B.Tech (Solar and Alternate Energy)

Program Code 15297

Campus Dubai

Institute Amity University Dubai

University Amity University Dubai

Eligibility X & XII (min 50%) with min. 60% in ...

Duration 4 Years

Selection Process

  • Program Fee (Rs. in Lacs)
  • 1st Year Non Sponsored Semester AED 50000 Or USD 15070 per year

Course Structure

1st Year

Semester 1

  • Technical Communication – I
  • Engineering Chemistry
  • Basic Electrical Engineering
  • Engineering Graphics Lab
  • Introduction to Environmental Studies
  • Applied Mathematics- I

Semester 2

  • Engineering Mechanics
  • Introduction to Computers and Programming in C
  • Workshop Practices
  • Applied Mathematics - II
  • Engineering Physics
  • Technical Communication – II

2nd Year

Semester 3

  • Basic Electronics Engineering
  • Object Oriented Programming Using C++
  • Term Paper
  • Applied Mathematics- III
  • Basic Thermal Engineering and Statistical Methods
  • Elements of Biochemistry
  • Basics of Semiconductors

Semester 4

  • Understanding Self to enhance Personal Competence
  • Basic Simulation Lab
  • Applied Mathematics-IV
  • Advanced Material Science: Theory and Applications
  • Physics of Solids
  • Solar Cell Engineering – I
  • Renewable Energy Lab - I
  • Semiconductor Device Fabrication Technology

3rd Year

Semester 5

  • Receptive and Expressive Communication Skills
  • Group Dynamics and Team Building
  • Leadership and Team Management
  • In-House Practical Training
  • Wind Energy Engineering: Power Generation Using Wind Turbines
  • Hydrogen as Future Energy Source
  • Aptitude and Reasoning Ability
  • Solar Cell Engineering - II - Organic Solar Cells
  • Solar Thermal Energy Storage using Phase Change Materials
  • Solar Thermal Engineering Processes - I
  • Renewable and Alternate Energy Lab – I
  • Solar Power System Engineering

Semester 6

  • Employment & Professional Communication
  • Introduction to Cloud Computing
  • Renewable Energy Lab - II
  • Bio Fuel Cell Engineering
  • Energy Storage Systems
  • Introduction to Dye-sensitized Solar Cells
  • Solar Thermal Energy Storage using Phase Change Materials
  • Social Communication
  • Stress and Coping Strategies
  • Hydrogen as Future Energy Source
  • Solar Thermal Engineering Processes-II
  • Design and Simulation of Solar Cells

4th Year

Semester 7

  • Workplace Communication
  • Career Planning and Development
  • Machine Learning and Computer Vision
  • Internet of Things
  • Minor Project
  • Energy Storage Systems
  • Alternate Technologies for Renewable Energy
  • Solar Panels and Grid Integration
  • Hydrogen as Future Energy Source
  • Industry Internship
  • Solar Power System Engineering
  • Advanced Techniques for Material Characterization

Semester 8

  • Introduction to Dye-sensitized Solar Cells
  • Alternate Technologies for Renewable Energy
  • Hydrogen as Future Energy Source
  • Cross Cultural Communication
  • Positive Personal Growth
  • Major Project
  • Energy Concepts in Green Buildings