Improving the efficiency and productivity of solar distillation by creative design and heater and baffle integration

Ayman Hoballah; Suha A. Mohammed; Ali Basem; A. S. Abdullah; Wissam H. Alawee; Hasan Sh Majdi; Z. M. Omara; Mamdouh I. Elamy; Fadl A. Essa

doi:10.1016/j.rineng.2024.103210

Improving the efficiency and productivity of solar distillation by creative design and heater and baffle integration

Ayman Hoballah, Suha A. Mohammed, Ali Basem, A. S. Abdullah, Wissam H. Alawee, Hasan Sh Majdi, Z. M. Omara, Mamdouh I. Elamy, Fadl A. Essa

Mechanical Engineering

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

4 Scopus citations

Abstract

The hemispherical solar still (HSS) is a simple device used to desalinate saline water, but it has low productivity. This study aimed to enhance the evaporation rate of a hemispherical solar still (HSS) through several design modifications. The main innovation involved integrating an upper absorber with hanging wick cords, creating a modified system called the cords wick hemispherical solar still (CWHSS). Additionally, electric heaters powered by photovoltaic panels were incorporated to further boost performance, along with the introduction of squared baffles inside the CWHSS. Experimental results showed that the highest efficiency was achieved with the CWHSS incorporating baffles, heaters, and a condenser (CWHSS-B), leading to a 258 % increase in distillate output and a 66.5 % thermal efficiency. Under optimal conditions, the distillation rates were 4000 mL/m²/day for the HSS and 14,300 mL/m²/day for the CWHSS-B with heaters. Furthermore, the cost of water treatment was calculated at $0.022 per liter for the HSS and $0.016 per liter for the CWHSS-B, indicating significant cost benefits with the modified design.

Original language	English
Article number	103210
Journal	Results in Engineering
Volume	24
DOIs	https://doi.org/10.1016/j.rineng.2024.103210
State	Published - Dec 2024

Keywords

Baffles
Convex distiller
Electric heater
Hemispherical distiller
Solar still performance
Wick cords

UN SDGs

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

Access to Document

10.1016/j.rineng.2024.103210

Cite this

@article{e3a0d9f87c414a70b3f4e6da275a393e,

title = "Improving the efficiency and productivity of solar distillation by creative design and heater and baffle integration",

abstract = "The hemispherical solar still (HSS) is a simple device used to desalinate saline water, but it has low productivity. This study aimed to enhance the evaporation rate of a hemispherical solar still (HSS) through several design modifications. The main innovation involved integrating an upper absorber with hanging wick cords, creating a modified system called the cords wick hemispherical solar still (CWHSS). Additionally, electric heaters powered by photovoltaic panels were incorporated to further boost performance, along with the introduction of squared baffles inside the CWHSS. Experimental results showed that the highest efficiency was achieved with the CWHSS incorporating baffles, heaters, and a condenser (CWHSS-B), leading to a 258 \% increase in distillate output and a 66.5 \% thermal efficiency. Under optimal conditions, the distillation rates were 4000 mL/m²/day for the HSS and 14,300 mL/m²/day for the CWHSS-B with heaters. Furthermore, the cost of water treatment was calculated at \$0.022 per liter for the HSS and \$0.016 per liter for the CWHSS-B, indicating significant cost benefits with the modified design.",

keywords = "Baffles, Convex distiller, Electric heater, Hemispherical distiller, Solar still performance, Wick cords",

author = "Ayman Hoballah and Mohammed, \{Suha A.\} and Ali Basem and Abdullah, \{A. S.\} and Alawee, \{Wissam H.\} and Majdi, \{Hasan Sh\} and Omara, \{Z. M.\} and Elamy, \{Mamdouh I.\} and Essa, \{Fadl A.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = dec,

doi = "10.1016/j.rineng.2024.103210",

language = "English",

volume = "24",

journal = "Results in Engineering",

issn = "2590-1230",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Improving the efficiency and productivity of solar distillation by creative design and heater and baffle integration

AU - Hoballah, Ayman

AU - Mohammed, Suha A.

AU - Basem, Ali

AU - Abdullah, A. S.

AU - Alawee, Wissam H.

AU - Majdi, Hasan Sh

AU - Omara, Z. M.

AU - Elamy, Mamdouh I.

AU - Essa, Fadl A.

PY - 2024/12

Y1 - 2024/12

N2 - The hemispherical solar still (HSS) is a simple device used to desalinate saline water, but it has low productivity. This study aimed to enhance the evaporation rate of a hemispherical solar still (HSS) through several design modifications. The main innovation involved integrating an upper absorber with hanging wick cords, creating a modified system called the cords wick hemispherical solar still (CWHSS). Additionally, electric heaters powered by photovoltaic panels were incorporated to further boost performance, along with the introduction of squared baffles inside the CWHSS. Experimental results showed that the highest efficiency was achieved with the CWHSS incorporating baffles, heaters, and a condenser (CWHSS-B), leading to a 258 % increase in distillate output and a 66.5 % thermal efficiency. Under optimal conditions, the distillation rates were 4000 mL/m²/day for the HSS and 14,300 mL/m²/day for the CWHSS-B with heaters. Furthermore, the cost of water treatment was calculated at $0.022 per liter for the HSS and $0.016 per liter for the CWHSS-B, indicating significant cost benefits with the modified design.

AB - The hemispherical solar still (HSS) is a simple device used to desalinate saline water, but it has low productivity. This study aimed to enhance the evaporation rate of a hemispherical solar still (HSS) through several design modifications. The main innovation involved integrating an upper absorber with hanging wick cords, creating a modified system called the cords wick hemispherical solar still (CWHSS). Additionally, electric heaters powered by photovoltaic panels were incorporated to further boost performance, along with the introduction of squared baffles inside the CWHSS. Experimental results showed that the highest efficiency was achieved with the CWHSS incorporating baffles, heaters, and a condenser (CWHSS-B), leading to a 258 % increase in distillate output and a 66.5 % thermal efficiency. Under optimal conditions, the distillation rates were 4000 mL/m²/day for the HSS and 14,300 mL/m²/day for the CWHSS-B with heaters. Furthermore, the cost of water treatment was calculated at $0.022 per liter for the HSS and $0.016 per liter for the CWHSS-B, indicating significant cost benefits with the modified design.

KW - Baffles

KW - Convex distiller

KW - Electric heater

KW - Hemispherical distiller

KW - Solar still performance

KW - Wick cords

UR - http://www.scopus.com/inward/record.url?scp=85208289821&partnerID=8YFLogxK

U2 - 10.1016/j.rineng.2024.103210

DO - 10.1016/j.rineng.2024.103210

M3 - Article

AN - SCOPUS:85208289821

SN - 2590-1230

VL - 24

JO - Results in Engineering

JF - Results in Engineering

M1 - 103210

ER -

Improving the efficiency and productivity of solar distillation by creative design and heater and baffle integration

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this