An Experimental Study on Thermal and Electrical Performance of an Air-type PVT Collector

Kim Sang-Myung; Kim Jin-Hee; Kim Jun-Tae

An Experimental Study on Thermal and Electrical Performance of an Air-type PVT Collector

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실험에 의한 공기식 PVT 컬렉터의 열·전기 성능에 관한 연구

Type: Academic journal

Author: Kim Sang-Myung (공주대학교) Kim Jin-Hee (공주대학교) Kim Jun-Tae (공주대학교)

Journal: The Korean Solar Energy Society Journal of the Korean Solar Energy Society Vol.39 No.2 KCI Accredited Journals

Published: 2019.4

Pages: 23 - 32 (10page)

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An Experimental Study on Thermal and Electrical Performance of an Air-type PVT Collector

Research history (11)

2024

Analysis of Performance and Characteristics of Air-source Heat Pump System with Air-type PVT System

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2024.04 Proceeding

2022

Analysis of Performance and Characteristics of Air-type BIPVT Heat Pump System in the Building

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2022.10 Proceeding

2021

Evaluation of Performance on Heat Pump System connected to Air-type PVT Collector

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2021.11 Proceeding

Evaluation of Performance on Air-type BIPVT Heat Pump System according to the Mock-up Experiment

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2021.05 Proceeding

2020

Performance Evaluation of Heat Pump System Combined with Air-Type PVT Collector

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2020.06 Proceeding

2019

Thermal and Electrical Performance Analysis of Air-type PVT Collector with Condition of Inlet Airflow

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2019.10 Proceeding

A Study on the Performance Analysis of Air-type PVT Collector with Curved Baffle through Outdoor Test

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2019.04 Proceeding

An Experimental Study on Thermal and Electrical Performance of an Air-type PVT Collector

Kim Sang-Myung , Kim Jin-Hee , Kim Jun-Tae Journal of the Korean Solar Energy Society 2019.04 Academic journal

2018

An Experimental Study on Electrical Characteristics of an Air-type PVT Collector

SangMyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2018.11 Proceeding

An Experimental Study on Performance Characteristics of an Air-type PVT Collector

SangMyung Kim , Dahye Min , Jinhee Kim and others 1 한국태양에너지학회 학술대회논문집 2018.04 Proceeding

2017

A study on Experimental Performance Analysis of Air-type BIPVT Collector

Sangmyung Kim , Jinhee Kim , Juntae Kim 한국태양에너지학회 학술대회논문집 2017.04 Proceeding

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PVT (Photovoltaic/thermal) system is technology that combines PV and solar thermal collector to produce and use both solar heat and electricity. PVT has the advantage that the energy production per unit area is higher than any single use of PV or solar thermal energy systems because it can produce and use heat and electricity simultaneously. Air-type PVT collectors use air as the heat transfer medium, and the air flow rate and flow pattern are important factors affecting the performance of the PVT collector. In this study, a new air-type PVT collector with improved thermal performance was designed and manufactured. And then thermal and electrical performance and characteristics of air-type PVT collector were analyzed through experiments. For the thermal performance analysis of the PVT collector, the experiment was conducted under the test conditions of ISO 9806:2017 and the electrical performance was analyzed under the same conditions. As a result, the thermal efficiency increased to 26~45% as the inlet flow rate of PVT collector increased from 60~200 m3/h. Also, it was confirmed that the air-type PVT collector prevents the PV surface temperature rise according to the operating conditions.

#태양광열(Photovoltaic/Thermal) #건물 일체형 PVT(Building integrated PVT) #공기식 컬렉터(Air-type collector) #ISO 9086:2017 #전기 성능(Electrical performance) #열 성능(Thermal performance)

Abstract
1. 서론
2. 문헌고찰
3. 공기식 PVT 컬렉터 제작 및 실험
4. 실험결과 및 분석
5. 결론
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Fields Engineering > Architectural Engineering > General Architectural Engineering Engineering > Mechanical Engineering > General Mechanical Engineering

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UCI(KEPA) : I410-ECN-0101-2019-563-000685355

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