Energy Storage Training

Commitment 2 Days, 7-8 hours a day.
Language English
User Ratings Average User Rating 4.8 See what learners said
Price REQUEST
Delivery Options Instructor-Led Onsite, Online, and Classroom Live

COURSE OVERVIEW

Energy Storage Training covers a variety of topics in the Energy Storage training area such as the Basics of energy storage systems, the application of energy storage in electrical engineering, the application of energy storage in transportation, energy storage in photovoltaic (PV) systems, energy storage applications in mobile applications, micro-power application of energy storage, hydrogen, and thermal storage, lead acid batteries, fuel cell principles, electrochemical storage, and supercapacitors.

By taking the Energy Storage training by Enoinstitute, you will learn about the concept of energy, how to store energy, types of energy-storing devices, the history of energy storage systems, the development of energy storage by 2050, and long-term/short-term storage.

Learn about the different applications of energy storage in electrical systems such as photovoltaic (PV), Hybrid Electric Vehicle (HEV), controlling voltage and frequency by energy storage, connecting energy storage to a power electronic device, controlling charge and discharge of the battery with power electronic device and energy storage degradation case studies.

The Energy Storage training course by Enoinstitute is an interactive course with a lot of class discussions and exercises aiming to provide you with a useful resource for energy storage applications. You will learn more about the application of energy storage in transportation systems such as road vehicles, rail transportation, heavy vehicles, buses, locomotives, river transport, and electric cars.

If you are a Non-engineer who wants to know more about energy storage systems and needs to validate your skills, you will benefit from the presentations, examples, case studies, discussions, and individual activities upon the completion of the Energy Storage training and will prepare you for your career.

Learn about the fundamentals of energy storage for mobile applications, energy needs for mobile platforms, capacitive storage, electrochemical storage application for mobile devices, fuel cells in mobile systems, and radioactive sources of energy.

You will also learn about hydrogen and thermal storage, solid storage, reservoirs, approaches to producing and storing hydrogen, latent heat, hybrid storage, chemical storage, and mobile storage of liquid hydrogen.

Our instructors at Enoinstitute will help you to learn about lead-acid batteries, the concept of electrodes in energy storage, reactions in electrodes, principles of fuel cells, catalysis, different types of fuel cells, faults, and troubleshooting of fuel cells. Moreover, you will learn about supercapacitors, electric and thermal models of supercapacitors, and power criteria in supercapacitor design.

Finally, the Energy Storage training will introduce a set of labs, workshops, and group activities of real-world case studies in order to prepare you to tackle all the related energy storage challenges.

WHAT'S INCLUDED?
  • 3 Days of Energy Storage Training with an expert instructor
  • Energy Storage Training Electronic Course Guide
  • Certificate of Completion
  • 100% Satisfaction Guarantee
RESOURCES
RELATED COURSES

ADDITIONAL INFORMATION

COURSE OBJECTIVES

Upon completing this Energy Storage Training course, learners will be able to meet these objectives:

  • Understand the Fundamentals of batteries and the concept of storing energy
  • Understand the materials used in different types of energy storage and recognize the operation
  • Recognize the parameters that control energy storage performance
  • Describe the different applications of energy storage in electrical engineering
  • Explain different applications of energy storage in the ground, air, or marine transportation systems
  • Understand the application of energy storage in photovoltaic
  • Troubleshoot challenges related to energy storage systems
  • Describe supercapacitors, and their applications in the system
  • Differentiate thermal and hydrogen storage
  • Understand the fuel cells and different applications and types of fuel cells in the system
CUSTOMIZE IT
  • We can adapt this Energy Storage Training course to your group’s background and work requirements at little to no added cost.
  • If you are familiar with some aspects of this Energy Storage Training course, we can omit or shorten their discussion.
  • We can adjust the emphasis placed on the various topics or build the Energy Storage Training course around the mix of technologies of interest to you (including technologies other than those included in this outline).
  • If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Energy Storage Training course in a manner understandable to lay audiences.
AUDIENCE/TARGET GROUP

The target audience for this training course:

  • All professionals in the area of energy storage systems
  • Non-engineers looking to understand new approaches to storing energy
  • Individuals who are looking for technical training in energy storage systems
  • Project managers, quality managers, business managers, and directors looking for comprehensive training in energy storage application and operation
  • Energy storage producers who look for alternatives to improve their energy storage design and efficiency
  • Executives and managers who are looking to invest in the energy storage area
  • Investors and contractors who plan to make investments in the energy storage industry.
  • Technicians, operators, and maintenance personnel who are or will be working on energy storage projects
CLASS PREREQUISITES

There are no formal prerequisites for this course.

