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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 44, 2022 - Issue 4
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Research Article

Studies on divergent solar chimney subjected to variable collector configurartions

Pedasingu Likhith Raja Department of Aerospace Engineering, Bharath Institute of Higher Education and Research, Chennai
,
Pemmasani Hemantha Department of Aerospace Engineering, Bharath Institute of Higher Education and Research, Chennai
,
Nuvvula Phani Rajua Department of Aerospace Engineering, Bharath Institute of Higher Education and Research, Chennai
,
Rajamurugu Nb Department of Aeronautical Engineering, Bharath Institute of Higher Education and Research, ChennaiCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-3383-4920
ORCID Icon &
Yaknesh. Sb Department of Aeronautical Engineering, Bharath Institute of Higher Education and Research, ChennaiORCID Iconhttps://orcid.org/0000-0001-9408-2032
ORCID Icon
Pages 9522-9544 | Received 28 Jun 2022, Accepted 10 Sep 2022, Published online: 12 Oct 2022
 
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ABSTRACT

In this study, Numerical and Experimental analysis of flow inside a divergent Solar Chimney is carried out. A solar chimney is a power generation system that uses the greenhouse effect to generate greener electricity. Electrical energy will be developed through this system by converting the thermal energy obtained from solar radiation. In order to successfully implement Solar Chimney Power Plant (SCPP) in highly urbanized places, this paper aims to provide a databas. In this study, the performance of theSCPP with different collector configurations with a constant chimney divergence angle of 2 degrees is analyzed. Numerical simulation and experimental studies are performed for the Solar Chimney Power Plant with 1:1.22 (chimney length to collector diameter ratio) is taken for chimney and convergent, half convergent, divergent, and half divergent considered for collector configurations. Experimentations are carried out in an open atmosphere, where a hot wire anemometer and thermocouples measure velocity and temperature. A partially convergent collector with a 10-degree divergence configuration performed better than the other three models based on the computational and experimental results. The maximum velocity obtained for this model is 1.5 m/s with a temperature rise of 14K.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Nomenclature

ρ=

Density (kg/m3)

A=

Area

V=

Velocity

u=

Initial velocity

t=

Time

et=

Heat transfer

μ=

:Coefficient of viscosity

T0=

Reference buoyancy temperature

g=

Acceleration due to gravity

β=

Expansion rate

ρ0=

Ambient density

Pout=

Power output

T=

Temperature difference

Ta=

Ambient Temperature

Fb=

Body force

S=

Entropy

SCPP=

Solar Chimney Power Plant

FCFD=

Full Convergent Full Divergent

FDFD=

Full Divergent Full Divergent

HCFD=

Half Convergent Full Divergent

HDFD=

Half Divergent Full Divergent

m˙=

Mass flow rate

SUPP=

Solar Updraft Power Plant

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