CEE ANNA UNIVERSITY SYLLABUS 2017 REGULATION

ANNA UNIVERSITY CHENNAI CEE SYLLABUS 2017 REGULATION CHEMICAL AND ELECTROCHEMICAL ENGINEERING (CEE)

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ANNA UNIVERSITY SYLLABUS 2017 REGULATION

CEE All Sem Syllabus Regulation 2017 Anna University

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Anna University CEE Syllabus Regulation 2017

CEE Syllabus, CEE Unit wise Syllabus – CEE Semester wise Syllabus 2017

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    Programme Educational Objectives (PEO’s)

1) To produce employable graduates with the knowledge and competency in Chemical and electrochemical engineering complemented by the appropriate skills and attributes.

2) To produce creative and innovative graduates with design and soft skills to carry out various problem solving tasks.

3) To enable the students to work as teams on multidisciplinary projects with effective communication skills, individual, supportive and leadership qualities with the right attitudes and ethics.

4) To produce graduates who possess interest in research and lifelong learning, as well as continuously striving for the forefront of technology.

5) To enable the students to set up models for an electrochemical system based on continuity equations and transport equations for relevant variables, and with necessary boundary conditions.

  Programme Outcomes

On successful completion of the B.Tech Chemical & Electrochemical Engineering programme,

the graduates of this programme would have

  1. Ability to apply the knowledge of mathematics, science and engineering to solve domain specific engineering problems
  1. Ability to design and conduct experiments, also have the ability to analyze and interpret experimental results.
  1. Ability to implement equations for production and transport of heat in electrochemical systems, and explain the temperature dependence of electrode potentials, electrode kinetics and mass transport properties.
  1. Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
  1. Ability to implement models for current distribution in porous electrodes.

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