  • N/A

COURSE SYLLABUS

Introduction to Energy Storage Systems
  • Concept of Energy
  • Concept of Storing Energy
  • Engineering and Non-Engineering Definition of Energy Storage
  • Types of Energy Storage
  • Why Energy Storage?
  • History of Energy Storage
  • Rationale for Energy Storage
  • Purpose, Process and Roadmap of Energy Storage
  • Key Application of Energy Storage
  • Current Installed Capacity
  • Electricity Storage
  • Thermal Storage
  • Energy Storage Deployment to 2050
  • Energy Storage Development
  • Short Term Storage Applications
  • Long Term Storage Applications
  • Policy, Finance and International Collaborations
  • Future of Energy Storage
  • Alternate Electrolytes
  • Organic electrode Materials for Lithium Batteries
  • Organic Plastic Crystal Materials
  • Storage in Fuel Distribution System
  • Periodic Storage
  • Long-Term or Seasonal Storage
  • Short Term Transients
  • Engineering Application of Energy Storage
Energy Storage in Electrical Engineering
  • Energy storage for the Electrical Generation Units
  • High-power Energy Storage
  • Storage for Ancillary Services
  • The special case of intermittent generation
  • Frequency Regulation with Energy Storage
  • Active/Reactive Power Control with Energy Storage
  • Energy Storage Applied for transmission systems
  • Control of investments and congestion management
  • Frequency regulation and the balancing mechanism
  • Voltage regulation and power quality
  • System Security and Network Restoration
  • Energy Storage for Distribution Networks
  • Application of Energy Storage in Planning
  • Application of Energy Storage for Retailers
  • Sourcing Cost Reduction with Batteries
  • Application of Energy Storage for Customers
  • Peak Shaving of Renewables with Energy Storage
  • Energy Storage for Power Flow
  • Improvement of Product Quality with Energy Storage
  • Reactive Power Compensation
  • Energy storage for the Balancing
 Energy Storage in Transportation
  • Electrical energy for Transportation
  • Application of Energy Storage in Ground Transportation
  • Air transportation Energy Storage
  • Energy Storage in Rail Transportation
  • Energy Storage in Maritime Transportation
  • Energy Storage in Electric Road Vehicle
  • Energy Storage in Heavy Vehicles and Buses
  • Energy Storage in Two-Wheeled Vehicles
  • Guided Vehicles (Locomotives, Underground, Tram, Trolleybus)
  • Energy Storage in River Transport – yachts
  • Hybrid Electrical Energy and Energy Storage Effect
  • Parallel Architecture
  • Series Architecture
  • Coupling by Road
  • Hybrid Railway Vehicle
 Energy Storage in Photovoltaic Systems
  • Standalone Photovoltaic Systems
  • Principles of Operation
  • Energy Storage as an Indispensible Tool
  • Photovoltaic (PV) Market
  • Sizing Storage for Autonomous PV Systems
  • Control of PV Systems
  • Maximum Power Point Tracking
  • Effect of DC/DC Conversion
  • PV Hierarchical Control
  • Energy Storage Selection for PV Systems
  • Lead Acid Battery and Limited Life Time Problem
  • Battery Energy management
  • Lithium-ion Energy Storage Technology
  • PV Systems in Islanded Mode
  • Grid Connected Mode and Control
  • Control of Islanded Mode Energy Storage
  • Frequency Control
  • Evolution in Electric Network
  • Energy Storage for Multiple Applications
  • Connection of Energy Storage to Grid; A Challenge
 Energy Storage in Mobile Applications and Micro-Power Sources
  • Introduction to Mobile Applications and Energy Storage
  • Weak powers
