Methods used to improve solar still performance with generated turbulence for water desalination- detailed review

[1]  N. A. Pambudi,et al.  The energy efficiency of a modified v-corrugated zinc collector on the performance of solar water heater (SWH) , 2023, Results in Engineering.

[2]  A. Abánades,et al.  Comprehensive analysis of hot water tank sizing for a hybrid solar-biomass district heating and cooling , 2023, Results in Engineering.

[3]  T. Yusaf,et al.  “Pyramid solar distillers: A comprehensive review of recent techniques” , 2023, Results in Engineering.

[4]  J. Aguillón-Martínez,et al.  A proposal for additively manufacturing printed circuits by employing concentrated solar energy , 2023, Results in Engineering.

[5]  M. R. Elkadeem,et al.  Performance enhancement of solar desalination using evacuated tubes, ultrasonic atomizers, and cobalt oxide nanofluid integrated with cover cooling , 2023, Process Safety and Environmental Protection.

[6]  G. Ahmed,et al.  Experimental Investigation of Thermal Storage Integrated Indirect Solar Cooker with and Without Reflectors , 2023, Social Science Research Network.

[7]  P. Wyżga,et al.  Optimizing the morphology of titania nanorods for enhanced solar seawater splitting , 2023, Results in Engineering.

[8]  Mayank Sharma,et al.  Experiments on waste hot water fed still operating with stirring turbulence , 2023, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects.

[9]  A. S. Abdullah,et al.  Enhancement the productivity of drum solar still utilizing parabolic solar concentrator, phase change material and nanoparticles' coating , 2022, Journal of Energy Storage.

[10]  A. S. Abdullah,et al.  Improving the drum solar still performance using corrugated drum and nano-based phase change material , 2022, Journal of Energy Storage.

[11]  A. S. Abdullah,et al.  Increasing the productivity of modified cords pyramid solar still using electric heater and various wick materials , 2022, Process Safety and Environmental Protection.

[12]  A. A. Al-Tabbakh Numerical transient modeling of a flat plate solar collector , 2022, Results in Engineering.

[13]  R. Sathyamurthy,et al.  Parametric optimization of novel solar chimney power plant using response surface methodology , 2022, Results in Engineering.

[14]  R. Das,et al.  Concept of optimum basin thickness in heat exchanger–assisted solar stills , 2022, Environmental science and pollution research international.

[15]  R. Tadili,et al.  Design, realization and comparison of three passive solar dryers. Orange drying application for the Rabat site (Morocco) , 2022, Results in Engineering.

[16]  A. Barba-Pingarrón,et al.  Thermal analysis using induction and concentrated solar radiation for the heating of metals , 2022, Results in Engineering.

[17]  A. S. Abdullah,et al.  Modeling and Optimization of Working Conditions of Pyramid Solar Still with Different Nanoparticles Using Response Surface Methodology , 2022, SSRN Electronic Journal.

[18]  Ali I. Shehata,et al.  3E enhancement of freshwater productivity of solar still with heater, vibration, and cover cooling , 2022, Environmental Science and Pollution Research.

[19]  H. Dhahad,et al.  Performance improvement of tubular solar still via tilting glass cylinder, nano-coating, and nano-PCM: experimental approach , 2022, Environmental Science and Pollution Research.

[20]  F. Essa,et al.  Improving the vertical solar distiller performance using rotating wick discs and integrated condenser , 2022, Environmental Science and Pollution Research.

[21]  R. Das,et al.  Evaluation of the Effectiveness of Base Insulation on the Productivity of a Packed Bed Solar Air Heater , 2022, Journal of Thermal Science and Engineering Applications.

[22]  R. Das,et al.  A fully analytical model of a box solar cooker with sensible thermal storage , 2022, Solar Energy.

[23]  M. M. Younes,et al.  Experimental enhancement of tubular solar still performance using rotating cylinder, nanoparticles' coating, parabolic solar concentrator, and phase change material , 2022, Case Studies in Thermal Engineering.

