Experimental investigation of an evacuated tube solar collector incorporating nano-enhanced PCM as a thermal booster

Experimental investigation of an evacuated tube solar collector incorporating nano-enhanced PCM as a thermal booster

•A new compact U-pipe evacuated tube integrated with nanoenhanced PCM was studied.•The effect of nano-enhanced paraffin wax on the performance of the evacuated tube was carried out.•The impact of parameters and conditions on the evacuated tube's performance was evaluated. This study investigate...

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Veröffentlicht in:Applied thermal engineering 2020-11, Vol.180, p.115831, Article 115831
Hauptverfasser: Algarni, Salem, Mellouli, Sofiene, Alqahtani, Talal, Almutairi, Khalid, khan, Afrouz, Anqi, Ali
Format: Artikel
Sprache:eng
Schlagworte:
Energy storage
Evacuated tube collector
Evacuation
Heat exchangers
Heat transfer
Heat U-pipe
Hot water heating
Latent heat
Mass flow
Nano-enhanced PCM
Nanoparticles
Phase change materials
Phase transitions
Solar energy
Thermal energy
Thermal energy storage
Thermal insulation
Tubes
Weather
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container_end_page
container_issue
container_start_page 115831
container_title Applied thermal engineering
container_volume 180
creator Algarni, Salem
Mellouli, Sofiene
Alqahtani, Talal
Almutairi, Khalid
khan, Afrouz
Anqi, Ali
description •A new compact U-pipe evacuated tube integrated with nanoenhanced PCM was studied.•The effect of nano-enhanced paraffin wax on the performance of the evacuated tube was carried out.•The impact of parameters and conditions on the evacuated tube's performance was evaluated. This study investigates the possibility of improving the functionality of a typical evacuated tube collector (ETC) with a new concept of an evacuated tube solar collector (ETSC) incorporating nano-enhanced phase change materials (Ne-PCM) as a latent heat thermal energy storage (LHTES) system. This new system immerses the ETSC’s U-pipe inside the Ne-PCM and combines it into a single unit (ETSC/Ne-PCM) to provide heat when the solar intensity is unavailable or insufficient. The new system is used as a thermal booster in which the heat is stored in a PCM to extend the production period of hot water and to reduce fluctuations in the temperature of the water via heat accumulation and thermal insulation of the evacuated tubes. The effect of incorporating Ne-PCM on the performance of the ETSC/Ne-PCM system was studied. The addition of 0.33 wt% of copper/PCM composite to the ETSC was found to increase its efficiency by 32%. In addition, the ETSC/Ne-PCM system can provide hot water up to 50 °C for about 2 h longer than typical ETC systems with a specific mass flow of 0.08 L/min. Furthermore, impacts on the ETSC/Ne-PCM system performance of weather conditions and operational parameters such as HTF flow, the number of ETSC tubes and the concentration of nanoparticle are discussed.
doi_str_mv 10.1016/j.applthermaleng.2020.115831
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source Elsevier ScienceDirect Journals
subjects Energy storage
Evacuated tube collector
Evacuation
Heat exchangers
Heat transfer
Heat U-pipe
Hot water heating
Latent heat
Mass flow
Nano-enhanced PCM
Nanoparticles
Phase change materials
Phase transitions
Solar energy
Thermal energy
Thermal energy storage
Thermal insulation
Tubes
Weather
title Experimental investigation of an evacuated tube solar collector incorporating nano-enhanced PCM as a thermal booster
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