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다양한 외부 자기장 조건하에서 Fe3O4 나노유체의 광학적 및 광열변환적 특성 조사

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Author(s)
김혜민
Issued Date
2023
Abstract
The use of renewable energy as an alternative energy source for fossil fuels is receiving a lot of attention. Among various renewable energy, solar energy is widely used in many fields due to its abundant reserves and low equipment cost compared to other energy sources. However, it is known that when a nanofluid is applied as a working fluid of a direct absorption solar collector applied to use solar energy, heat collection performance can be improved due to enhanced optical and thermal characteristics. However, the enhanced optical and thermal properties due to the nanofluid increase the heat loss to the outside of the working fluid, thus there is a limit to improving the heat collection performance.
To solve this problem, in this study, the light absorption characteristics and photothermal conversion performance of DI-water according to the addition of Fe3O4 nanoparticles were experimentally investigated under various external magnetic field strengths and rotation speeds. Fe3O4 nanofluids were prepared at concentrations of 0.025, 0.05, 0.075, and 0.1wt%, and as a result of the experiment, Fe3O4 nanofluids showed higher light absorption characteristics than DI-water, which is a base fluid, at all concentrations. In addition, as Fe3O4 nanoparticles were added to DI-water, it was confirmed that the thermal properties were improved by increasing the thermal conductivity and viscosity. The Fe3O4 nanofluid increased solar energy absorption due to its high light absorption and thermal properties, which also improved the equilibrium temperature of the working fluid and the efficiency of the photothermal conversion performance. At the concentration of 0.075wt% of the Fe3O4 nanofluid, the photothermal conversion efficiency was the highest of 90%. This is a 45.6% improvement compared to that of DI-water. As a result of applying an external magnetic field to the Fe3O4 nanofluid, the thermal heat transfer characteristics are improved. The optimal external magnetic field strength and rotational speed were investigated by applying external magnetic fields with various intensities and rotating magnetic with various speeds at the optimal concentration of 0.075wt%. As a result, when the intensity of the external magnetic field is 500 Gauss and the rotating magnetic field speed was 200 rpm, the photothermal conversion efficiency is remarkably improved to 96.1%. This is about 6.78% higher than that of 0.075wt% Fe3O4 nanofluid without applying an external magnetic field. In addition, as a result of increasing the rotation radius by moving the rotation axis of the external rotating magnetic field, the photothermal conversion efficiency of 0.075wt% Fe3O4 nanofluid was 97.5%, and it improved as the rotation radius increased. Through this study, the photothermal conversion performance can be improved when an external magnetic field and a rotating magnetic field are applied to the Fe3O4 nanofluid, which indicates that it is suitable for improving the heat collection performance of a direct absorption solar collector.
Alternative Title
Investigation of optical and photothermal conversion characteristics of Fe3O4 nanofluid under various external magnetic field
Alternative Author(s)
Hyemin Kim
Affiliation
조선대학교 일반대학원
Department
일반대학원 기계공학과
Advisor
조홍현
Awarded Date
2023-02
Table Of Contents
제 1 장 서 론 1
제 1 절 연구 배경 1
제 2 절 기존 연구 5
제 3 절 연구 목적 10

제 2 장 나노유체 제조 및 특성 12
제 1 절 Fe3O4 나노입자 합성 및 나노유체 제조 12
제 2 절 Fe3O4 나노유체의 안정성 및 특성 평가 15
1. Fe3O4 나노유체의 안정성 평가 15
2. Fe3O4 나노유체의 자기적 특성 평가 21

제 3 장 실험 장치 및 실험 방법 23
제 1 절 나노유체의 물성 측정 장치 23
1. 열전도도 측정 장치 23
2. 점도 측정 장치 25
3. 광학적 특성 측정 장치 26
제 2 절 광열변환적 성능 실험 장치 27
1. 광열변환적 성능 실험 장치 27
2. 실험방법 및 조건 30
제 3 절 데이터 분석 기법 31
1. 광학적 특성 분석 기법 31
2. 광열변환적 성능 분석 기법 35

제 4 장 실험 결과 및 고찰 37
제 1 절 Fe3O4 나노유체의 광학적 특성 고찰 37
제 2 절 Fe3O4 나노유체의 농도별 열물리적 및 광열변환적 특성 고찰 49
1. Fe3O4 나노유체의 농도별 열물리적 특성 분석 49
2. Fe3O4 나노유체의 농도별 광열변환성능 분석 51
제 3 절 외부 자기장 영향에 따른 Fe3O4 나노유체의 열적 및 광열변환적 특성 고찰 57
1. 외부 자기장 세기에 따른 Fe3O4 나노유체의 열전도도 분석 57
2. 외부 자기장 세기에 따른 Fe3O4 나노유체의 광열변환성능 분석 60
3. 외부 회전자기장 회전 속도에 따른 Fe3O4 나노유체의 광열변환 성능 분석 64
4. 편심 외부 회전자기장 적용에 따른 Fe3O4 나노유체의 광열변환 성능 분석 71

제 5 장 결 론 80

참고문헌 82
Degree
Master
Publisher
조선대학교 대학원
Citation
김혜민. (2023). 다양한 외부 자기장 조건하에서 Fe3O4 나노유체의 광학적 및 광열변환적 특성 조사.
Type
Dissertation
URI
https://oak.chosun.ac.kr/handle/2020.oak/17636
http://chosun.dcollection.net/common/orgView/200000650070
Appears in Collections:
General Graduate School > 3. Theses(Master)
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