[24]  A. S. Abdullah,et al.  Enhancement of discs’ solar still performance using thermal energy storage unit and reflectors: An experimental approach , 2022, Alexandria Engineering Journal.

[25]  R. Das,et al.  Performance analysis of a solar still driven by a packed bed thermal storage tank during off-sunshine period , 2021, Journal of Energy Storage.

[26]  A. S. Abdullah,et al.  Improving the performance of pyramid solar distiller using dangled cords of various wick materials: Novel working mechanism of wick , 2021, Case Studies in Thermal Engineering.

[27]  E. B. Agyekum,et al.  Experimental and Theoretical Investigations of a Modified Single-Slope Solar Still with an External Solar Water Heater , 2021, Sustainability.

[28]  B. Budiman,et al.  Low-cost floating solar still for developing countries: Prototyping and heat-mass transfer analysis , 2021, Results in Engineering.

[29]  A. S. Abdullah,et al.  Employing convex shape absorber for enhancing the performance of solar still desalination system , 2021, Journal of Energy Storage.

[30]  Robiul Islam Rubel,et al.  Design improvement of a laboratory prototype for efficiency evaluation of solar thermal water heating system using phase change material (PCMs) , 2021, Results in Engineering.

[31]  A. S. Abdullah,et al.  Experimental investigation of convex tubular solar still performance using wick and nanocomposites , 2021 .

[32]  M. M. Younes,et al.  Half barrel and corrugated wick solar stills – Comprehensive study , 2021 .

[33]  M. M. Younes,et al.  Improving the performance of trays solar still using wick corrugated absorber, nano-enhanced phase change material and photovoltaics-powered heaters , 2021 .

[34]  A. S. Abdullah,et al.  Effect of different wick materials on solar still performance – a review , 2021, International Journal of Ambient Energy.

[35]  Gamal B. Abdelaziz,et al.  Enhancing the solar still performance via rotating wick belt and quantum dots nanofluid , 2021 .

[36]  A. S. Abdullah,et al.  Enhancement of pyramid solar distiller performance using reflectors, cooling cycle, and dangled cords of wicks , 2021, Desalination.

[37]  M. M. Younes,et al.  Enhancing the wick solar still performance using half barrel and corrugated absorbers , 2021, Process Safety and Environmental Protection.

[38]  A. S. Abdullah,et al.  Experimental study on the performance of trays solar still with cracks and reflectors , 2021, Applied Thermal Engineering.

[39]  A. S. Abdullah,et al.  Improving the performance of tubular solar still using rotating drum – Experimental and theoretical investigation , 2021 .

[40]  M. M. Younes,et al.  Performance evaluation of a vertical rotating wick solar still , 2021 .

[41]  A. S. Abdullah,et al.  Improving the performance of pyramid solar still using rotating four cylinders and three electric heaters , 2021 .

[42]  A. S. Abdullah,et al.  Experimental investigation of a new design of drum solar still with reflectors under different conditions , 2021 .

[43]  A. S. Abdullah,et al.  Enhancing the solar still performance using reflectors and sliding-wick belt , 2021, Solar Energy.

[44]  A. Kabeel,et al.  Augmentation of diurnal and nocturnal distillate of modified tubular solar still having copper tubes filled with PCM in the basin , 2020 .

[45]  Vahid Madadi Avargani,et al.  An experimental investigation on the performance of a new portable active bubble basin solar still , 2020, Applied Thermal Engineering.

[46]  M. Murugan,et al.  Performance evaluation of square pyramid solar still with various vertical wick materials – An experimental approach , 2020 .

[47]  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 .

[48]  A. S. Abdullah,et al.  Rotating discs solar still: New mechanism of desalination , 2020 .

[49]  K. Bataineh,et al.  Performance analysis of solar still integrated with internal reflectors and fins , 2020 .

