Iron Sand as a Heat Absorber to Enhance Performance of a Single-Basin Solar Still

Mugisidi, Dan

doi:10.37934/arfmts.70.1.125135

Cited by 7 publications

(5 citation statements)

References 32 publications

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“…The salt produced through this process has potential as a valuable product. However, modern desalination equipment is fairly inefficient due to ineffective evaporation processes [18].…”

Section: Introductionmentioning

confidence: 99%

The Impact of Wind Speed on the Rate of Water Evaporation in a Desalination Chamber

Ristanto Wirangga,

Dan Mugisidi,

Adi Tegar Sayuti

et al. 2023

ARFMTS

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Water is very important to human life, and its use is increasing as the population grows. However, sources of fresh water on the earth's surface are limited, as seawater covers most of the earth. Therefore, seawater desalination is a potential solution to water shortages. Desalination is the process of removing salt from seawater to produce fresh water. Desalination is particularly useful approach in Indonesia because two-thirds of this nation’s territory is ocean. Desalination involves two stages: evaporation and condensation. Wind speed affects the rate of evaporation. Thus, this study explores the effect of wind speed on the rate of evaporation. Wind speed was regulated using a fan, and wind speeds of 0 m/s, 0.6 m/s, 2.6 m/s, and 5 m/s were tested; the water temperature was kept constant at 60 ℃. The data were analyzed statistically to determine the effect of wind speed on the evaporation of seawater. The highest rate of evaporation occurred at a wind speed of 5 m/s and the lowest at a wind speed of 0 m/s. The highest amount of condensation occurred at a wind speed of 0.6 m/s and the lowest at a wind speed of 5 m/s.

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“…The salt produced through this process has potential as a valuable product. However, modern desalination equipment is fairly inefficient due to ineffective evaporation processes [18].…”

Section: Introductionmentioning

confidence: 99%

The Impact of Wind Speed on the Rate of Water Evaporation in a Desalination Chamber

Ristanto Wirangga,

Dan Mugisidi,

Adi Tegar Sayuti

et al. 2023

ARFMTS

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“…In a solar still, evaporation occurs in the evaporation chamber; the bottom of this chamber is lined with iron sand as heat absorber [23,24]. All three evaporation chambers are 400 mm long and 300 mm wide, with a water height of 10 mm.…”

Section: Methods 21 Experimental Setupmentioning

confidence: 99%

Solar Still with an Integrated Conical Condenser

Mugisidi

Fajar

Syaiful

et al. 2023

CFDL

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A solar still requires only two processes: evaporation and condensation. In a solar still, evaporation occurs because of the pressure difference caused by the difference in the temperature of the water and that of the glass cover, while condensation occurs when the water vapour comes into contact with a surface cooler than its dew point. Condensers have been proven to effectively increase the productivity of solar stills. This study aims to compare the efficiency of two developed solar stills with integrated conical condensers to that of a conventional solar still; it also measures the effectiveness of the condenser. Three types of solar stills were used in this study: a conventional solar still (CSS), developed solar still 1 (DSS-1) and developed solar still 2 (DSS-2). All three stills were tested simultaneously. The three solar stills are all made of aluminium with a thickness of 3 mm. The software Ansys Fluent 18.2 was used to analyse the computational fluid dynamics in the stills. The results showed that the efficiency of the CSS, DSS-1 and DSS-2 were 23%, 36.5% and 46.4%, respectively. The freshwater yields of DSS-1 and DSS-2 were, respectively, 1.17 and 1.81 times greater than that of the CSS. These increases in the productivity of DSS-1 and DSS-2 are significantly influenced by the shape of the condenser integrated in these two solar stills; the effectiveness of this condenser was 85.57% and 91.25%, respectively, in DSS-1 and DSS-2. In a simulation, the condenser’s effectiveness was 99.85%.

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“…Namun tidak semua air dapat dikonsumsi dikarenakan ada beberapa kandungan zat-zat berbahaya [11,12] yang ada di dalam air tersebut Selain itu 97% air di muka bumi [13,14] merupakan air laut yang tidak dapat digunakan oleh manusia secara langsung. Terbatasnya air yang tersedia mendorong banyaknya penelitian untuk mengubah air laut menjadi air tawar [15,16] dengan cara proses distilasi [17][18][19][20][21][22][23][24][25][26]. Proses destilasi ini mengubah air laut menjadi air tawar dengan menggunakan panas dengan menggunakan tenaga matahari [27][28][29][30][31][32][33][34][35][36][37][38][39] sehingga air menjadi layak dikonsumsi [40].…”

Section: Issn: 2088-9038 E-issn: 2549-9645unclassified

The Influence of Water Temperature on Seawater Evaporation in the Desalination Process

Sayuti,

Mugisidi,

Wirangga

et al. 2023

sintek. jurnal. ilm. teknik. mesin

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Peningkatan populasi di suatu daerah berdampak pada meningkatnya permintaan akan air bersih. Meskipun air melimpah, sekitar 97% air di Bumi berupa air laut yang tidak dapat dikonsumsi secara langsung karena mengandung zat berbahaya. Proses desalinasi digunakan untuk mengubah air laut menjadi air minum dengan memanfaatkan panas dan kecepatan angin. Penelitian ini mengeksplorasi suhu 30℃, 45℃, 60℃, dan 70℃ dengan kecepatan angin sebesar 2,6 m/s. Pengumpulan data dilakukan untuk setiap variasi suhu selama 2 jam dengan catatan setiap 15 menit, bertujuan untuk mengevaluasi efektivitas evaporasi dan kondensasi dalam proses desalinasi. Hasil penelitian menunjukkan bahwa suhu 70℃ menghasilkan penguapan tertinggi (800 gram), meskipun dengan tingkat kondensasi sebesar 26,25%. Pengukuran kondensat menunjukkan pH sebesar 7,2 dan pembacaan meter TDS berkisar antara 125 hingga 138 ppm. Kata kunci: desalinasi; konversi air laut; efektivitas penguapan; laju kondensasi.

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Iron Sand as a Heat Absorber to Enhance Performance of a Single-Basin Solar Still

Cited by 7 publications

References 32 publications

The Impact of Wind Speed on the Rate of Water Evaporation in a Desalination Chamber

The Impact of Wind Speed on the Rate of Water Evaporation in a Desalination Chamber

Solar Still with an Integrated Conical Condenser

The Influence of Water Temperature on Seawater Evaporation in the Desalination Process

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