Course Information


Course Information
Course Title Code Semester L+U Hour Credits ECTS
COOLING SYSTEMS 200100715421 3 + 0 3.0 9.0

Prerequisites None

Language of Instruction English
Course Level Graduate Degree
Course Type Compulsory
Mode of delivery
Course Coordinator
Instructors Avni AKSOY
Assistants
Goals It is aimed to understand the working principles of cooling systems, water, helium and liquid nitrogen cooling systems, problems, maintenance and where and how they are used in the accelerator system.
Course Content Cooling systems, Thermodynamic laws, working principles of cooling systems, cooling oils, cooling cycle analysis, high pressure systems, compressors, expansion devices, liquid nitrogen and helium cooling systems, applications in the accelerator facility of cooling systems
Learning Outcomes 1) You realize that you are building the infrastructure for accelerators.
2) Use mathematical and physical methods in accelerator systems.
3) Be able to use experimental measurement techniques.

Weekly Topics (Content)
Week Topics Teaching and Learning Methods and Techniques Study Materials
1. Week Introduction Lecture
Brainstorming
Project Based Learning 		Presentation (Including Preparation Time)
2. Week Basic Concept Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
3. Week Cooling Systems Lecture
Brainstorming
Project Based Learning 		Homework
4. Week Thermodynamics Laws, Pressure and enthalpy diagrams Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
5. Week Working Principle of Cooling Systems, Basic mechanics Cooling Cycles Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
6. Week Cooling Liquid and Oils Lecture; Question Answer

Project Based Learning 		Homework
7. Week Cooling Circuit auxiliary elements / Midterm Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
8. Week Compressed Cooling Cycle Analysis Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
9. Week High Pressure Systems Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
10. Week Heat Charge Measurement Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
11. Week Comppressors Used in Cooling Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
12. Week Expansion Devices, Condensers and Evaporators Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
13. Week Liquid Nitrogen and Liquid Helium Cooling Systems Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework
14. Week Applications of Cooling Systems in Accelerator Facilities Lecture; Question Answer
Brainstorming
Project Based Learning 		Homework

Sources Used in This Course
Recommended Sources
A. Wu Chao, Accelerator Physics, Technology and Applications, OCPA International Accelerator School 2002
Introduc)on to Accelerators, Lecture Notes, Applicatons and Technology, Hywel Owen, School of Physics and Astronomy, University of Manchester & Cockcroft Institute for Accelerator Science and Technology
Introduction To The Physics Of Particle Accelerators, by Mario Conte and William W Mackay
The Physics of Particle Accelerators: An Introduction, by Klaus Wille and Jason McFall 10+ S.Y. Lee's and Edwards-Syphers' books are available in BNL library.

Relations with Education Attainment Program Course Competencies
Program RequirementsContribution LevelDK1DK2DK3
PY15555
PY25555
PY35555
PY45555
PY55555
PY92222
PY102222
PY112222
PY122222
PY132222
PY142222
PY152222
PY162222
PY172222
PY182222

*DK = Course's Contrubution.
0 1 2 3 4 5
Level of contribution None Very Low Low Fair High Very High
.

ECTS credits and course workload
Event Quantity Duration (Hour) Total Workload (Hour)
Course Duration (Total weeks*Hours per week) 14 4
Work Hour outside Classroom (Preparation, strengthening) 14 5
Homework 3 5
Project (Including Preparation and presentation Time) 1 30
Report (Including Preparation and presentation Time) 1 30
Midterm Exam 1 2
Time to prepare for Midterm Exam 1 20
Final Exam 1 5
Time to prepare for Final Exam 1 30
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course
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Course Information
  • Course Information
  • Weekly Topics (Content)
  • Sources Used in This Course
  • Relations with Education Attainment Program Course Competencies
  • ECTS credits and course workload