Performance enhancement of solar desalination using evacuated tubes, ultrasonic atomizers, and cobalt oxide nanofluid integrated with cover cooling

[1]  A. W. Kandeal,et al.  Thermo-economic performance improvement of hemispherical solar still using wick material with V-corrugated basin and two different energy storage materials , 2023, Solar Energy.

[2]  A. W. Kandeal,et al.  Recent advances in heat pump-coupled desalination systems: A systematic review , 2022, Desalination.

[3]  M. Mehrpooya,et al.  Experimental study of a novel hybrid photovoltaic/thermal and thermoelectric generators system with dual phase change materials , 2022, Renewable Energy.

[4]  A. Kabeel,et al.  Experimental study of a hemispherical solar distillation system with and without rock salt balls as low-cost sensible storage: Performance optimization and comparative analysis , 2022, Solar Energy.

[5]  Nouby M. Ghazaly,et al.  A thermo-economic study of tubular solar distillers with V-corrugated basin and reflective mirrors , 2022, Solar Energy.

[6]  M. Mehrpooya,et al.  Techno-economic investigation and dual-objective optimization of a stand-alone combined configuration for the generation and storage of electricity and hydrogen applying hybrid renewable system , 2022, Renewable Energy.

[7]  A. Kabeel,et al.  Performance evaluation of a modified pyramid solar still employing wick, reflectors, glass cooling and TiO2 nanomaterial , 2022, Desalination.

[8]  M.S. Islam,et al.  Investigation of a modified double slope solar still integrated with nanoparticle-mixed phase change materials: Energy, exergy, exergo-economic, environmental, and sustainability analyses , 2022, Case Studies in Thermal Engineering.

[9]  M. Sheikholeslami,et al.  Impact of utilizing hollow copper circular fins and glass wool insulation on the performance enhancement of pyramid solar still unit: An experimental approach , 2022, Solar Energy.

[10]  H. Kargarsharifabad,et al.  Performance enhancement of a solar still using magnetic powder as an energy storage medium‐exergy and environmental analysis , 2022, Energy Science & Engineering.

[11]  A. W. Kandeal,et al.  4-E analysis of pyramid solar still augmented with external condenser, evacuated tubes, nanofluid and ultrasonic foggers: A comprehensive study , 2022, Process Safety and Environmental Protection.

[12]  S. Sharshir,et al.  Advanced applications of the nanohybrid membrane of chitosan/nickel oxide for photocatalytic, electro-biosensor, energy storage, and supercapacitors , 2022, Journal of Energy Storage.

[13]  R. Velraj,et al.  Synergetic effect of absorber and condenser nano-coating on evaporation and thermal performance of solar distillation unit for clean water production , 2022, Solar Energy Materials and Solar Cells.

[14]  A. W. Kandeal,et al.  A new trapezoidal pyramid solar still design with multi thermal enhancers , 2022, Applied Thermal Engineering.

[15]  H. Kargarsharifabad,et al.  Comparative study of double-slope solar still, hemispherical solar still, and tubular solar still using Al2O3/water film cooling: a numerical study and CO2 mitigation analysis , 2022, Environmental Science and Pollution Research.

[16]  H. Kargarsharifabad,et al.  Energy matrices, economic and environmental analysis of thermoelectric solar desalination using cooling fan , 2022, Journal of Thermal Analysis and Calorimetry.

[17]  S. Sharshir,et al.  Performance improvement of solar distiller using hang wick, reflectors and phase change materials enriched with nano-additives , 2022, Case Studies in Thermal Engineering.

[18]  A. W. Kandeal,et al.  Improving the performance of tubular solar still integrated with drilled carbonized wood and carbon black thin film evaporation , 2022, Solar Energy.

[19]  A. Kabeel,et al.  Experimental investigation on a modified design of hemispherical solar distiller with v-corrugated iron trays and wick materials for improving freshwater production , 2022, Environmental Science and Pollution Research.

[20]  M. Mehrpooya,et al.  Development and Life Cycle Assessment of a Novel Solar-based Cogeneration Configuration Comprised of Diffusion-absorption Refrigeration and Organic Rankine Cycle in Remote Areas , 2022, Process Safety and Environmental Protection.

