Programme Details

The academic program for M.Tech Power and Energy Systems is designed with an eye to developing industry-ready professionals. The two-year course offers an overview of various facets of the power and energy systems.
The course for the postgraduate program helps in grasping of the subjects of generation, transmission and distribution of energy. The study and the understanding of the topics are done on analytical, numerical and practical aspects.
Along with this, the students are also trained in the fields of power system planning and reliability, advanced power system dynamics and electromagnetic field computation and modelling.

Scope of M.TechPower and Energy Systems Scope

The scope after the completion of the two-year program for students is mentioned below:

  • After the completion of the course, you will be well-equipped for analysis, the design of energy efficient equipment and systems, which allow you to work as Assistant Engineers, Site Engineers, or other posts as officers in a government or a private company.
  • After the completion of the course as per the specified criteria of the University, you can also take up research projects and register your patents after a discovery or innovation.
  • You will receive training to analyze and improve conventional energy systems and design the same for companies which will allow you to seek employment in the Electrical goods production department, Telecommunication sector, etc. for the government as well as private companies.
What We Offer

Sandip University is one of the Top M.TechPower and Energy Systems Colleges in India. This university offers the course of M.Tech Power and Energy Systems with an intake of 18 students. In this course, the students are given technical as well as practical knowledge in the field of power and power systems.
The course is updated and has an innovative curriculum. The University’s advanced teaching methodologies and focused on-the-job exposure provide the right edge to the students to be deployable readily in the given field.In this course, the students can gain an in-depth understanding of different theoretical concepts as well as practical application. As the leading M.Tech Power system Colleges In India, this course also involves regular workshops, research work and guest lectures by the experts in the field from the respective industries. The curriculums of these programs are inclusive of sector centric knowledge in addition to theoretical studies that help the students in creating a successful feature in the related field.
Studying the course from the top M.Tech Power system Colleges In India is going to offer students an added value in case you aspire to have a prerequisite understanding of the power systems. With the right, experienced, and knowledgeable faculties, state of the art infrastructure, we have earned a high reputation as one of the most popular M.Tech. Power system institutes in India.

Hence, we provide all the required support to the students if they opt for M.Tech Power System Engineering Admission in Sandip University. To get in touch with our university, you may call on the toll-free number 1800-212-2714, or write to us at

Eligibility 1) Candidate who possess a Bachelors degree or equivalent in the relevant field of Engineering / Technology, specified by the concerned University for admission to a particular Post graduate course from a recognized university with at least 50% marks (at least 45% marks in case of candidates of Backward class categories)
2)Obtained Score in Graduates Aptitude Test In Engineering (GATE ) conducted by IIT.
Duration 2 years

1st Year Fee : Rs 1,00,000 per annum

Hostel Fee Rs. 65000 per annum + 5000 security deposit.

Please note fees for (examination, eligibility, sports etc.) will be charged extra,

