Advanced Electrochemistry

Paper Code: 
CHY 423 (C)
Credits: 
4
Contact Hours: 
60.00
Max. Marks: 
100.00
Objective: 

Course Objectives :

The course aims to acquaint the students with the advanced aspects of electrochemistry so that they are able to understand the mechanism and processes of battery, fuel cell, corrosion and electro-catalysis.

Course Outcomes (Cos):                                                                                                                                   

COURSE

Learning outcomes (at course level)

Learning and teaching strategies

Assessment Strategies

Paper Code

Paper Title

CHY 423(C)

Advanced Electrochemistry

The students will be able to-

 

CO156-compare different batteries and select an appropriate one as per requirement.

CO157-illustrate the concept of corrosion, corrosion inhibition and apply thermodynamics to discuss the stability of a metal.

CO158-discuss the principle of different type of fuel cells, their properties and applications.

CO159-define the concept of Hydrogen economy and different aspects related to Hydrogen.

CO160- explain the concept, mechanism, types and factors affecting electrocatalysis.

CO161-describe some electrochemical phenomenon occurring in the environment.

Class lectures

 

Tutorials

 

Group discussions

 

Question preparation:

Subjective type-

Long answer

Short answer

Objective type-

Multiple choice questions

One answer/two answer type questions

Assertion and reasoning

PowerPoint Presentation

 

Written test

 

Google Quiz

 

Assignment

 

Semester End Exam
 

12.00
Unit I: 
Electrochemical Energy Storage

Properties of electrochemical energy devices: Discharge plot, Ragone plot, measure of battery performance, charging and discharging of batteries, electrochemical capacitors as energy storage device, storage density, energy density.

Classical Batteries: (i) Lead Acid (ii) Nickel-Cadmium (iii) Zinc-Manganese dioxide

Modern Batteries (i) Zinc- Air (ii) Nickel-Metal Hydride (iii) Lithium Battery (iv) Lithium ion Battery.

12.00
Unit II: 
Corrosion

Electrochemical corrosion of metals, thermodynamics and stability of metals, potential –pH (or Pourbaix) diagrams, uses and abuses, corrosion current and corrosion potential: Evans diagram.

Measurement of corrosion rate: weight loss method and electrochemical method.

Inhibition of corrosion: Cathodic and anodic protection (i) by addition of substances to the electrolytic environment (ii) by charging corroding metal from external source, organic inhibition: The fuller story, green inhibitors.

Passivation: nature of the passive layer, structure of the passive film, methods of passivation, depassivation, localized corrosion.

 

12.00
Unit III: 
Fuel Cells

Electrochemical generators (Fuel Cells): efficiency, kinetics of fuel cell reactions. types of fuel cells: Alkaline fuel cell, phosphoric acid fuel cell, high temperature fuel cell, solid polymer electrolyte fuel cell, direct MeOH fuel cell, molten carbonate fuel cell, solid oxide fuel cell, applications of fuel cells.  

Energy options: hydrogen economy, introduction, hydrogen production, hydrogen transmission, storage and distribution, hydrogen fueled equipments, local electricity, production from hydrogen, hazards and safety aspects of hydrogen.

12.00
Unit IV: 
Electrocatalysis

Chemical catalysis and electrocatalysis, cathodic and anodic electro catalysis, electrocatalysis and adsorption effects, mechanism of electrocatalysis, volcanoes, metal electrodes-influence of the nature of the metal, influence of surface state and structure, highly dispersed metal catalyst, binary and multicomponent metal catalysts (metal alloys and atoms), non-metallic catalysts, metal complexes with organic ligands.

Bio catalysis: Enzymes, immobilization, practical application of enzymes as electrode.

 

12.00
Unit V: 
Environmentally Oriented Electrochemistry and Electrochemical Sensors

Environmentally oriented electrochemistry: Electrochemistry of water splitting, superelectrolyzers, photo electrochemical splitting of water, solar hydrogen production, fixing of CO2, mechanism of CO2 reduction, photochemical reduction of CO2, removal of wastes. Electrochemical decontamination of soil.

Electrochemical Sensors: Enzyme based sensors, affinity biosensors, gas sensors.

 

References: 
  • Modern Electrochemistry; Vol. I & II, Second Edition; J. O’m. Bockrisand  K.N. Reddy; Kluwer Academic Press, New York, 2001.
  • Fundamentals of Electrochemistry; Second Edition; V. S. Bagotsky; John Wiley and Sons, 2006.
  • Advanced Physical Chemistry; Eighteenth Edition; J. N. Gurtu and A. Gurtu;Pragati Prakashan, Meerut 2015.
  • Topics in Pure and Applied Electrochemistry; S. K. Rangarajan; SASET Publication, Karaikudi, 1975.
  • Fuelcell Handbook;SeventhEdition; US Department of Energy, National Energy Technology Laboratory, West Virginia, 2004.
  • Analytical Electrochemistry;ThirdEdition; J Wang; Wiley VCH, 2006.

 

Academic Year: 
2020-2021
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