M. Mohamed Thalib scite author profile

This study is intended to investigate and analyze the operational performances of the Conventional Tubular Solar Still (CTSS), Tubular Solar Still with Phase Change Material (TSS-PCM) and Tubular Solar Still with Nano Phase Change Material (TSS-NPCM). Paraffin wax and graphene plusparaffin wax were used in the CTSS to obtain the modified solar still models. The experimental study was carried out in the three stills to observe the operational parameters at a water depth of 1 cm. The experiment revealed that TSS-NPCM showed the best performance and the highest yield in comparison to other stills. The distillate yield from the CTSS, TSS-PCM and TSS-NPCM was noted to be 4.3, 6.0 and 7.9 kg, respectively, the daily energy efficiency of the stills was observed to be 31%, 46% and 59%, respectively, and the daily exergy efficiency of the stills was recorded to be 1.67%, 2.20% and 3.75%, respectively. As the performance of the TSS-NPCM was enhanced, the cost of freshwater yield obtained was also low in contrast to the other two types of stills.

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Extraction of drinking water from modified inclined solar still incorporated with spiral tube solar water heater

Taamneh

Manokar

Thalib

et al. 2020

Journal of Water Process Engineering

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Performance assessment of free standing and building integrated grid connected photovoltaic system for southern part of India

Chandrika

Thalib

Karthick

et al. 2020

Building Services Engineering Research and Technology

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Photovoltaic (PV) system efficiency depends on the geographical location and the orientation of the building. Until installing the building structures, the integration of the PV module must be evaluated with ventilation and without ventilation effects. This work optimises the performance of the 250 kWp grid-connected photovoltaic (GPV) for community buildings in the southern part of India. This simulation is carried out to evaluate the system efficiency of the GPV system under various ventilation conditions, such as free-standing PV (FSPV), building integrated photovoltaic ventilated (BIPV_V) and Building Integrated Photovoltaic without ventilation (BIPV). The PVsyst simulation tool is used to simulate and optimise the performance of the system with FSPV, BIPV and BIPV_V for the region of Chennai (13.2789° N, 80.2623° E), Tamilnadu, India. An annual system energy production is 446 MWh, 409 MWh and 428 MWh of FSPV, BIPV and BIPV_V system respectively. while electrical efficiency for the FSPV, BIPV_V, BIPV system is 15.45%. 15.25% and 14.75% respectively. Practical application: Integrating the grid connected photovoltaic system on the building reduces the energy consumption in the building. The integration of the PV on the roof or semi integrated on the roof is need to be investigated before installing on the buildings. The need for installation of the BIPV with ventilation is explored. This study will assist architects and wider community to design buildings roofs with GPV system which are more aesthetic and account for noise protection and thermal insulation in the region of equatorial climate zones.

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Energy, exergy and economic investigation of passive and active inclined solar still: experimental study

Thalib

Vimala

Manokar

et al. 2021

J Therm Anal Calorim

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Water quality analysis of solar still distillate produced from various water sources of El Oued region Algeria

Attia¹,

Thalib²,

Kumar³

et al. 2022

Desalination and Water Treatment

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M. Mohamed Thalib

Comparative Study of Tubular Solar Stills with Phase Change Material and Nano-Enhanced Phase Change Material

Extraction of drinking water from modified inclined solar still incorporated with spiral tube solar water heater

Performance assessment of free standing and building integrated grid connected photovoltaic system for southern part of India

Energy, exergy and economic investigation of passive and active inclined solar still: experimental study

Water quality analysis of solar still distillate produced from various water sources of El Oued region Algeria

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