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Hydrology & Water Resources Engineering
Hydrology & Water Resources Engineering is a foundational discipline in civil engineering that focuses on the study of the occurrence, movement, distribution, and management of water resources on Earth. This subject integrates scientific principles with engineering practices to analyze the hydrological cycle, evaluate the impact of human activities on natural water systems, and develop strategies for the efficient, equitable, and sustainable use of water resources.
Intelligent Transportation Systems
Intelligent Transportation Systems (ITS) is an interdisciplinary subject that explores the integration of advanced information, communication, sensing, and control technologies within transportation networks to improve safety, efficiency, mobility, and sustainability. ITS enables the collection, processing, and analysis of real-time data from vehicles, infrastructure, and users, empowering smarter decision-making, optimized traffic management, and enhanced user experiences
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.
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.
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