[21]  Gamal B. Abdelaziz,et al.  Hybrid solar desalination systems review , 2021, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.

[22]  Gamal B. Abdelaziz,et al.  Recent Developments of Solar Stills and Humidification De-humidification Desalination Systems: A Review , 2021, Journal of Petroleum and Mining Engineering.

[23]  M. Mehrpooya,et al.  Transient optimization of annual performance of a photovoltaic thermal system based on accurate estimation of coolant water temperature: A comparison with conventional methods , 2021 .

[24]  Muhamad Izzuddin Ismail,et al.  Improving thermal, economic, and environmental performance of solar still using floating coal, cotton fabric, and carbon black nanoparticles , 2021, Sustainable Energy Technologies and Assessments.

[25]  R. Velraj,et al.  Sea-water desalination using a desalting unit integrated with a parabolic trough collector and activated carbon pellets as energy storage medium , 2021 .

[26]  A. W. Kandeal,et al.  Reverse osmosis desalination systems powered by solar energy: Preheating techniques and brine disposal challenges – A detailed review , 2021, Energy Conversion and Management.

[27]  A. W. Kandeal,et al.  Augmented performance of tubular solar still integrated with cost-effective nano-based mushrooms , 2021, Solar Energy.

[28]  Barun Das,et al.  Energy, exergy, exergo‐environmental, and exergetic sustainability analyses of a gas engine‐based CHP system , 2021, Energy Science & Engineering.

[29]  Gamal B. Abdelaziz,et al.  Performance enhancement of tubular solar still using nano-enhanced energy storage material integrated with v-corrugated aluminum basin, wick, and nanofluid , 2021 .

[30]  A. Kabeel,et al.  Potential and challenges of improving solar still by micro/nano-particles and porous materials - A review , 2021 .

[31]  A. W. Kandeal,et al.  Improved thermo-economic performance of solar desalination via copper chips, nanofluid, and nano-based phase change material , 2021, Solar Energy.

[32]  A. W. Kandeal,et al.  Performance assessment of solar PV-driven hybrid HDH-RO desalination system integrated with energy recovery units and solar collectors: Theoretical approach , 2021, Energy Conversion and Management.

[33]  M. Afrand,et al.  Effect of Ag, Au, TiO2 metallic/metal oxide nanoparticles in double-slope solar stills via thermodynamic and environmental analysis , 2021 .

[34]  M. Mehrpooya,et al.  Life cycle assessment and exergoeconomic analysis of the multi-generation system based on fuel cell for methanol, power, and heat production , 2021, Renewable Energy.

[35]  R. Sathyamurthy,et al.  An experimental investigation of a water desalination unit using different microparticle-coated absorber plate: yield, thermal, economic, and environmental assessments , 2021, Environmental Science and Pollution Research.

[36]  R. A. Beg,et al.  Combined influence of fin, phase change material, wick, and external condenser on the thermal performance of a double slope solar still , 2021 .

[37]  Gamal B. Abdelaziz,et al.  Enhancement of solar still performance via wet wick, different aspect ratios, cover cooling, and reflectors , 2021, International Journal of Energy and Environmental Engineering.

[38]  R. Sathyamurthy,et al.  Experimental analysis on single and double basin single slope solar still with energy storage material and external heater , 2021 .

[39]  A. Kabeel,et al.  Application of Taguchi method to select the optimal water depth and glass cooling rate in solar stills , 2021 .

[40]  M. R. Elkadeem,et al.  Optimal sizing and techno-enviro-economic feasibility assessment of large-scale reverse osmosis desalination powered with hybrid renewable energy sources , 2020 .

[41]  R. Rahim,et al.  Solar still with evacuated tubes and calcium stones to enhance the yield: An experimental investigation , 2020 .

[42]  A. Kabeel,et al.  Performance enhancement of pyramid-shaped solar stills using hollow circular fins and phase change materials , 2020 .

[43]  M. R. Elkadeem,et al.  New hydrogel materials for improving solar water evaporation, desalination and wastewater treatment: A review , 2020 .

