Embedded Files
2024-25:
CFD Lab (TY B.Tech Sem V) https://classroom.google.com/c/NzQyOTAwNTExNjIz
Non-Conventional Energy Systems ((TY B.Tech Sem V) : https://classroom.google.com/c/NzQ1ODg3MTk2MzI2
Fluid Mechanics Lab (BTech Third Year): https://classroom.google.com/c/NjkxODc4Mzg0OTQ4
Computational Fluid Dynamics (FY MTech Computational Mechanics Sem I) https://classroom.google.com/c/NzE3NTA4MzM2MDc4
Youtube Channel: https://www.youtube.com/@dr.abhaylingayat3566/videos
2023-24:
Non-Conventional Energy Systems (BTech Third Year): This course covers alternative energy sources beyond traditional fossil fuels, focusing on topics such as solar power, wind energy, hydroelectricity, geothermal energy, and biomass. Students learn about the principles, technologies, applications, advantages, and limitations of these non-conventional energy systems.
https://classroom.google.com/c/NjU0NjU2NDc5ODQ2?cjc=juiuf57
Material drive.google.com/file/d/1z8fCp796K2SGObcu3RuV_yTwyNhcTfIH/view?usp=drive_link
CFD Lab (BTech Third Year): Computational Fluid Dynamics (CFD) Lab provides hands-on experience in simulating and analyzing fluid flow phenomena using computational tools and software. Students learn to apply numerical methods to solve fluid flow problems and interpret results for various engineering applications.
classroom.google.com/c/NjQ2NjY3NTMxNDA3?cjc=7u2jkhqNon-Conventional Energy Sources (MTech): This postgraduate course delves deeper into non-conventional energy sources, exploring advanced concepts, technologies, and research trends in renewable energy systems. Topics may include advanced solar energy systems, wind turbine design, biofuels, energy storage, and integration of renewable energy into the power grid.
classroom.google.com/c/NjQ3MDY5NTIzODc1?cjc=5egmxxdFluid Mechanics Lab (BTech Third Year): In this lab, students perform experiments to understand fundamental principles of fluid mechanics, such as fluid statics, fluid dynamics, viscosity, flow measurement, and turbulence. They gain practical skills in conducting experiments, collecting data, and analyzing fluid behavior.
classroom.google.com/c/NjE4Nzg2NTY4Nzcx?cjc=xrc2y73Honors Course in Electric Vehicles for BTech Final Year: This specialized course focuses on electric vehicle (EV) technology, covering various aspects such as EV design, components, powertrain systems, battery technologies, charging infrastructure, sustainability, and future trends in electric transportation.
2022-23:
Engineering Thermodynamics: This foundational course introduces students to the principles of thermodynamics, including concepts such as energy, entropy, heat transfer, work, and the laws of thermodynamics. Students learn to analyze and solve thermodynamic problems related to energy conversion processes and engineering systems.
Honor Course in Electric Vehicle: Charging Infrastructure for EV: Building on the fundamentals of electric vehicles, this course explores the infrastructure required to support widespread adoption of EVs, including charging station design, deployment strategies, grid integration, interoperability standards, and regulatory aspects.
Fluid Mechanics Lab: Similar to the 2023-24 offering, this lab provides hands-on experience in conducting experiments to study fluid mechanics phenomena and principles, reinforcing theoretical knowledge through practical applications.
Non-Conventional Energy Sources (MTech): Same as described in the 2023-24 offerings.
2021-22:
Fluid Mechanics (Theory and Lab): This course combines theoretical instruction with practical laboratory sessions to teach students the fundamentals of fluid mechanics, including fluid properties, fluid statics, fluid dynamics, flow kinematics, and conservation equations. The lab component allows students to perform experiments to validate theoretical concepts and understand real-world fluid behavior.
CFD (Theory and Lab): Computational Fluid Dynamics (CFD) theory and lab cover numerical methods for solving fluid flow problems using computer simulations. Students learn about discretization techniques, solution algorithms, turbulence modeling, and post-processing of CFD results. The lab component involves hands-on practice with CFD software to analyze and visualize fluid flow phenomena.
Page updated
Google Sites
Report abuse