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논문 기본 정보
- 자료유형
- 학위논문
- 저자정보
- 지도교수
- 금종수
- 발행연도
- 2014
- 저작권
- 부경대학교 논문은 저작권에 의해 보호받습니다.
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The temperature and humidity which have been developed in Korea summer causes the dew condensation which results in pollution of structure, mould growth, and electronic short. We can use a dehumidifying to solve the problem.
The design of heat exchange area which is about the evaporator and condenser of home appliances including air conditioner consist of the rule from manufacture experiences. Also, dehumidification equipment doesn''t have design standards like a home appliances. Therefore the heat exchange area of a condenser is designed more 20~30% than the heat exchange area of an evaporator like air conditioner normally.
However I think that air handling process of dehumidification is different from air conditioner. Hence, it is possible to make a compact design to reduce heat exchange area in a condenser.
This paper deals with the decision for heat exchange area in condenser to make optimal system when evaporator also is operated ordinarily.
As the experimental results, it was found out that the surface temperatures of the evaporator and the condenser can be kept similar each other. Also, as the result of comparing power consumption with the difference of enthalpy, the similar result was deducted in the forth and third sequences of the condenser.
It can be possibly planned that the radiator surface is considerably small in the case of a condenser installed in the inside of an air dryer than general refrigeration cycle.
This is because heat exchange occurs in the low-temperature air which is flown through the air dryer.
The design of heat exchange area which is about the evaporator and condenser of home appliances including air conditioner consist of the rule from manufacture experiences. Also, dehumidification equipment doesn''t have design standards like a home appliances. Therefore the heat exchange area of a condenser is designed more 20~30% than the heat exchange area of an evaporator like air conditioner normally.
However I think that air handling process of dehumidification is different from air conditioner. Hence, it is possible to make a compact design to reduce heat exchange area in a condenser.
This paper deals with the decision for heat exchange area in condenser to make optimal system when evaporator also is operated ordinarily.
As the experimental results, it was found out that the surface temperatures of the evaporator and the condenser can be kept similar each other. Also, as the result of comparing power consumption with the difference of enthalpy, the similar result was deducted in the forth and third sequences of the condenser.
It can be possibly planned that the radiator surface is considerably small in the case of a condenser installed in the inside of an air dryer than general refrigeration cycle.
This is because heat exchange occurs in the low-temperature air which is flown through the air dryer.
목차
List of Figure ⅲList of Table ⅵAbstract ⅶ제1장 서 론 11.1 연구 배경 및 목적 11.2 기존 연구 31.3 연구의 목적 5제2장 기초 이론 62.1 제습기 종류 62.1.1 냉각식 제습기 62.1.2 데시칸트 제습기 72.1.3 하이브리드 제습기 82.1.4 압축식 제습기 102.1.5 흡수식 제습기 102.2 에어컨과 냉각 제습기의 차이 152.3 제습기 성능평가 192.3.1 공기 192.3.2 냉동사이클 21제3장 실험 방법 및 결과 273.1 예비 실험 273.1.1 실험 방법 273.1.2 실험 환경 313.1.3 실험 결과 333.2 본 실험 403.2.1 실험 방법 403.2.2 실험 결과 43제4장 결 론 55참고문헌 56감사의 글 59
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