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"열유체실습 결과레포트 4"에 대한 내용입니다.

목차

i. Abstract

ii. Table of Contents

iii. Introduction
1) The performance of the vapor compression (Reversed Carnot Cycle)
2) Coefficient of Performance (COP)
3) The components of the refrigeration cycle
4) Comparison of the Theoretical Single-Stage Compression Cycle with the Real Single-Stage Cycle.
5) Refrigerants.

iv. Methods

v. Results

vi. Discussion
1) Condenser fan speed change
2) Evaporation valve opening change
3) Evaporator fan speed change

vii. Conclusion

viii. References

ix. Appendices

본문내용

Abstract

Air-conditioning systems were invented in 1970s and designed with little attention to energy conservation. But, the escalating energy costs made the engineers focus on the efficiency of operation. So, it is important to know about the principle of the refrigeration system underlying HVAC, for the design of energy-efficient systems.
In this experiment, we are going to understand the basic theory of the air conditioning system, and the single stage compression cycle. Also, we will calculate the performance of the refrigeration systems (COP) from the experimental data. Lastly, we will study the characteristics of general importance for refrigerants. As the effect of refrigerants, the atmospheric ozone and global warming problem occurs. So, we have focused on the refrigerants widely used in the HVAC field.

<중 략>

Introduction

In this experiment, we are focusing on understanding the HVAC system and vapor compression cycle system through the experimental accomplishment.

참고 자료

Multi-scale Fluid Mechanics Lab. (2022), “Experiments on vapor compression refrigeration system.”, Mechanical Engineering, Sungkyunkwan Univ.
Claus Borgnakke, Richard E. Sonntag. (2014) Fundamentals of Thermodynamics, 8th Ed., Wiley[3]
hvac-eng.com, “P-h diagram of R-22.” Internet:
https://hvac-eng.com/refrigerants-p-h-diagram/