[50]  M. M. Younes,et al.  New design of trays solar still with enhanced evaporation methods – Comprehensive study , 2020, Solar Energy.

[51]  O. Ali,et al.  Experimental investigation of modified solar still integrated with solar collector , 2020, Case Studies in Thermal Engineering.

[52]  O. Ali,et al.  Experimental investigations of single-slope solar still integrated with a hollow rotating cylinder , 2020, IOP Conference Series: Materials Science and Engineering.

[53]  J. P. Luna-Abad,et al.  Experimental calculation of the mean temperature of flat plate thermal solar collectors , 2020 .

[54]  J. L. Fernández-Zayas,et al.  Solar still distillation enhancement through water surface perturbation , 2020 .

[55]  A. Kabeel,et al.  Performance enhancement of a tubular solar still by utilizing wire mesh packing under harmonic motion , 2020 .

[56]  A. S. Abdullah,et al.  Rotating-wick solar still with mended evaporation technics: Experimental approach , 2019 .

[57]  Gamal B. Abdelaziz,et al.  Rotating-drum solar still with enhanced evaporation and condensation techniques: Comprehensive study , 2019, Energy Conversion and Management.

[58]  H. Rahimzadeh,et al.  Experimental performance evaluation of a modified solar still integrated with a cooling system and external flat-plate reflectors , 2019, Solar Energy.

[59]  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.

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

[61]  Ahmed Rahmani,et al.  Improving the basin type solar still performances using a vertical rotating wick , 2017 .

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

[63]  K. Vijayakumar,et al.  Mathematical and experimental investigation on the influence of basin height variation and stirring of water by solar PV panels in solar still , 2017 .

[64]  A. S. Abdullah,et al.  Improving the productivity of solar still by using water fan and wind turbine , 2017 .

[65]  K. Kalidasa Murugavel,et al.  Performance enhancement of a single basin single slope solar still using agitation effect and external condenser , 2016 .

[66]  A. E. Kabeel,et al.  The performance of a modified solar still using hot air injection and PCM , 2016 .

[67]  George M. Ayoub,et al.  Modeling of a modified solar still system with enhanced productivity , 2016 .

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

[69]  George M. Ayoub,et al.  A solar still desalination system with enhanced productivity , 2015 .

[70]  Z. M. Omara,et al.  Enhancing the solar still performance using solar photovoltaic, flat plate collector and hot air , 2014 .

[71]  George M. Ayoub,et al.  Economic feasibility of a solar still desalination system with enhanced productivity , 2014 .

[72]  A. E. Kabeel,et al.  Enhancing the stepped solar still performance using internal and external reflectors , 2014 .

[73]  George M. Ayoub,et al.  Critical variables in the performance of a productivity-enhanced solar still , 2013 .

[74]  A. E. Kabeel,et al.  Enhancing the stepped solar still performance using internal reflectors , 2013 .

[75]  A. E. Kabeel,et al.  Augmentation of the basin type solar still using photovoltaic powered turbulence system , 2012 .

[76]  A. E. Kabeel,et al.  Theoretical and experimental parametric study of modified stepped solar still , 2012 .

[77]  Aly M. Elzahaby,et al.  Enhancement of solar still performance using a reciprocating spray feeding system—An experimental approach , 2011 .

[78]  K. Srithar,et al.  Performance analysis of solar stills based on various factors affecting the productivity—A review , 2011 .

[79]  K. M. Eldalil,et al.  Improving the performance of solar still using vibratory harmonic effect , 2010 .

[80]  Zhao Zhengming,et al.  Wind turbine-inclined still collector integration with solar still for brackish water desalination , 2009 .

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

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

[83]  George M. Ayoub,et al.  The Effect of Cover Geometry on the Productivity of a Modified Solar Still Desalination Unit , 2014 .

[84]  G. C. Pandey Effect of dried and forced air bubbling on the partial pressure of water vapour and the performance of solar still , 1984 .