Improving the performance of solar still using different heat localization materials

Swellam Wafa Sharshir; Ammar Hamed Elsheikh; Youssef Mustafa Ellakany; Abdallah Wagih Kandeal; Elbager Mohammed Awadalla Edreis; Ravishankar Sathyamurthy; Amrit Kumar Thakur; Mohamed Abdelaziz Eltawil; Mofreh Hamada Hamed; Abd Elnaby Kabeel

doi:10.1007/s11356-020-07800-w

Improving the performance of solar still using different heat localization materials

Swellam Wafa Sharshir
, Ammar Hamed Elsheikh
, Youssef Mustafa Ellakany
, Abdallah Wagih Kandeal
, Elbager Mohammed Awadalla Edreis
, Ravishankar Sathyamurthy
, Amrit Kumar Thakur
, Mohamed Abdelaziz Eltawil
, Mofreh Hamada Hamed
, Abd Elnaby Kabeel^*

^*Corresponding author for this work

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

101 Scopus citations

Abstract

This work aimed to explore a new technique for improving the performance of solar stills (SSs) through utilizing three different types of a new hybrid structure of heat localization materials (HSHLM) floating on the water surface to increase the evaporation rate as well as water production and minimize heat losses. The three types were exfoliated graphite flakes with wick (type A), carbon foam with wick (type B), and exfoliated graphite flakes with wick and carbon foam (type C). These hybrid structures had good features such as high absorption and hydrophilic capillary forces to interconnected pores for fluid flow through the structure. Two identical SSs were designed, fabricated, and investigated to assess SSs’ performance with and without HSHLM (modified and conventional SSs). The obtained results showed that the daily productivity was enhanced by 34.5, 28.6, and 51.8% for type A, type B, and type C, respectively, relative to the conventional one. Moreover, the efficiency of the SS reached about 37.6% for type C; while, it reached about 27% for the conventional SS. Contrary to conventional SSs, the use of HSHLM resulted in increasing the productivity proportional to water depth.

Original language	English
Pages (from-to)	12332-12344
Number of pages	13
Journal	Environmental Science and Pollution Research
Volume	27
Issue number	11
DOIs	https://doi.org/10.1007/s11356-020-07800-w
State	Published - 1 Apr 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020, Springer-Verlag GmbH Germany, part of Springer Nature.

UN SDGs

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

SDG 6 Clean Water and Sanitation
SDG 7 Affordable and Clean Energy

Keywords

Carbon foam
Exfoliated graphite
Heat localization materials
Solar desalination
Wick

ASJC Scopus subject areas

Environmental Chemistry
Pollution
Health, Toxicology and Mutagenesis

Access to Document

10.1007/s11356-020-07800-w

Cite this

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title = "Improving the performance of solar still using different heat localization materials",

abstract = "This work aimed to explore a new technique for improving the performance of solar stills (SSs) through utilizing three different types of a new hybrid structure of heat localization materials (HSHLM) floating on the water surface to increase the evaporation rate as well as water production and minimize heat losses. The three types were exfoliated graphite flakes with wick (type A), carbon foam with wick (type B), and exfoliated graphite flakes with wick and carbon foam (type C). These hybrid structures had good features such as high absorption and hydrophilic capillary forces to interconnected pores for fluid flow through the structure. Two identical SSs were designed, fabricated, and investigated to assess SSs{\textquoteright} performance with and without HSHLM (modified and conventional SSs). The obtained results showed that the daily productivity was enhanced by 34.5, 28.6, and 51.8\% for type A, type B, and type C, respectively, relative to the conventional one. Moreover, the efficiency of the SS reached about 37.6\% for type C; while, it reached about 27\% for the conventional SS. Contrary to conventional SSs, the use of HSHLM resulted in increasing the productivity proportional to water depth.",

keywords = "Carbon foam, Exfoliated graphite, Heat localization materials, Solar desalination, Wick",

author = "Sharshir, \{Swellam Wafa\} and Elsheikh, \{Ammar Hamed\} and Ellakany, \{Youssef Mustafa\} and Kandeal, \{Abdallah Wagih\} and Edreis, \{Elbager Mohammed Awadalla\} and Ravishankar Sathyamurthy and Thakur, \{Amrit Kumar\} and Eltawil, \{Mohamed Abdelaziz\} and Hamed, \{Mofreh Hamada\} and Kabeel, \{Abd Elnaby\}",

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doi = "10.1007/s11356-020-07800-w",

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AU - Elsheikh, Ammar Hamed

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AU - Kandeal, Abdallah Wagih

AU - Edreis, Elbager Mohammed Awadalla

AU - Sathyamurthy, Ravishankar

AU - Thakur, Amrit Kumar

AU - Eltawil, Mohamed Abdelaziz

AU - Hamed, Mofreh Hamada

AU - Kabeel, Abd Elnaby

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N2 - This work aimed to explore a new technique for improving the performance of solar stills (SSs) through utilizing three different types of a new hybrid structure of heat localization materials (HSHLM) floating on the water surface to increase the evaporation rate as well as water production and minimize heat losses. The three types were exfoliated graphite flakes with wick (type A), carbon foam with wick (type B), and exfoliated graphite flakes with wick and carbon foam (type C). These hybrid structures had good features such as high absorption and hydrophilic capillary forces to interconnected pores for fluid flow through the structure. Two identical SSs were designed, fabricated, and investigated to assess SSs’ performance with and without HSHLM (modified and conventional SSs). The obtained results showed that the daily productivity was enhanced by 34.5, 28.6, and 51.8% for type A, type B, and type C, respectively, relative to the conventional one. Moreover, the efficiency of the SS reached about 37.6% for type C; while, it reached about 27% for the conventional SS. Contrary to conventional SSs, the use of HSHLM resulted in increasing the productivity proportional to water depth.

AB - This work aimed to explore a new technique for improving the performance of solar stills (SSs) through utilizing three different types of a new hybrid structure of heat localization materials (HSHLM) floating on the water surface to increase the evaporation rate as well as water production and minimize heat losses. The three types were exfoliated graphite flakes with wick (type A), carbon foam with wick (type B), and exfoliated graphite flakes with wick and carbon foam (type C). These hybrid structures had good features such as high absorption and hydrophilic capillary forces to interconnected pores for fluid flow through the structure. Two identical SSs were designed, fabricated, and investigated to assess SSs’ performance with and without HSHLM (modified and conventional SSs). The obtained results showed that the daily productivity was enhanced by 34.5, 28.6, and 51.8% for type A, type B, and type C, respectively, relative to the conventional one. Moreover, the efficiency of the SS reached about 37.6% for type C; while, it reached about 27% for the conventional SS. Contrary to conventional SSs, the use of HSHLM resulted in increasing the productivity proportional to water depth.

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KW - Wick

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Improving the performance of solar still using different heat localization materials

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

Access to Document

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