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Thermal Performance Enhancement in Flat Plate Solar Collector Solar Water Heater: A Review

Nurril Ikmal Shamsul Azha, Hilmi Hussin, Mohammad Shakir Nasif, Tanweer Hussain

2020Processes82 citationsDOIOpen Access PDF

Abstract

Various studies to improve the thermal performance of flat plate solar collector (FPSC) solar water heater have been conducted, and more are currently in progress. This study aims to review existing methods on thermal performance enhancement for FPSC and discuss on heat-transfer enhancement using vibration and its potential application for FPSC. Ten methods for improving thermal performance are identified, which include applications of nanofluids, absorber coatings, phase change materials (PCM), thermal performance enhancers, FPSC design modifications, polymer materials, heat loss reduction, mini and micro channel and heat-transfer enhancement using vibration. An examination of heat-transfer enhancement using vibration in low frequency ranges for an evacuated-tube solar collector (ETSC) solar water heater system showed that it can potentially achieve heat-transfer enhancement of up to 78%. Nevertheless, there is still a lack of research on the applications of heat-transfer enhancement using vibration on FPSC to date.

Topics & Concepts

Materials scienceHeat transfer enhancementThermalComposite materialHeat transferNanofluids in solar collectorsSolar thermal collectorNanofluidPhotovoltaic thermal hybrid solar collectorHeat transfer coefficientMeteorologyThermodynamicsNanotechnologyNanoparticlePhysicsSolar Thermal and Photovoltaic SystemsPhotovoltaic System Optimization TechniquesHeat Transfer Mechanisms
Thermal Performance Enhancement in Flat Plate Solar Collector Solar Water Heater: A Review | Litcius