[44]  Zhenjun Ma,et al.  Performance amelioration of single basin solar still integrated with V- type concentrator: Energy, exergy, and economic analysis , 2020, Environmental Science and Pollution Research.

[45]  F. S. Javadi,et al.  Performance improvement of solar thermal systems integrated with phase change materials (PCM), a review , 2020, Solar Energy.

[46]  Dhananjay R. Mishra,et al.  Energy, exergy, and economic analysis of single slope conventional solar still augmented with an ultrasonic fogger and a cotton cloth , 2020 .

[47]  Swellam W. Sharshir,et al.  Experimental study on enhancing the yield from stepped solar still coated using fumed silica nanoparticle in black paint , 2020 .

[48]  Swellam W. Sharshir,et al.  Performance enhancement of stepped double slope solar still by using nanoparticles and linen wicks: Energy, exergy and economic analysis , 2020 .

[49]  Gamal B. Abdelaziz,et al.  Experimental investigation and economic assessment of a solar still performance using high-frequency ultrasound waves atomizer , 2020 .

[50]  M. Ali,et al.  Eco-friendly coffee-based colloid for performance augmentation of solar stills , 2020 .

[51]  A. Kabeel,et al.  A compact flat solar still with high performance , 2020, 2003.11865.

[52]  M. Masoud,et al.  Magnetite nano-spherical quantum dots decorated graphene oxide nano sheet (GO@Fe3O4): Electrochemical properties and applications for removal heavy metals, pesticide and solar cell , 2020 .

[53]  Mohamed Abd Elaziz,et al.  Enhancing thermal performance and modeling prediction of developed pyramid solar still utilizing a modified random vector functional link , 2020 .

[54]  Swellam W. Sharshir,et al.  Influence of basin metals and novel wick-metal chips pad on the thermal performance of solar desalination process , 2020 .

[55]  A. Kabeel,et al.  A comprehensive review of tubular solar still designs, performance, and economic analysis , 2020 .

[56]  Omar Bait,et al.  Direct and indirect solar–powered desalination processes loaded with nanoparticles: A review , 2020 .

[57]  A. Kabeel,et al.  Enhancement of pyramid-shaped solar stills performance using a high thermal conductivity absorber plate and cooling the glass cover , 2020 .

[58]  Ravishankar Sathyamurthy,et al.  Improving the performance of solar still using different heat localization materials , 2020, Environmental Science and Pollution Research.

[59]  Dhananjay R. Mishra,et al.  Performance evaluation of single slope solar still augmented with the ultrasonic fogger , 2020 .

[60]  Gamal B. Abdelaziz,et al.  Experimental investigation of a solar still with composite material heat storage: Energy, exergy and economic analysis , 2019, Journal of Cleaner Production.

[61]  Swellam W. Sharshir,et al.  Augmentation of a pyramid solar still performance using evacuated tubes and nanofluid: Experimental approach , 2019, Applied Thermal Engineering.

[62]  A. Kabeel,et al.  Performance enhancement of a photovoltaic panel with reflectors and cooling coupled to a solar still with air injection , 2019, Journal of Cleaner Production.

[63]  Ravishankar Sathyamurthy,et al.  A mini review of techniques used to improve the tubular solar still performance for solar water desalination , 2019, Process Safety and Environmental Protection.

[64]  H. Panchal,et al.  Effect of water depth on a novel absorber plate of pyramid solar still coated with TiO2 nano black paint , 2019, Journal of Cleaner Production.

[65]  Swellam W. Sharshir,et al.  Thin film technology for solar steam generation: A new dawn , 2019, Solar Energy.

[66]  A. Kabeel,et al.  High efficient solar evaporation by airing multifunctional textile , 2018, 1812.02417.

[67]  A. Kabeel,et al.  Energy and exergy analysis of solar stills with micro/nano particles: A comparative study , 2018, Energy Conversion and Management.

[68]  D. Prince Winston,et al.  Experimental investigation on pyramid solar still in passive and active mode , 2018, Heat and Mass Transfer.

