Experimental Performance Investigation of Double-Slope Solar Still With Splitter Plate and Hollow Circular Fins

Vivek Prasad; Vikas Verma; Rahul Tarodiya; Tushar Choudhary; Ravi Kant Ravi; Mukesh Kumar

doi:10.1115/1.4066920

Experimental Performance Investigation of Double-Slope Solar Still With Splitter Plate and Hollow Circular Fins

Vivek Prasad, Vikas Verma, Rahul Tarodiya, Tushar Choudhary, Ravi Kant Ravi, Mukesh Kumar

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The present work aims to experimentally study the output production and cost analysis of conventional double-slope solar still (CSS), double-slope solar still with hollow circular fins (SSHCF), and double-slope solar still with hollow circular fins and splitter plate (SSHCFS). The motivation behind the use of fins and fins with a splitter in the existing conventional system is to elevate the area for heat transfer rate and increase the overall efficiency. The experimental results established that using splitter plate along with the fin inside the double-slope solar still (SSHCFS) increases the output yield of freshwater compared to that of the CSS and SSHCF. The average accumulated freshwater yield of 2.05 L/m²/day is achieved in the case of SSHCFS, which is 9.62% and 21.30% higher compared to SSHCF and CSS, respectively. The measured hourly efficiency for SSHCFS is 50.59%, more than 4.2% and 2.3% compared to SSHCF and CSS, respectively. Furthermore, a comparative cost analysis of distilled water for different designs is also presented.

Original language	English
Article number	011009
Journal	Journal of Thermal Science and Engineering Applications
Volume	17
Issue number	1
DOIs	https://doi.org/10.1115/1.4066920
State	Published - 1 Jan 2025
Externally published	Yes

Keywords

desalination
energy systems
experimental techniques
heat and mass transfer
heat transfer
heat transfer enhancement
solar energy
solar still
splitter plate
thermal systems

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
General Engineering
Fluid Flow and Transfer Processes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1115/1.4066920

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@article{484c67375d6f4f5c9d6979003149b60e,

title = "Experimental Performance Investigation of Double-Slope Solar Still With Splitter Plate and Hollow Circular Fins",

abstract = "The present work aims to experimentally study the output production and cost analysis of conventional double-slope solar still (CSS), double-slope solar still with hollow circular fins (SSHCF), and double-slope solar still with hollow circular fins and splitter plate (SSHCFS). The motivation behind the use of fins and fins with a splitter in the existing conventional system is to elevate the area for heat transfer rate and increase the overall efficiency. The experimental results established that using splitter plate along with the fin inside the double-slope solar still (SSHCFS) increases the output yield of freshwater compared to that of the CSS and SSHCF. The average accumulated freshwater yield of 2.05 L/m2/day is achieved in the case of SSHCFS, which is 9.62\% and 21.30\% higher compared to SSHCF and CSS, respectively. The measured hourly efficiency for SSHCFS is 50.59\%, more than 4.2\% and 2.3\% compared to SSHCF and CSS, respectively. Furthermore, a comparative cost analysis of distilled water for different designs is also presented.",

keywords = "desalination, energy systems, experimental techniques, heat and mass transfer, heat transfer, heat transfer enhancement, solar energy, solar still, splitter plate, thermal systems",

author = "Vivek Prasad and Vikas Verma and Rahul Tarodiya and Tushar Choudhary and Ravi, \{Ravi Kant\} and Mukesh Kumar",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 by ASME.",

year = "2025",

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day = "1",

doi = "10.1115/1.4066920",

language = "English",

volume = "17",

journal = "Journal of Thermal Science and Engineering Applications",

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T1 - Experimental Performance Investigation of Double-Slope Solar Still With Splitter Plate and Hollow Circular Fins

AU - Prasad, Vivek

AU - Verma, Vikas

AU - Tarodiya, Rahul

AU - Choudhary, Tushar

AU - Ravi, Ravi Kant

AU - Kumar, Mukesh

PY - 2025/1/1

Y1 - 2025/1/1

N2 - The present work aims to experimentally study the output production and cost analysis of conventional double-slope solar still (CSS), double-slope solar still with hollow circular fins (SSHCF), and double-slope solar still with hollow circular fins and splitter plate (SSHCFS). The motivation behind the use of fins and fins with a splitter in the existing conventional system is to elevate the area for heat transfer rate and increase the overall efficiency. The experimental results established that using splitter plate along with the fin inside the double-slope solar still (SSHCFS) increases the output yield of freshwater compared to that of the CSS and SSHCF. The average accumulated freshwater yield of 2.05 L/m2/day is achieved in the case of SSHCFS, which is 9.62% and 21.30% higher compared to SSHCF and CSS, respectively. The measured hourly efficiency for SSHCFS is 50.59%, more than 4.2% and 2.3% compared to SSHCF and CSS, respectively. Furthermore, a comparative cost analysis of distilled water for different designs is also presented.

AB - The present work aims to experimentally study the output production and cost analysis of conventional double-slope solar still (CSS), double-slope solar still with hollow circular fins (SSHCF), and double-slope solar still with hollow circular fins and splitter plate (SSHCFS). The motivation behind the use of fins and fins with a splitter in the existing conventional system is to elevate the area for heat transfer rate and increase the overall efficiency. The experimental results established that using splitter plate along with the fin inside the double-slope solar still (SSHCFS) increases the output yield of freshwater compared to that of the CSS and SSHCF. The average accumulated freshwater yield of 2.05 L/m2/day is achieved in the case of SSHCFS, which is 9.62% and 21.30% higher compared to SSHCF and CSS, respectively. The measured hourly efficiency for SSHCFS is 50.59%, more than 4.2% and 2.3% compared to SSHCF and CSS, respectively. Furthermore, a comparative cost analysis of distilled water for different designs is also presented.

KW - desalination

KW - energy systems

KW - experimental techniques

KW - heat and mass transfer

KW - heat transfer

KW - heat transfer enhancement

KW - solar energy

KW - solar still

KW - splitter plate

KW - thermal systems

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M3 - Article

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SN - 1948-5085

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JO - Journal of Thermal Science and Engineering Applications

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ER -

Experimental Performance Investigation of Double-Slope Solar Still With Splitter Plate and Hollow Circular Fins

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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