After completing the course, the students will be able to:
Understand the functionality of essential hydraulic components and systems;
Set up both steady-state and dynamic models of hydraulic systems;
Use mathematical models to analyze the functioning of hydraulic systems;
Select the right components to achieve the desired system performance.
Course contents
Hydraulic pumps and motors; Common hydraulic valves; Control of the actuator motion; Multi-actuator systems; Steady-state and dynamic modeling of hydraulic systems; Systematic specification and design of hydraulic systems.
Hydraulic pumps and motors; Common hydraulic valves; Control of the actuator motion; Multi-actuator systems; Steady-state and dynamic modeling of hydraulic systems; Systematic specification and design of hydraulic systems.
Teaching methods
Lectures, tutorials, and a project that will be done individually.
Assessment methods and criteria
The examination is divided into two mandatory parts:
A written exam that counts 60% of the final grade;
An individual project that counts 40% of the final grade.
Evaluation
Course evaluation is carried out as a midterm evaluation in accordance with standard procedure in the quality assurance system, chapter 2.1.1., unless other information is given in the beginning of the semester.