Solar air heater is a most popular device in the space heating and industrial processes applications. But solar air heater has lower heat-transfer coefficient between the absorber plate and the air stream, which results in a lower thermal efficiency of the heater. The solar air heaters efficiency can be affected by various parameters such as collector length, number of channels, depth of channels, type of absorber plate, number and material of glass covers, air inlet temperature and air velocity. The effect of fins, Baffles and porous media on double pass solar air heater will measured by this research study. This aim is to analyze the thermal efficiency of double pass solar air heater and measured the effect of different type of media on the efficiency of it. The effects of major parameters temperature difference, air velocity, pressure difference, mass flow rate of the air has been observed for these perform study
%0 Journal Article
%1 Patel_2015
%A Patel, Kaushik
%A Soni, Sukritindra
%A Soni, Umang
%D 2015
%I Auricle Technologies, Pvt., Ltd.
%J International Journal on Recent and Innovation Trends in Computing and Communication
%K Baffles Double Fins Flow Thermal air efficiency heater mass media pass porous rate solar
%N 2
%P 712--715
%R 10.17762/ijritcc2321-8169.150259
%T A Review to Enhance the Efficiency of Double Pass Solar Air Heater
%U http://dx.doi.org/10.17762/ijritcc2321-8169.150259
%V 3
%X Solar air heater is a most popular device in the space heating and industrial processes applications. But solar air heater has lower heat-transfer coefficient between the absorber plate and the air stream, which results in a lower thermal efficiency of the heater. The solar air heaters efficiency can be affected by various parameters such as collector length, number of channels, depth of channels, type of absorber plate, number and material of glass covers, air inlet temperature and air velocity. The effect of fins, Baffles and porous media on double pass solar air heater will measured by this research study. This aim is to analyze the thermal efficiency of double pass solar air heater and measured the effect of different type of media on the efficiency of it. The effects of major parameters temperature difference, air velocity, pressure difference, mass flow rate of the air has been observed for these perform study
@article{Patel_2015,
abstract = {Solar air heater is a most popular device in the space heating and industrial processes applications. But solar air heater has lower heat-transfer coefficient between the absorber plate and the air stream, which results in a lower thermal efficiency of the heater. The solar air heaters efficiency can be affected by various parameters such as collector length, number of channels, depth of channels, type of absorber plate, number and material of glass covers, air inlet temperature and air velocity. The effect of fins, Baffles and porous media on double pass solar air heater will measured by this research study. This aim is to analyze the thermal efficiency of double pass solar air heater and measured the effect of different type of media on the efficiency of it. The effects of major parameters temperature difference, air velocity, pressure difference, mass flow rate of the air has been observed for these perform study},
added-at = {2015-08-04T08:13:25.000+0200},
author = {Patel, Kaushik and Soni, Sukritindra and Soni, Umang},
biburl = {https://www.bibsonomy.org/bibtex/27314a286d6c41435d32f08f699e482f0/ijritcc},
doi = {10.17762/ijritcc2321-8169.150259},
interhash = {fc36d93f1f35cde28e69950886c63a29},
intrahash = {7314a286d6c41435d32f08f699e482f0},
journal = {International Journal on Recent and Innovation Trends in Computing and Communication},
keywords = {Baffles Double Fins Flow Thermal air efficiency heater mass media pass porous rate solar},
month = {february},
number = 2,
pages = {712--715},
publisher = {Auricle Technologies, Pvt., Ltd.},
timestamp = {2015-08-04T08:13:25.000+0200},
title = {A Review to Enhance the Efficiency of Double Pass Solar Air Heater},
url = {http://dx.doi.org/10.17762/ijritcc2321-8169.150259},
volume = 3,
year = 2015
}