  • Large powers (a few Watts)
  • Energy Needs for Mobile Applications
  • Battery Life; A Challenge
  • Energy Storage Characteristics in Minimum Scale
  • Capacitive Storage
  • Electrochemical Storage
  • Cells
  • Batteries and Accumulators
  • Fuel Cells
  • Hydrocarbon Storage
  • Power MEMS
  • Pyro electricity
  • Tribo-electricity
  • Radioactive Source
  • Energy Storage in Small Sized Solar Application
  • Thermal Energy Storage
  • Chemical
  • Mechanical Energy Storage
Hydrogen and Thermal Storage
  • Introduction to Hydrogen Storage
  • Production of Hydrogen
  • Governmental Promotion of the Use of Hydrogen
  • Hydrogen Storage Alternatives
  • Approaches to Hydrogen Storage
  • Pertinent Energy Parameters
  • Density and Specific Density Definition
  • Pressurized Storage
  • Reservoirs
  • Networks
  • Cryogenic storage
  • Mobile Storage of Liquid Hydrogen
  • Static Storage
  • Solid storage
  • Physical storage
  • Chemical storage
  • Hybrid storage
  • Economic Aspects of Hydrogen Storage
  • Sensible Heat
  • Latent Heat
  • Inorganic Phase Change Materials
  • Organic Phase Change Materials
  • Quasi-Latent Heat
  • Heat Pumps
Lead Acid Batteries
  • Basics of Pb-Acid System
  • Calculation of the MTSE
  • Variation of Cell Voltage with State of Charge
  • Potentials of the Individual Electrodes
  • Reactions in Electrodes
  • Construction of Electrodes
  • Alloys in Electrode Grids
  • Alternative Grid Materials
  • Additional Design Variations
  • Diffusion of Hydrogen
Fuel Cells Principles
  • Definition of Cell
  • Chemical Energy
  • Concept of Reaction
  • Proton-Exchange Membrane Fuel Cells (PEMFCs)
  • Solid Oxide Fuel Cell (SOFC)
  • Alkaline Fuel Cell (AFC)
  • Catalysis
  • Air Supply System and Fuel Cell
  • Gas Humidification System and Fuel Cell
  • General Considerations
  • Possible Humidification Modes
  • Fuel Cell Systems with a Reservoir
  • The static converter at the stack terminals
  • Lifespan, Reliability and Diagnosis of Fuel Cells
  • Fuel Cell Faults and Origins
  • Experimental Methods for Characterization of Fuel Cells
  • Diagnostic Approaches for Fuel Cells
Electrochemical Storage
  • Chemical and Electrochemical Reactions
  • Major Reaction Mechanisms in Electromechanical Cells
  • Equivalent Circuit of Electrochemical Cells
  • Generalities of accumulators: principle of operation
  • Storage to Manage Electric and Transport Networks
  • Evolutions in Electrochemical Storage
  • Lithium-ion Technology for Hybrid Electric Vehicles (HEV)
  • Lithium-ion Technology for Solar Applications (PV)
  • Lead, Ni-Cd, Ni-MH… and Lithium
  • HEV and electric vehicle applications
  • PV applications
  • Mobile Electronics applications
  • Development of Electrode and Anode Materials
  • Developments in Electrolytes
  • Processing and Recycling of Lithium Batteries
  • μbatteries
  • Electrolytes
  • Printed batteries
 Super Capacitors
  • Introduction to Super Capacitors
  • Double Layer Electric Capacitor
  • Electric Model of Super Capacitors
  • Thermal Model of Super Capacitors
  • Sizing a Bank of Super Capacitors
  • Energy Criteria for Super Capacitors
  • Power Criteria in Super Capacitor Design
  • Power Interfaces for Capacitor
  • Voltage Balance with Super Capacitors
  • Static Converters
  • Applications of Super Capacitors
  • Super Capacitors Used as Principal Sources
  • Hybrid Systems with Super Capacitors
Energy Storage TrainingEnergy Storage Training Course Wrap-Up

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