[69]  S. Sharshir,et al.  Low-cost high-efficiency solar steam generator by combining thin film evaporation and heat localization: Both experimental and theoretical study , 2018, Applied Thermal Engineering.

[70]  Mohamed Si–Ameur,et al.  Enhanced heat and mass transfer in solar stills using nanofluids: A review , 2018, Solar Energy.

[71]  Chang Peng,et al.  Dynamics of ultrasonic atomization of droplets , 2018 .

[72]  Swellam W. Sharshir,et al.  Applications of nanofluids in solar energy: A review of recent advances , 2018 .

[73]  S. Rashidi,et al.  Exergy and economic analysis for a double slope solar still equipped by thermoelectric heating modules - an experimental investigation , 2017 .

[74]  Omar Bait,et al.  Tubular solar–energy collector integration: Performance enhancement of classical distillation unit , 2017 .

[75]  Mohamed Abdelgaied,et al.  Modified pyramid solar still with v-corrugated absorber plate and PCM as a thermal storage medium , 2017 .

[76]  S. Sharshir,et al.  Ultra-fast vapor generation by a graphene nano-ratchet: a theoretical and simulation study. , 2017, Nanoscale.

[77]  Swellam W. Sharshir,et al.  Enhancing the solar still performance using nanofluids and glass cover cooling: Experimental study , 2017 .

[78]  A. A. El-Sebaii,et al.  An experimental investigation of a v-corrugated absorber single-basin solar still using PCM , 2016 .

[79]  Swellam W. Sharshir,et al.  A hybrid desalination system using humidification-dehumidification and solar stills integrated with evacuated solar water heater , 2016 .

[80]  Swellam W. Sharshir,et al.  Performance enhancement of wick solar still using rejected water from humidification-dehumidification unit and film cooling , 2016 .

[81]  Swellam W. Sharshir,et al.  A continuous desalination system using humidification – dehumidification and a solar still with an evacuated solar water heater , 2016 .

[82]  Amit Shukla,et al.  Inclined solar still designs: A review , 2016 .

[83]  A. E. Kabeel,et al.  Techniques used to improve the performance of the stepped solar still—A review , 2015 .

[84]  K. Kalidasa Murugavel,et al.  Performance study on single basin single slope solar still with different water nanofluids , 2015 .

[85]  Shiv Kumar,et al.  A solar still augmented with an evacuated tube collector in forced mode , 2014 .

[86]  A. Alaudeen,et al.  Study on stepped type basin in a solar still , 2014 .

[87]  Thirugnanasambantham Arunkumar,et al.  Effect of air flow on "V" type solar still with cotton gauze cooling , 2014 .

[88]  A. E. Kabeel,et al.  Enhancement of modified solar still integrated with external condenser using nanofluids: An experimental approach , 2014 .

[89]  I. El‐Mehasseb,et al.  Nickel oxide nanoparticles: Synthesis and spectral studies of interactions with glucose , 2013 .

[90]  G. N. Tiwari,et al.  Performance of a solar still integrated with evacuated tube collector in natural mode , 2013 .

[91]  Thirugnanasambantham Arunkumar,et al.  Effect of water and air flow on concentric tubular solar water desalting system , 2013 .

[92]  Amimul Ahsan,et al.  Design, fabrication and performance analysis of an improved solar still , 2012 .

[93]  Madhar Taamneh,et al.  Performance of pyramid-shaped solar still: Experimental study , 2012 .

[94]  Arif Hepbasli,et al.  A key review on exergetic analysis and assessment of renewable energy resources for a sustainable future , 2008 .

[95]  Parag R Gogate,et al.  Ultrasonic atomization: effect of liquid phase properties. , 2006, Ultrasonics.

[96]  Hassan E.S. Fath,et al.  Thermal-economic analysis and comparison between pyramid-shaped and single-slope solar still configurations , 2003 .

[97]  Ashok Kumar,et al.  Modelling and performance of a tubular multiwick solar still , 1992 .

[98]  G. Taylor The instability of liquid surfaces when accelerated in a direction perpendicular to their planes. I , 1950, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.