Course Code:                               : 5103244

  Course Name                               :  Ventilation Basic Principles and Applications

  Instructor                                      :  Asst. Assoc. Dr. M. Azmi AKTACİR

  Theoretical /  Practical / Credit : 3 / 0 / 3

 Learning Activity

Estimated Time(Hour)

Evaluation

Theoretical Course (14 Week)

3 x 14 = 42

Participation to class

Guided Problem Solving

None

 

Individual Study

3 x 14 = 42

 

Weekly homework problems solving

1 x 14 = 14

Individual or teamwork and report preparation for homework’s.

Term project

None

 

Midterm Exam

4 x 2 = 8

Open/ Closed exam

Final Exam

Exam                  : 2

Individual work    : 8

Open/ Closed exam

Quiz (4 piece)

Individual work    : 8

Open/ Closed exam

Research (internet/library)

 

 

Other(………………………. )

 

 

Total Course Load (Hours)

124

 

 

 

 

HARRAN UNİVERSITY ENGINEERING FACULTY

MECHANICAL ENGI0NEERING DEPARTMENT

           

Course Name

Code

Semester

T+U

Credit

AKTS

 

Ventilation Basic Principles and Applications

5103244

Spring

3+0

3

5

 

Prerequisite Courses

None

Language of Course

Turkish

Course class

Elective

Coordinator of Course

Asst. Assoc. Dr. M. Azmi AKTACİR

Instructor

Asst. Assoc. Dr. M. Azmi AKTACİR

Course Assistant

-

Objective of course

Given the basic principles of ventilation, introduction and selection of system components, system design

Course Learning Output

Air-conditioning project creating, the element selection and be able to transfer projects, followed closely by new technological developments

Course Contents

Basic principles of ventilation and system components, determine the amount of ventilation, indoor air quality, air distribution systems, Stationary and variable air volume (CAV - VAV), design and calculation methods of ventilation channels, ventilation systems, testing, tuning and balancing, ventilation systems, sound and the study of acoustics.

 

Weeks

Plan of Course at Semester

1

Basic principles of ventilation

2

Ventilation system elements: fan, grills, dampers and filters

3

Channel and connection elements

4

Determine the amount of ventilation, indoor air quality

5

Air distribution systems, Stationary and variable air volume (CAV - VAV)

6

CAV and VAV boxes, the user places and features

7

Ventilation channels design and calculation methods

8

Example of a ventilation design project; CAV application

9

Example of a ventilation design project; VAV application

10

Midterm exam

11

Ventilation systems, testing, tuning and balancing, measuring instruments used for this purpose

12

Ventilation systems and acoustical study of sound

13

Commercial and industrial ventilation applications

14

Air-conditioning systems, energy efficiency and savings

 

General Sufficiency

Using the basic principles of fluid mechanics, ventilation and air conditioning courses create a project. Appropriate system components  to determine their knowledge and skills to be able to have

 

References

1.   ASHRAE HVAC Systems and Equipment Handbook, 2008.

2.   ASHRAE Fundamentals Handbook, 2009.

3.   ASHRAE HVAC Applications Handbook, 2007.

4.   Havalandırma Tesisatı, MMO Yayınları, 2002.

5.   Klima Tesisatı, ISISAN, 2001.

6.   Ders notu

Form of Assessment

Mid Exam and Task/Project Average of Arithmetical: %40

Final:%60

Projects:-

Homework:-Will be announced on the web