Last updated 8/2021
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.79 GB | Duration: 4h 21m
Deep dive into the future of energy storage for e-mobility and renewable energy.
What you’ll learn
Important Battery Terminology
Electrochamical Cells
Electrochamical Cells Working
Lithium-ion History
Why Lithium-ion?
Electrode of Lithium ion Cell & Working
Lithium-ion Electrolytes and Separators
When will Lithium Battery end?
Introduction to Supercapacitors
Requirements
No Prerequisites
Description
We are using fuel for ages starting from wood. In today’s world, we see game-changing movements in energy markets. We are using batteries for various purposes in our day-to-day life. Batteries are used in mobile phones, as an invertor, in an automotive application, electric vehicles, for energy storage in solar applications, and many more. To design the battery packs for such applications, the fundamentals are the same. You need a better understanding of the processes involved to find your own role in these incipient shifts and take advantage of monumental changes down the road.The battery specialized course aims to bridge science and society. For students focused on science, it will help illustrate the demands of society and industry. For learners from industry, business, or generalist backgrounds, it will be a lucid from introduction to advancement in the subject. This specialization is designed for whoever is an enthusiast in battery technology and wishes to pursue a career further.Level 1 is an elementary introduction to the batteries, their terminologies which are essential and the cornerstone of electromobility and renewable energy, the main drivers of sustainable development. Learning the fundamental lessons of the electrochemical cell and lithium ion battery, understanding the main li-ion battery driving forces, and gaining the basic knowledge of the battery will build your basic all-around comprehension of the subject. The short course will not make you an expert in batteries, fuel cells, and electric vehicles, but will help you in communicating with scientists and engineers and make your further education (or self-education) more productive. To be an expert the entire specialization program will help you with immense practice on your own. The main focus of the specialization is on batteries – namely, lithium-ion batteries, battery design, and development in electric vehicles as the key market. However, you can apply the same knowledge to other applications as well.So, without wasting time give yourself an additional incentive by choosing the specialization.See you in the Course!
Overview
Section 1: Welcome to the Course!
Lecture 1 Specialized Course Introduction
Lecture 2 Electric Vehicle Program
Section 2: Important Battery Terminology
Lecture 3 Introduction
Lecture 4 Cells
Lecture 5 Battery
Lecture 6 Nominal Voltage & Capacity
Lecture 7 C-Rate
Lecture 8 Energy and Power
Lecture 9 Cells connected in Series
Lecture 10 Cells connected in Parallel
Lecture 11 Summary
Section 3: Parts of Electrochemical Cell
Lecture 12 Electrochemical vs Lithium Ion Cells
Lecture 13 Functional components of an electrochemical cell
Lecture 14 The function of the negative electrode
Lecture 15 The function of the positive electrode
Lecture 16 The function of the electrolyte
Lecture 17 The functions of the separator & current collectors
Lecture 18 Some example electrochemical cells
Lecture 19 Summary
Section 4: Working of Electrochemical Cell
Lecture 20 Potential Energy
Lecture 21 The discharge process: Potential
Lecture 22 The discharge process: Voltage & Work
Lecture 23 Rechargeable Cell
Lecture 24 The charge process
Lecture 25 Overcharge and Undercharge
Lecture 26 Charging Modes
Lecture 27 Summary
Section 5: Best material for an Electrochemical Cell
Lecture 28 Designing a cell’s electrochemistry
Lecture 29 Electrode potential
Lecture 30 The Periodic Table
Lecture 31 Understanding each periodic-table entry
Lecture 32 Organization of the periodic table
Lecture 33 Why number of valence electrons is important?
Lecture 34 Valence
Lecture 35 Electrochemical series
Lecture 36 Summary
Lecture 37 Periodic Table
Section 6: Electrochemical Cell Examples
Lecture 38 Daniell Cell Introduction
Lecture 39 Daniell Cell Discharging
Lecture 40 Daniell Cell Voltage
Lecture 41 Lead-acid electrochemical cells
Lecture 42 Lead-acid voltage
Lecture 43 Lead-acid charge/discharge protection
Lecture 44 Lead-acid battery construction
Lecture 45 Nickel-metal-hydride (NiMH) cells
Lecture 46 The NiMH negative electrode
Lecture 47 Calculating NiMH voltage
Lecture 48 Summary
Section 7: Benefits of Lithium-ion Cell
Lecture 49 Lithium ion cell Preview
Lecture 50 Specific energy & energy density
Lecture 51 Advantages of Lithium ion
Lecture 52 Disadvantages of Lithium ion
Lecture 53 Summary
Section 8: Lithium ion Cell Negative Electrodes
Lecture 54 Cell formats
Lecture 55 Electrode coating
Lecture 56 Stacked electrode structure
Lecture 57 Cylindrical and prismatic electrode structure
Lecture 58 Graphite Structure
Lecture 59 Alternate negative-electrode material LTO
Lecture 60 Future negative-electrode material silicon
Lecture 61 Summary
Section 9: Lithium ion Cell Positive Electrodes
Lecture 62 Lithium cobalt oxide (LCO)
Lecture 63 LCO and other layered cathodes
Lecture 64 Spinel cathodes
Lecture 65 Olivine cathodes
Lecture 66 Summary
Section 10: Electrolytes and Separators for Lithium-ion Cells
Lecture 67 Electrolytes for lithium-ion cells
Lecture 68 Electrolyte solvents used in lithium-ion cells
Lecture 69 Electrolyte salts used in lithium-ion cells
Lecture 70 Separators for lithium-ion cells
Lecture 71 Current collectors
Lecture 72 Summary
Section 11: End of Lithium
Lecture 73 Is lithium going to run out?
Lecture 74 How much lithium is in a lithium-ion cell?
Lecture 75 Availability of Lithium
Lecture 76 Summary
Section 12: Understanding Lead Acid Battery
Lecture 77 Introduction to Lead Acid Battery
Lecture 78 Lead Acid Battery – Theoretical Capacity
Lecture 79 Main Characteristics
Lecture 80 Practical Details 1
Lecture 81 Practical Details 2
Section 13: Recap – Lithium-ion Battery
Lecture 82 History
Lecture 83 Working & Comparison
Lecture 84 Chemistries
Section 14: Introduction to Supercapacitors
Lecture 85 Introduction to Supercapacitor
Lecture 86 Supercapacitors vs Batteries
Section 15: Let’s get ready for the Next Level!
Lecture 87 What’s next?
Electric Vehicle Enthusiatis,Battery Technology Developers
Homepage
https://www.udemy.com/course/complete-battery-technology-course-level-1-the-basics/
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