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Hydraulic and Pneumatic Systems

PİRİ REİS UNIVERSITY

ENGINEERING FACULTY

Mechanical Engineering

2017- 2018 SPRING Term Course catalog Form

Course Name : Hydraulic & Pneumatic Systems

Degree: Bachelor

 

Code

 

 

Year/Semester

 

Local Credits

 

ECTS Credits

 

Course Implementation, Hours/Week

Course

Tutorial

Laboratory

MECH416

4/7

2.5

4

2

1

0

Department

Mechanical Engineering

Instructors

Lect. Emre ATA

Contact Information

eata@pirireis.edu.tr

Office Hours

 

Web page

PRU Online

Course Type

 Selective

Course Language

English

Course Prerequisites

  

Course Category by Content, %

Basic Sciences

Engineering Science

Engineering Design

Humanities

20

40

40

 

Course Description

Industrial automation and power hydraulic systems. Main principles and elements of hydraulic and pneumatic systems. Directional, flow, pressure and logical control valves.  Hydraulic power units, pumps, hydraulic fluids, filters. Hydraulic and pneumatic circuit drawing and reading techniques. Fault location techniques in hydraulic and pneumatic systems. Types and characteristics of the sensors used in automation systems.

 

Course Objectives

 

  1. Develop the skills to recognize, read and create the hydraulic and pneumatic circuits and their drawings used in industrial automation.      
  2. Teach the functions and utilization principles of the directional, flow control, pressure control and logical control valves used in hydraulic and pneumatic  power and control circuits. 

 

Course Learning Outcomes

 

  1. Recognize all types of elements of hydraulic and pneumatic control and power circuits with their functions, characteristics and utilization principles.
  2. Ability to define the functions of hydraulic and pneumatic circuits. 
  3. Ability to read and analyze hydraulic and pneumatic circuit diagrams. 
  4. Ability to use the principle concepts of industrial automation applications. 
  5. Ability to implement principle industrial automation  solutions
  6. Ability to apply economy principles to the design and operation of hydraulic&pneumatic systems.
  7. Ability to identify and utilize the sensors employed in automation systems.

Instructional Methods and Techniques

Power point slides and multimedia, software, practice

Tutorial Place

Classroom, laboratory

Co-term Condition

 

Textbook

Fluid Power System Dynamics ; Durfee Sun Van de Ven

Other References

TMMOB Hidrolik Devre Elemanları ve Uygulama Teknikleri; MMO/293/2

TMMOB Pnömatik Devre Elemanları ve Uygulama Teknikleri; MMO/293/2

Homework & Projects

 

 

Laboratory Work

Hydraulic&Pneumatic Laboratory

Computer Use

FluidSim

Other Activities

 

                   

 

 

 

 

Assessment Criteria

Activities

Quantity

Effects on Grading, %

Attendance

 

 

Midterm

 

 

Quiz

 

 

Homework

 

 

Term Paper/Project

2

60

Laboratory Work

 

 

Practices

 

 

Tutorial

 

 

Seminar

 

 

Presentation

 

 

Field Study

 

 

Final Exam

1

40

TOTAL

 

 

Effects of Midterm on Grading, %

 

 

Effects of Final on Grading, %

 

 

TOTAL

 

100

 

ECTS/

WORKLOAD TABLE

Activities

Count

Hours

Total

Workload

Lecture

14

3

42

Midterm

 

 

 

Quiz

 

 

 

Homework

 

 

 

Term Paper/Project

2

24

48

Laboratory Work

 

 

 

Practices

 

 

 

Tutorial

 

 

 

Seminar

 

 

 

Presentation

 

 

 

Field Study

 

 

 

Final Exam

1

8

8

Total Workload

 

 

98

Total Workload/25

 

 

98/25

Course ECTS Credits

 

 

4

 

 

 

Week

 

Topics

Course Outcomes

1

Principal characteristic, main concepts and elements of industrial automation systems. 

I

2

Principal laws and equations governing hydraulic and pneumatic systems. 

I

3

Directional control valves; selection criteria, utilization principles, application as control and sensor elements. 

II, III

4

Flow control valves; types, utilization criteria, application principles. 

III, IV

5

Pressure control valves and pressure limiting valves; application principles.                

III, IV

6

Logic control valves; AND / OR and YES / NO elements. 

IV, V, VI

7

Hydraulic power units and pumps; types, utilization and dimensioning. 

III, IV, VII

8

Midterm 

VI, VII

9

Supplementary elements of hydraulics and pneumatics ; hoses , connectors etc.

VI, VII

10

Hydraulic circuit drawing and reading techniques; techniques for naming the elements.    

I, II, III,

11

Pneumatic circuit drawing and reading techniques; techniques for naming the elements.  

I, II, III,

12

Hydraulic and pneumatic systems design and maintenance; necessary tables and graphics.  

I, II, III, IV

13

Fault location techniques in hydraulic and pneumatic systems.          

VI

14

Sensors used in automation systems; types and specifications.

VII

 

 

 

 

 

Relationship between the Course and the Mechanical Engineering Curriculum

 

 

Program Outcomes

Level of Contribution

1

2

3

a

An ability to apply knowledge of mathematics, science, and engineering

 

 

 

b

An  ability to design and conduct experiments, as well as to analyze and interpret data

 

 

 

c

An ability to design a system, component or process to meet desired needs

 

 

X

d

Ability to function on multi-disciplinary teams

 

 

 

e

An ability to identify, formulate, and solve engineering problems

X

 

 

f

An understanding of professional and ethical responsibility

 

 

 

g

An ability to communicate effectively

 

 

 

h

The broad education necessary to understand the impact of engineering solutions in a global and societal context

 

 

 

i

A recognition of the need for, and an ability to engage in life-long learning

 

 

 

j

A knowledge of contemporary issues

 

 

 

k

An ability to use the techniques, skills and modern engineering tools necessary for engineering practice

 

X

 

l

An ability to apply basic knowledge in fluid mechanics, structural mechanics, material properties, and energy/propulsion systems in the context of mechanical engineering design

X

 

 

 

         1: Small, 2: Partial, 3: Full

 

Programme Outcomes & Course Outcomes Connectivity Matrix

 

Course

Outcomes

I

II

III

IV

V

VI

VII

Programme Outcomes

 

a

 

X

 

 

 

 

 

b

 

 

 

 

X

 

 

c

 

X

X

X

X

X

X

d

 

 

 

 

 

 

 

e

X

X

X

X

X

 

 

f

 

 

 

 

 

 

 

g

 

 

 

 

X

X

 

h

 

 

 

 

X

X

 

i

 

 

 

 

 

 

 

j

 

 

 

 

 

 

 

k

X

X

X

X

X

X

X

l

 

 

 

X

X

X

X

 

 

        

 

 

Prepared by

 

Lect. Emre ATA

Date

 

01 .10 .2018

Signature