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Automobile Engineering
Automobile Engineering is a specialized branch of mechanical engineering that focuses on the design, development, manufacturing, and maintenance of automobiles and their subsystems. This course aims to build a strong foundation in vehicle mechanics, dynamics, power systems, transmission technologies, control systems, safety features, and emerging automotive technologies such as electrification, automation, and connectivity.
Pavan
Control Systems
Control System in engineering, focusing on concepts like feedback, open-loop and closed-loop systems, system modeling, transfer functions, and analysis in time and frequency domains. The course includes stability techniques, PID controller design, and explores linear, non-linear, analog, and digital systems through simulations, practical applications, and hands-on exercises.
Pavan
Computer Aided Design & Analysis
This course introduces students to the fundamentals and advanced techniques of computer-aided design (CAD) and analysis. It focuses on the geometric modeling of components, assemblies, and systems using modern CAD software. Emphasis is placed on the integration of Finite Element Analysis (FEA) tools for stress, thermal, and dynamic simulations to predict real-world behavior of mechanical parts and assemblies. Students will gain practical skills in 2D drafting, 3D modeling, meshing, and result interpretation, preparing them for design validation and optimization in engineering applications.
Pavan
Applied Thermodynamics
Applied Thermodynamics builds upon the foundational principles of classical thermodynamics to analyze real-world engineering systems involving energy conversion and fluid flow. The course focuses on the thermodynamic analysis of power-producing and power-consuming devices such as internal combustion engines, gas turbines, steam power plants, compressors, and nozzles. Emphasis is placed on combustion processes, the behavior of pure substances and ideal gases, property relations, and the application of the first and second laws to open and closed systems. Key topics include fuel types and combustion stoichiometry, energy balances in reacting systems, entropy and availability analysis, psychrometrics, and thermodynamic cycles such as Otto, Diesel, Rankine, and Brayton. The course also introduces the principles of chemical equilibrium and the use of real gas models where appropriate. Through theoretical derivations, practical examples, and numerical problem-solving, students gain the ability to evaluate and optimize thermal systems for efficiency and performance.
Pavan
Manufacturing Process
"Manufacturing Processes" explores the fundamental methods and technologies used in the transformation of raw materials into finished products. The subject provides in-depth knowledge of various manufacturing techniques such as casting, forming, machining, joining, and advanced manufacturing (like additive manufacturing). It emphasizes material behavior, process selection, tool design, and quality control, equipping students with the theoretical and practical understanding required to optimize production systems in mechanical and industrial engineering domains
Pavan
Fluid Mechanics & Hydraulic Machines
Fluid Mechanics & Hydraulic Machines is a foundational course in mechanical engineering that focuses on the behavior of fluids (liquids and gases) at rest and in motion, and the practical applications of fluid dynamics in engineering systems. The subject introduces the fundamental principles governing fluid flow, including concepts such as pressure, viscosity, flow rate, conservation of mass and momentum, and energy equations. The course covers analytical methods to study incompressible and compressible flows, laminar and turbulent regimes, and flow through pipes and channels. Emphasis is placed on understanding and applying Bernoulli’s equation, the continuity and momentum equations, and dimensional analysis. In the hydraulic machines portion, students explore the working principles, design, and performance analysis of devices such as pumps, turbines, and hydraulic systems. Topics include impact of jets, Pelton, Francis and Kaplan turbines, centrifugal and reciprocating pumps, and model testing using similarity laws. By the end of this course, students gain the theoretical background and practical insight necessary to analyze fluid systems and hydraulic machinery, which are critical in industries ranging from power generation and water supply to aerospace and process engineering.
Pavan
Additive Manufacturing
Additive Manufacturing (AM)—commonly known as 3D printing—is a disruptive approach to producing objects by building them layer by layer from digital 3D models. Unlike traditional manufacturing, which often removes material, AM creates complex geometries and intricate components directly from computer-aided design (CAD) data, using materials that range from polymers and metals to ceramics and composites.
Pavan
Robotics and Automation - Vol 1
Robotics and automation are closely related but distinct fields. Robotics focuses on the design, construction, operation, and application of robots, particularly for tasks that are difficult or dangerous for humans.
Abraham
Robotics and Automation - Vol 3
Robotics and automation are closely related but distinct fields. Robotics focuses on the design, construction, operation, and application of robots, particularly for tasks that are difficult or dangerous for humans.
Abraham
Kinematics and Dynamics of Machines
Kinematics and Dynamics of Machines is a foundational subject in mechanical engineering that deals with the study of motion and the forces causing motion in mechanical systems. The course covers the geometry of motion (kinematics) and the analysis of forces and torques (dynamics) in various machine elements and mechanisms. Students explore the design and function of linkages, gears, cams, and governors, and learn to evaluate parameters such as displacement, velocity, acceleration, and dynamic force balance. The subject develops both analytical and graphical approaches to motion analysis and prepares students for advanced machine design and control.
Pavan
Robotics and Automation - Vol 2
Robotics and automation are closely related but distinct fields. Robotics focuses on the design, construction, operation, and application of robots, particularly for tasks that are difficult or dangerous for humans.
Abraham
Refrigeration and Air Conditioning
Refrigeration and Air Conditioning is a foundational subject focused on the science and application of thermal systems for cooling and indoor climate control. The course introduces students to the fundamental terminology, concepts, and technologies essential for understanding refrigeration cycles, air conditioning processes, and the role of psychrometry (the study of moist air properties).
Pavan
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