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Arunachala Nadar Mada Kannan

Zn and Ni based Batteries: This course focuses on identifying active materials, chemistry and manufacturing processes as they relate to Zn as well as Ni batteries Battery selection and sizing for various applications.

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What's inside

Syllabus

Course Introduction
Introduction to Zn-based Batteries
Module 1 provides the characteristics of various Zn-based batteries comprising Zn-MnO2, Alkaline MnO2 and Zn-Air batteries. The major objective in this module is to learn about the anode and cathode reactions in both the primary and secondary batteries. In addition, the objective is also to bring out the recent major developments of rechargeable Zn-based batteries such as alkaline MnO2 and Zn-Air batteries.
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Module 2: Ni-based Batteries
Module 2 provides the characteristics of Ni-Cd and Ni-MH batteries. The major objective in this module is to learn about the Ni, Cd and MH electrode active materials, electrochemical characteristics reactions in both the primary and secondary batteries. In addition, the objective is also to bring out the unique design aspects for making the Ni-Cd and Ni-MH batteries sealed.
Module 3: Pb-Acid Batteries
Module 3 provides the operation characteristics of lead acid batteries along with state of charge estimation. The major objective in this module is to learn about the Pb anode and PbO2 cathode reactions as well as lead acid battery performance. In addition, the objective is also to bring out the unique design features of sealed lead acid batteries for various applications.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Teaches the fundamentals of Zn and Ni batteries along with the manufacturing processes involved in their production
Covers the characteristics and electrochemical reactions of both primary and secondary Zn and Ni batteries
Delves into the unique design aspects of sealed lead acid batteries, making it relevant for various applications
Instructors Arunachala Nadar Mada Kannan bring expertise in the field of batteries
Examines Pb-Acid batteries, expanding the scope of the course beyond Zn and Ni batteries

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Zn and Ni Based Batteries with these activities:
Review battery structures and characteristics
Watch a series of tutorial videos on the different types of batteries and their key characteristics.
Show steps
  • Search for online tutorials or videos on battery structures and characteristics.
  • Take notes on the different types of batteries, their components, and their applications.
  • Compare and contrast the different battery types based on their properties and performance.
Organize course materials
Organize your lecture notes, assignments, and other course materials to enhance your study sessions.
Show steps
  • Create a dedicated folder or binder for the course.
  • File lecture notes, assignments, and other materials in an organized manner.
  • Consider color-coding or using different tabs for different sections of the course.
Participate in a battery discussion group
Engage with peers to discuss battery concepts, exchange ideas, and enhance your understanding.
Browse courses on Battery Technology
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  • Join online forums or discussion groups dedicated to battery technology.
  • Actively participate in discussions, asking questions, sharing insights, and responding to others.
  • Organize or attend local meetups or study groups with fellow students.
Six other activities
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Practice manipulating electro-chemical equations
Go through the course materials and solve as many sample equations as possible.
Show steps
  • Revisit basic electrochemistry and redox reactions to refresh your foundational understanding.
  • Identify the reactants, products, and direction of electron flow in each half-reaction.
  • Practice balancing the half-reactions to create a complete electrochemical equation.
  • Solve different types of electro-chemical problems, like cell potential calculations.
Practice cell potential calculations
Sharpen your skills in calculating cell potentials to enhance your understanding of electrochemical reactions.
Browse courses on Electrochemistry
Show steps
  • Find practice problems online or in textbooks.
  • Solve the problems step-by-step, showing all your work.
  • Check your answers against the provided solutions.
Compile a glossary of battery terms
Create a comprehensive glossary to solidify your understanding of key battery-related terms.
Browse courses on Electrochemistry
Show steps
  • Identify and list important battery-related terms from the course materials.
  • Define each term concisely and accurately.
  • Organize the terms alphabetically or by category for easy reference.
Explore advanced battery technologies
Expand your knowledge by exploring recent advancements in battery technologies to stay updated with the field.
Browse courses on Electrochemistry
Show steps
  • Identify reputable sources for information on battery technologies.
  • Follow online tutorials or webinars on advanced battery concepts.
  • Attend industry conferences or workshops to learn from experts in the field.
Volunteer at a battery research lab
Gain practical experience by volunteering in a battery research lab, exposing you to real-world applications.
Browse courses on Electrochemistry
Show steps
  • Identify battery research labs in your area.
  • Contact the labs and inquire about volunteer opportunities.
  • Attend training sessions and follow safety protocols.
  • Assist researchers with battery testing, data collection, and other tasks.
Design a prototype battery
Apply your knowledge to design a prototype battery, showcasing your understanding of battery principles.
Show steps
  • Research different battery types and select one for your design.
  • Determine the specifications and requirements for your prototype.
  • Design the battery components, including the electrodes, electrolyte, and casing.
  • Assemble and test your prototype battery.

