THE REFRIGERANT CYCLE AND PRINCIPLE FOR AIR CONDITIONING SYSTEM
TABLE OF CONTENTS
AbstractAnk & Introduction社燕秋鸿------------------------------------------1
华罗庚资料Background--------------------------------------------------------2
Refrigerant Cycle--------------------------------------------------3
Dry air mass flow----------------------------------------------------9
Air heating-----------------------------------------------------------10
Cooling/ dehumidification-----------------------------------------11
Conclusion-----------------------------------------------------------12
References------------------------------------------------------------13
Abstract
The following report on air conditioning system is constructed in respon to a heat and mass transfer rearch task.
The outcome of the investigation is a thorough understanding of the Refrigerant Cycle and basic principle for air conditioning system. 大意失荆州
The material included w我是山姆电影ithin the submissions include a introduce of the 玉树临风four major components in鲁滨逊好词好句 refrigerant cycle and the analysis the principle of dry air mass flow and cooling/ dehumidification process
郑文瑞Introduction
Air conditioning is defined as a process that heats cools, and circulates air, and controls the moisture content of air. Ideally, air conditioning does all of the tasks at the simultaneously, on a year-round basis. Thus, air conditioning makes it possible to change the condition of the air in an enclod area. Thus, air conditioning makes it possible to change the condition of air in an enclod areas, air conditioning is actually playing more important role and produces more benefits and majority of people do not realized this,[1]
Background
In the early nineteenth century, the abundance of industrializing spirit in the Western world resulted in the invention of various types of engines to power machinery. As the designs became more complicated and efficiency concerns aro, scientists began exploring possible relationships between heat and work. In 1824, Sadi Nicholas Leonard Carnot published a book that attempted to discover a mathematical expression for the amount of work produced by one kilogram of steam. Through his obrvations, temperatu
re emerged as a gauge of attainable work. He likened temperature analogous to releasing water from varying heights. Water relead from a greater height could produce more mechanical work than from a low one, just as a pot of water raid to a higher temperature could perform more work on its surroundings.
