Thermal Analysis of Solar Air Heater with Ventilator Turbine and Fins

International journal of engineering and technology Pub Date : 2020-12-28 DOI:10.24003/EMITTER.V8I2.584

A. G. Safitra, L. Diana, Denny Muhammad Agil, Julfan Hafiz Fareza, N. Arini

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Abstract

Solar air heater (SAH) is a renewable energy application for the drying process. SAH has a challenge to produce high performance under uncertain weather. The performance of SAH can be enhanced by providing the absorber plate by adding the fins. This study aims to evaluate the thermal performance of SAH with rectangular fins SAH at low air velocity. This study compares the performance of SAH without fins and SAH with rectangular fins. Two variations of a tilt angle of SAH are 0° and 30° which are observed in this study. The SAH uses a ventilator turbine to suck air into the collector box. The air velocity is 0.01 m/s. The method is experimental. The SAH is tested under real condition from 9 a.m. to 4 p.m. The measurement tools consist of a pyranometer, an anemometer, a temperature sensor in the inlet section, 3 sensors in the absorber plate, a sensor in the outlet section, 6 temperature sensors in the drying cabinet. The result showed the thermal efficiency of SAH with rectangular fins is 29.67 % higher than SAH without fins at 0 ̊ tilt of angle at noon. The thermal efficiency of SAH with rectangular fins is 25.26 % higher than that of without fins at 30 ̊ tilt of angle at noon.

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带透平和翅片的太阳能空气加热器的热分析

太阳能空气加热器(SAH)是一种用于干燥过程的可再生能源。SAH面临着在不确定天气条件下产生高性能的挑战。通过增加翅片来提供吸收板，可以提高SAH的性能。本研究旨在评估矩形翅片SAH在低风速下的热性能。本研究比较了无翅片SAH和带矩形翅片SAH的性能。在本研究中观察到的SAH倾斜角度的两个变化是0°和30°。SAH使用通风机涡轮将空气吸入集热器。风速为0.01 m/s。这种方法是实验性的。SAH从上午9点到下午4点在真实条件下进行测试。测量工具包括一个高温计、一个风速计、入口段一个温度传感器、吸收板3个传感器、出口段一个传感器、干燥柜内6个温度传感器。结果表明:在正午倾角为0°时，矩形翅片的热效率比无翅片的高29.67%;中午倾角为30°时，带矩形翅片的SAH热效率比不带翅片的SAH高25.26%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of engineering and technology

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