Career center

Learners who complete Zn and Ni Based Batteries will develop knowledge and skills that may be useful to these careers:
Battery Product Manager
A Battery Product Manager manages the development and marketing of batteries. This course may be useful for Battery Product Managers who want to learn more about Zn and Ni based batteries. The course can help Battery Product Managers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for managing the development and marketing of batteries.
Energy Storage Specialist
An Energy Storage Specialist designs, develops, and operates energy storage systems. This course may be useful for Energy Storage Specialists who want to learn more about Zn and Ni based batteries. The course can help Energy Storage Specialists understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing, developing, and operating energy storage systems.
Battery Applications Engineer
A Battery Applications Engineer designs and develops battery applications. This course may be useful for Battery Applications Engineers who want to learn more about Zn and Ni based batteries. The course can help Battery Applications Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing and developing battery applications.
Electrochemical Engineer
An Electrochemical Engineer designs, develops, and tests electrochemical devices, including batteries. This course may be useful for Electrochemical Engineers who want to learn more about Zn and Ni based batteries. The course can help Electrochemical Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing and developing new batteries.
Battery Consultant
A Battery Consultant provides advice on battery design, development, and use. This course may be useful for Battery Consultants who want to learn more about Zn and Ni based batteries. The course can help Battery Consultants understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for providing advice to clients on battery design, development, and use.
Research Scientist
A Research Scientist conducts research in various fields, including battery research. This course may be useful for Research Scientists who want to learn more about Zn and Ni based batteries. The course can help Research Scientists understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for conducting research on new battery technologies.
Battery Analyst
A Battery Analyst analyzes battery data to identify trends and patterns. This course may be useful for Battery Analysts who want to learn more about Zn and Ni based batteries. The course can help Battery Analysts understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for analyzing battery data and identifying trends.
Renewable Energy Engineer
A Renewable Energy Engineer designs, develops, and operates renewable energy systems. This course may be useful for Renewable Energy Engineers who want to learn more about Zn and Ni based batteries. The course can help Renewable Energy Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing, developing, and operating renewable energy systems.
Battery Engineer
A Battery Engineer designs, develops, and tests batteries for various applications. This course may be useful for Battery Engineers who want to learn more about Zn and Ni based batteries. The course can help Battery Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing and developing new batteries.
Battery Marketing Manager
A Battery Marketing Manager develops and executes marketing campaigns for batteries. This course may be useful for Battery Marketing Managers who want to learn more about Zn and Ni based batteries. The course can help Battery Marketing Managers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for developing and executing marketing campaigns for batteries.
Chemical Engineer
A Chemical Engineer designs, develops, and operates chemical plants and processes. This course may be useful for Chemical Engineers who want to learn more about Zn and Ni based batteries. The course can help Chemical Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing and developing new batteries.
Manufacturing Engineer
A Manufacturing Engineer designs, develops, and operates manufacturing processes. This course may be useful for Manufacturing Engineers who want to learn more about Zn and Ni based batteries. The course can help Manufacturing Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for designing and developing new manufacturing processes for batteries.
Battery Sales Engineer
A Battery Sales Engineer sells batteries to customers. This course may be useful for Battery Sales Engineers who want to learn more about Zn and Ni based batteries. The course can help Battery Sales Engineers understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for selling batteries to customers.
Professor
A Professor teaches and conducts research at a university. This course may be useful for Professors who want to learn more about Zn and Ni based batteries. The course can help Professors understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for teaching and conducting research on batteries.
Materials Scientist
A Materials Scientist researches and develops new materials for various industries, including the battery industry. This course may be useful for Materials Scientists who want to learn more about Zn and Ni based batteries, as these materials are commonly used in battery production. The course can help Materials Scientists understand the different types of Zn and Ni based batteries, their properties, and their applications. This knowledge can be valuable for Materials Scientists who are working on developing new battery materials.

Reading list

We've selected nine books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Zn and Ni Based Batteries.
Provides a comprehensive overview of the theory and practice of PEM fuel cells, including their design, performance, and applications.
Provides a comprehensive overview of electrochemical capacitors, including their materials, design, and applications.
Provides a comprehensive overview of the materials, properties, and applications of solid oxide fuel cells.
Provides an overview of the different battery technologies used in the automotive industry, focusing particularly on advanced technologies such as lithium-ion and solid-state batteries.
Much like the previous book regarding Zinc, this book focuses on the material properties of batteries that use Nickel.
Information on management systems for batteries in electric vehicles is given in this book.
Provides a technical overview of Ni-MH battery technology, including the materials, design, and applications of these batteries.
Provides a comprehensive overview of the electrochemistry of zinc, including the thermodynamics, kinetics, and applications of zinc electrodes.

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