IHA-2609 Modelling of Fluid Power Components, 5 cr

Additional information

The implementation will not be executed during the academic year 2019-2020.

Person responsible

Mika Hyvönen

Lessons

Implementation Period Person responsible Requirements
IHA-2609 2019-01 - Mika Hyvönen

Learning Outcomes

Modelling and simulation of hydraulic system including hydraulic valves, hydraulic cylinder and load mass using Matlab/Simulink.

Content

Content Core content Complementary knowledge Specialist knowledge
1. Modelling and simulation (Matlab/Simulink) as a tool.      
2. Basic modelling techniques of hydraulic systems.      
3. Properties of the hydraulic fluids. Modelling a state equation of the fluid.Calculation of the effective bulk modulus.     
4. Modelling of an orifice.  Orifices in series/parallel.  Saturation of the orifice by the cavitation. 
5. Four way valve (non-linear) modelling. Dynamics, flow paths, control.  Spool valve leakage modelling.   
6. Hydraulic cylinder modelling together with a simple mechanical model.   Collision model of the cylinder ends.   
7. Dynamic friction model.     
8. Modelling of hydraulic pumps and motors.     
9. Interaction between of models of different sub-components; complete hydraulic system modelling.      

Instructions for students on how to achieve the learning outcomes

Exam 50 %, excercise 50 %

Assessment scale:

Numerical evaluation scale (0-5)

Prerequisites

Course Mandatory/Advisable Description
IHA-1102 Hydrauliikan ja koneautomaation perusteet Advisable   1
IHA-1756 Hydraulic Machines Mandatory   1

1 . Basic knowledge of fluid power

Additional information about prerequisites
IHA-1101 Hydrauliikan perusteet, IHA-1102 Hydrauliikan ja koneautomaation perusteet or IHA-2308 Hydraulic machines



Correspondence of content

Course Corresponds course  Description 
IHA-2609 Modelling of Fluid Power Components, 5 cr IHA-2601 Modelling of Fluid Power Components, 5 cr  

Updated by: Ullgren Sini, 10.04.2019