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ME420 REFRIGERATION ENGINEERING

Course Objectives

At the end of the course students will;

• know how to calculate the cooling load for refrigeration purposes.
• learn the actual vapor compression cycle modifications for specific applications.
• know the common types of refrigerants used in refrigeration systems. 
• know the thermal design and performance analysis of basic refrigeration system components.
• have an idea about absorption refrigeration.
• be informed about novel cooling techniques

Course Content

Application areas. Cooling load calculations. Vapor compression refrigeration cycle. System components: compressors, evaporators, condensers, expansion devices, piping, auxiliary and control devices. System balance. Alternative refrigeration systems such as thermoelectric, air cycle, steam jet and absorption refrigeration.

Course Learning Outcomes

By the end of the course students will;

• be able to perform transient cooling load analysis and to select design cooling load components as sensible vs. latent for refrigeration purposes.
• adapt the cycle modifications to improve cycle performance and/or to meet the requirements of a given application.
• figure out the common types of refrigerants in terms of relevant thermophysical properties including ODP considering their usage areas. 
• explain constructional and operational features of various types of condensers and evaporators; basis for their classification.
• perform thermal design and performance analysis of various types of condensers and evaporators with emphasis given on heat transfer augmentation and extended surfaces.
• analize the means of mechanical compression used in vapor compression refrigeration cycles; positive and non-positive displacement compressors.
• perform basic cycle analysis for absorption refrigeration systems.
• list the types and know the fundamentals of novel cooling techniques

Program Outcomes Matrix