1st YEAR
Ist Semester IInd Semester
Theory Theory
• English for Communication • Engineering Mechanics
• Linear Algebra and Ordinary Differential Equations • Computational Mathematics and Integral Calculus
• Engineering Chemistry • Modern Physics
• Applied Physics • Environmental Studies
• Engineering Drawing • Computer Programming
Practical Practical
• Communication Skills Laboratory • Computational Mathematics Laboratory
• Engineering Chemistry Laboratory • Engineering Physics Laboratory
• IT Workshop • Computer Programming Laboratory
• Basic Workshop • Computer Aided Engineering Drawing Practice
2nd YEAR
IIIrd Semester IVth Semester
Theory Theory
• Mathematical Transform Techniques • Complex Analysis and Probability Distribution
• Introduction to Aerospace Engineering • Thermodynamics
• Theory of Aircraft Structures • Low Speed Aerodynamics
• Fluid Mechanics and Hydraulics • Aircraft Materials and Production
• Fundamentals of Electrical and Electronics Engineering • Analysis of Aircraft Structures
• Gender Sensitivity • Audit Course
Practical Practical
• Strength of Materials Laboratory • Aerodynamics Laboratory
• Fluid Mechanics and Hydraulics Laboratory • Aerospace Structures Laboratory
• Electrical and Electronics Laboratory • Aircraft Materials and Production Laboratory
3rd YEAR
Vth Semester VIth Semester
Theory Theory
• Aircraft Propulsion • Space Propulsion
• High Speed Aerodynamics • Computational Aerodynamics
• Aerospace Finite Element Methods • Aircraft Stability and Control
• Aircraft Systems and Controls • Professional Elective - II
• Aircraft Performance • Open Elective – I
• Professional Elective - I  
Practical Practical
• Aircraft Systems Laboratory • Aerospace Propulsion Laboratory
• Flight Controls Laboratory • Aerospace Composite Structures Laboratory
• Technical writing and Content Development Laboratory • Computer Aided Manufacturing Laboratory
  • Mini Project
4th YEAR
VIIth Semester VIIIth Semester
Theory Theory
• Aerospace Structural Dynamics • Flights Controls Theory
• Space Mechanics • Aviation Management
• Flight Vehicle Design • Professional Elective - IV
• Professional Elective - III  
• Open Elective – II  
Practical Practical
• Computational Structural Analysis Laboratory • Comprehensive Examination
• Flight Vehicle Design Laboratory • Project Work (Phase- II)
• Computational Aerodynamics Laboratory  
• Project Work (Phase – I)  
Group- I: Aerospace Structural Engineering
• Aircraft Smart Structures • Advanced Solid Mechanics
• Experimental Stress Analysis • Structural Health Monitoring
• Fatigue and Facture • Design and Analysis of Composite Structures
• Aero elasticity • Unmanned Air Vehicles
Group- II: Aerodynamics / Fluid Flows
• Ground Vehicle Aerodynamics • Advanced Computational Aerodynamics
• Turbulent Flows • Wind Engineering
• Experimental Aerodynamics • Hypersonic Aerodynamics
• Missile Aerodynamics • Helicopter Aerodynamics
Group- III: Aerospace Propulsion Systems
• Theory of Combustion • Turbo Machinery
• Heat Transfer in Propulsion Systems • Cryogenics
• Aero Engine Design • Rocket and Missiles
• High Temperature Gas Dynamics • Low Gravity Fluid Dynamics
Group- IV: Aerospace Design and Manufacturing Engineering
• Un-conventional Manufacturing Process • Non Destructive Testing
• CAD / CIM • Industrial Aerodynamics
• Composites Fabrication and Machining • Mechanism and Machine Design
• Renewable Energy Sources • Production Design and Development
Group- V: Aviations
• Avionics and Instrumentation • Air Transportation System
• Airport Planning and Management • Airworthiness and Certifications
• Flight Scheduling and Operations • Lean Management
• Airport Operations • Air Traffic Control
Group- VI: Flight Dynamics and Control
• Computational Flight Mechanics • Spacecraft Attitude and Control
• Guidance and Control of Aircraft • Flight Simulation
• Orbital Mechanics • Space Dynamics
• Atmospheric Re-entry Vehicle • Applied Optimal Control
Open Elective-I
• Micro Electro - Mechanical Systems • Disaster Management
• Geo Spatial Techniques • Operating System
• Object Oriented Programming through JAVA • Embedded Systems
• Signal Analysis and Transform Techniques • Reliability Engineering
• Robotics • Aerospace Propulsion and Combustion
Open Elective-II
• Digital Image Processing • Optimization Techniques
• Data Base Management System • Information Security
• Modeling and Simulation • Energy From Waste
• Finite Element Analysis • Research Methodologies
• Composite Materials • Launch Vehicles and Controls
Audit Courses
• Intellectual Property Rights • Total Quality Management
• Professional Ethics and Human Values • Legal Sciences
• Clinical Psychology • English for Special Purposes
• Entrepreneurship • Any Foreign Language
• Design History  
Advanced Computing Laboratory
• Computational Analysis in ANSYS • Computational Analysis in Nastran
• Computational Methods in Hyper Mesh • Computational Analysis in ABAQUS
• Computational Numerical Programming • Computational Analysis in Patron
• Finite Element Modeling Laboratory through LS DYNA  
Value Added Courses
• Advanced Computer Aided Design Certification • Computer Aided Three dimensional Interactive Application
• Pro Engineering Certification • SOLID WORKS Certification
• Unigraphics • COMSOL Certification
• Aircraft Maintenance Certification • 3D - Printing Technology