Hybrid solar still – Liquid desiccant regenerator and water distillation system

Shukla, Dhruvin L.; Modi, Kalpesh V.

doi:10.1016/j.solener.2019.02.043

Cited by 38 publications

(3 citation statements)

References 55 publications

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“…Tiwari et al, [18] Active photovoltaic thermal solar distillation system 38 Yousef and Hassan [19] Solar still incorporated with phase change materials storage unit Shukla and Modi [20] Liquid desiccant regenerator and water distillation system Dwivedi and Tiwari [21] Active double slope solar still Gupta et al, [10] is working on developing an analytic properties equation for a completely identical N totally covered compound photo-thermal compound that is comparable to an integrated solar distillation system, analogous to the Hottel-Whillier-Bliss equation for a flat plate collector. The heat loss from the distillation unit basin was used to dry ginger in a drying chamber connected to the bottom of the distillation unit in Manchanda's research [11].…”

Section: Tablementioning

confidence: 99%

“…According to their estimations, the output may be three to four times higher than that of traditional solar distillers. Others models, such as Tiwari et al, [18], Yousef and Hassan [19], Shukla and Modi [20], and Dwivedi and Tiwari [21] have lately been used in the presence of different experimental circumstances. Moreover, there are several studies that considered the heat transfer, solar energy, energy storage, etc, in channels and enclosures, and the following are just a few examples; Hassan et al, [22], Johnson et al, [23], Alawi and Kamar [24], Abdullah et al, [25], Lubis [26], Ghalambaz et al, [27,28], Hajjar et al, [29], Menni et al, [30][31][32][33][34][35][36][37][38]40], Menni and Azzi [39], Sakhri et al, [41,42], Bendjamaa et al, [43], Boursas et al, [44], etc.…”

Section: Tablementioning

confidence: 99%

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Numerical Study of a Basin Type Solar Still with a Double Glass Cover Under Winter Conditions

Nahoui¹,

Rebhi

Lorenzini

et al. 2021

ARFMTS

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A numerical analysis of a basin-type solar still with a double glass cover is done under winter circumstances of solar radiation, ambient temperature, and wind speed. Equations defining thermal balances of different components of traditional and double glass cover solar stills are used to describe the physical issue, which is then solved using the Gauss-Seidel numerical technique. The effects of solar radiation, ambient temperature, and wind speed on the daily production, internal efficiency, and overall performance of solar stills are calculated and illustrated. The findings demonstrate that a solar still with a double-glass cover is more productive and efficient than a solar still with a single glass cover.

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Section: Tablementioning

confidence: 99%

Section: Tablementioning

confidence: 99%

Numerical Study of a Basin Type Solar Still with a Double Glass Cover Under Winter Conditions

Nahoui¹,

Rebhi

Lorenzini

et al. 2021

ARFMTS

View full text Add to dashboard Cite

show abstract

“…Zhu et al [13] proposed and studied a novel light concentration and direct heating (LCDH) solar distillation device embedded underground in their analysis, to improve on the weakness of current solar distillers, especially complex structure, large floor space, inapplicability for large scale desalination. Other studies can be found in the literature as Li et al [14], Wang et al [15] [36], Shukla et al [37], Al-Nimr et al [38], Chafidz et al [39], Chen et al [40], Deshmukh and Thombre [41], Gakkhar et al [42], Gil et al [43], and Menni et al [44][45][46][47][48].…”

Section: Introductionmentioning

confidence: 97%

Effect of Various Physical Parameters on the Productivity of the Hybrid Distiller - In the Time of Distillation Extension at Night

Benaïssa¹,

Menni²,

Chamkha³

et al. 2019

EJEE

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Through this recent simulation, we investigated the effect of different physical parameters on the productivity of the greenhouse still coupled with a cylindro-parabolic solar concentrator and an autonomous photovoltaic generator that prolongs the distillation time during the night. An attempt has been made to determine the various parameters that improve the productivity of the hybrid distiller during the day and at night. We identify new modifications and thermal and electrical storage mechanisms to achieve results, which illustrate the advantage and disadvantage of physical parameters to have a solar-based distillation that lasts 24 hours. This study will be a research opening to increase the productivity of solar distillers. Until we reached the water fill for a long time possible in allweather cases by solar energy.

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Hollow Hydrogels for Excellent Aerial Water Collection and Autonomous Release

Liang,

Al‐Handawi,

Chen

et al. 2024

Angewandte Chemie

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Air moisture is a valuable and omnipresent resource of fresh water. However, traditional water collectors come with an enduring problem of the water‐release step, which requires special devices and additional energy to remove the water from the adsorbent, such as heat, sunlight, or both. Herein, we report the first composite conical hollow hydrogel to harvest water from aerial humidity. This hollow hydrogel device can rapidly collect water from humid air to a saturation point, whereupon it automatically and continually releases fresh water at room temperature. The entire water collection and release process doesn't require any external assistance. As an exemplary demonstration, positioning the hollow hydrogel device next to a plant turns into an individualized system for irrigation. Since the device is biodegradable, it eventually decomposes and becomes an organic fertilizer after the water supply is not required. For long‐term application, the water‐release process can be monitored in real time by an electronic device to indicate the amount of collected water. The hollow hydrogel combines the humidity‐absorbing capacity with autonomous water release that carries the potential for harvesting water from humidity to address the shortage of fresh water, especially in arid locations where other sources of water are scarce or inaccessible.

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Hybrid solar still – Liquid desiccant regenerator and water distillation system

Cited by 38 publications

References 55 publications

Numerical Study of a Basin Type Solar Still with a Double Glass Cover Under Winter Conditions

Numerical Study of a Basin Type Solar Still with a Double Glass Cover Under Winter Conditions

Effect of Various Physical Parameters on the Productivity of the Hybrid Distiller - In the Time of Distillation Extension at Night

Hollow Hydrogels for Excellent Aerial Water Collection and Autonomous Release

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