxford Power Electronics for Grid Scale Energy Storage Getting the most out of your cells Dr Dan Rogers Senior Research Fellow, Department of Engineering Science dan.rogers@eng.ox.ac.uk UKES
More information4840 Technical specification
Lithium Ion Battery 4840 Model 4840 Specification 48V 40Ah Shandong Sacred Sun Power Sources Co., LTD No.1 Shengyang Road, Qufu, Shangdong 273100 P.R.China Contents 1. Scope... 3 2. Mechanical Design...
More informationEMC-HD. C 01_2 Subheadline_15pt/7.2mm
C Electromechanical 01_1 Headline_36pt/14.4mm Cylinder EMC-HD C 01_2 Subheadline_15pt/7.2mm 2 Elektromechanischer Zylinder EMC-HD Short product name Example: EMC 085 HD 1 System = ElectroMechanical Cylinder
More informationLITHIUM IRON PHOSPHATE BATTERY Multi-application - LiFePO4 Power
LITHIUM IRON PHOSPHATE BATTERY Multi-application - LiFePO4 Power Issued Date > 2017-04-19 Issued Version > V00 1. General Information This specification defines the performance of rechargeable LiFePO4
More informationAPPLICATION NOTE
APPLICATION NOTE 1007239 Test Procedures for Capacitance, ESR, Leakage Current and Self-Discharge Characterizations of Maxwell Technologies, Inc. June 2015 Maxwell Technologies, Inc. Global Headquarters
More informationSONNENSCHEIN LITHIUM INDUSTRIAL BATTERIES / MOTIVE POWER
SONNENSCHEIN LITHIUM INDUSTRIAL BATTERIES / MOTIVE POWER FEATURES AND TECHNOLOGY The Intelligent Energy Source Maximizing Your Productivity GNB's traction batteries based on Lithium-ion technology are
More informationTowards advanced BMS algorithms development for (P)HEV and EV by use of a physics-based model of Li-ion battery systems
Towards advanced BMS algorithms development for (P)HEV and EV by use of a physics-based model of Li-ion battery systems Speaker: Martin Petit Authors: Eric Prada, Domenico Di Domenico, Yann Creff, Valérie
More informationEvaluating Batteries: Deployment, Integration and Market Drivers
Evaluating Batteries: Deployment, Integration and Market Drivers Evaluating Batteries: Deployment, Integration, and Market Drivers TechAdvantage 2018 Nashville, Tennessee February 27, 2018 Taylor Gunn,
More informationUnderstanding Lithium-Ion Technology Jim McDowall (updated from Battcon 2008)
Understanding Lithium-Ion Technology Jim McDowall (updated from Battcon 2008) PE/SB Winter Meeting 2015, New Orleans Background History Started with primary batteries with metallic lithium negatives True
More information