B.Tech in Thermal Engineering
Semester-wise syllabus for B.Tech in Thermal Engineering
Year 1: Foundation in Engineering & Sciences
Semester 1
1. Mathematics-I
- Calculus, matrices, differential equations.
2. Physics-I
- Mechanics, thermodynamics basics, optics.
3. Chemistry/Environmental Science
- Chemical processes, sustainability principles.
4. Engineering Mechanics
- Statics, dynamics, equilibrium, free-body diagrams.
5. Basics of Mechanical Engineering
- Introduction to manufacturing, materials, and tools.
6. Lab-I
- Basic experiments in thermodynamics and material testing.
Semester 2
1. Mathematics-II
- Probability, statistics, Fourier series.
2. Electrical & Electronics Engineering
- Circuits, motors, sensors for thermal systems.
3. Engineering Graphics & CAD
- Technical drawing, AutoCAD/SolidWorks for thermal systems.
4. Programming in Python/C++
- Basics for simulations and data analysis.
5. Lab-II
- Fluid mechanics experiments (Bernoulli’s theorem, viscosity).
Year 2: Core Thermal Engineering
Semester 3
1. Engineering Thermodynamics
- Laws of thermodynamics, entropy, cycles (Carnot, Rankine).
2. Fluid Mechanics
- Laminar/turbulent flow, pipe networks, boundary layers.
3. Material Science & Metallurgy
- Thermal properties of metals, alloys, ceramics.
4. Heat Transfer
- Conduction, convection, radiation, Fourier’s law.
5. Lab-III
- Heat exchanger performance, thermal conductivity tests.
Semester 4
1. Applied Thermodynamics
- Gas turbines, steam turbines, refrigeration cycles.
2. Internal Combustion Engines
- SI/CI engines, emissions, performance analysis.
3. Mechanical Measurements
- Temperature, pressure, flow measurement techniques.
4. Kinematics & Dynamics of Machines
- Gears, cams, flywheels, balancing.
5. Lab-IV
- IC engine testing, calorimetry, pressure sensor calibration.
Year 3: Advanced Thermal Systems
Semester 5
1. Power Plant Engineering
- Coal, gas, nuclear, and renewable power plants.
2. Computational Fluid Dynamics (CFD)
- ANSYS Fluent/COMSOL for thermal-fluid simulations.
3. Refrigeration & Air Conditioning
- Vapor compression, absorption cycles, HVAC design.
4. Elective-I
- Renewable Energy Systems or Combustion Engineering.
5. Lab-V
- CFD simulations, refrigeration system testing.
Semester 6
1. Boiler & Steam Engineering
- Boiler design, feedwater treatment, steam distribution.
2. Energy Management & Auditing
- Energy conservation, exergy analysis, ISO 50001.
3. Automotive Thermal Systems
- Engine cooling, turbochargers, thermal management in EVs.
4. Elective-II
- Solar Thermal Systems or Cryogenic Engineering.
5. Lab-VI
- Solar collector efficiency tests, boiler efficiency analysis.
6. Mini-Project
- Example: Designing a hybrid solar-geothermal heating system.
Year 4: Specializations & Industry Integration
Semester 7
1. Advanced Heat Transfer
- Nanofluids, phase change materials, heat pipes.
2. Waste Heat Recovery
- Heat pumps, regenerators, economizers.
3. Elective-III
- Nuclear Power Engineering or AI in Thermal Systems.
4. Project Management
- Cost estimation, risk analysis, Lean Six Sigma.
5. Lab-VII
- Waste heat recovery experiments, AI-driven thermal optimization.
6. Internship/Industrial Training
- Fieldwork with power plants, HVAC firms, or automotive industries.
Semester 8
1. Emerging Trends
- Hydrogen energy, carbon capture, smart grids.
2. Professional Ethics & IPR
- Environmental regulations, patents, ethical practices.
3. Capstone Project
- Example projects:
- Optimizing a combined cycle power plant using AI.
- Designing a zero-emission thermal storage system.
4. Viva/Comprehensive Exam
- Assessment of core thermal engineering concepts.
Elective Options
- Renewable Energy Systems: Solar thermal, geothermal, biomass.
- Combustion Engineering: Fuel chemistry, emission control.
- Cryogenics: LNG storage, superconducting systems.
- Automotive Thermal Systems: Battery cooling, EV thermal management.
- Nuclear Engineering: Reactor design, radiation safety.
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