Factors affecting solar stills productivity and improvement techniques: A detailed review

Abstract The worldwide request for portable water is continuously growing because of industrial, population and agricultural growth, the result is water leaks that have already reached serious amounts in many places of the world. To overcome this problem, there is a demand for some supportable sources for the water purification. Solar still is a valuable device that can be used for purifying of brackish and salt water for drinking purposes. In this article, a review of factors affecting solar still production (climatic conditions, operations and design parameters) and enhancement techniques (wicks, internal and external condensers, internal and external reflectors, phase change materials, Stepped solar still and a new method improved the solar still yield by using nanoparticles) has been argued. Using sponge cubes in the basin water caused a significant enhancement in solar still production (up to 273%) whereas using cuprous oxide nanoparticles increased the distilled yield by 133.64% and 93.87% with and without the fan respectively.

[1]  K. Srithar,et al.  Performance analysis in stepped solar still for effluent desalination , 2009 .

[2]  Amos Madhlopa,et al.  Numerical study of a passive solar still with separate condenser , 2009 .

[3]  Farshad Farshchi Tabrizi,et al.  Experimental investigation of a weir-type cascade solar still with built-in latent heat thermal energy storage system , 2010 .

[4]  K. Srithar,et al.  Productivity enhancement of stepped solar still: Performance analysis , 2008 .

[5]  K. Srithar,et al.  Augmentation of saline streams in solar stills integrating with a mini solar pond , 2009 .

[6]  K. Vinoth Kumar,et al.  Performance study on solar still with enhanced condensation , 2008 .

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

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

[9]  Ian K. Smith,et al.  Enhancing of solar still productivity using vacuum technology , 1995 .

[10]  A. S. Nafey,et al.  Parameters affecting solar still productivity , 2000 .

[11]  Hassan E.S. Fath,et al.  Technical assessment of solar thermal energy storage technologies , 1998 .

[12]  Varun,et al.  Solar stills: A review , 2010 .

[13]  G. N. Tiwari,et al.  Monthly performance of passive and active solar stills for different Indian climatic conditions , 2004 .

[14]  Menachem Elimelech,et al.  The global challenge for adequate and safe water , 2006 .

[15]  W. E. Alnaser,et al.  Performances of single and double basin solar-stills , 2004 .

[16]  M. Sakthivel,et al.  Effect of energy storage medium (black granite gravel) on the performance of a solar still , 2008 .

[17]  Abdul Jabbar N. Khalifa,et al.  On the verification of the effect of water depth on the performance of basin type solar stills , 2009 .

[18]  D. Inan,et al.  A solar still with minimum inclination, coupled to an outside condenser , 1999 .

[19]  S. T. Ahmed,et al.  Study of single-effect solar still with an internal condenser , 1988 .

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

[21]  Omar Badran,et al.  Experimental study of the enhancement parameters on a single slope solar still productivity , 2007 .

[22]  G. N. Tiwari,et al.  Analysis of double effect active solar distillation , 1996 .

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

[24]  G. N. Tiwari,et al.  Performance evaluation of a solar still by using the concept of solar fractionation , 2004 .

[25]  K. Kalidasa Murugavel,et al.  Performance study on basin type double slope solar still with different wick materials and minimum mass of water , 2011 .

[26]  A. A. El-Sebaii,et al.  Effect of wind speed on active and passive solar stills , 2004 .

[27]  Hiroshi Tanaka,et al.  Experimental study of a basin type solar still with internal and external reflectors in winter , 2009 .

[28]  A. E. Kabeel,et al.  Performance of solar still with a concave wick evaporation surface , 2009 .

[29]  G. N. Tiwari,et al.  Effect of water depth on internal heat and mass transfer for active solar distillation , 2005 .

[30]  Z. M. Omara,et al.  A new hybrid desalination system using wicks/solar still and evacuated solar water heater , 2013 .

[31]  Abdul Jabbar N. Khalifa,et al.  An experimental study on modified simple solar stills , 1999 .

[32]  Ali A. Badran,et al.  A solar still augmented with a flat-plate collector , 2005 .

[33]  G. N. Tiwari,et al.  Effect of water depths on heat and mass transfer in a passive solar still: in summer climatic condition , 2006 .

[34]  Ahmed A. Al-Ghamdi,et al.  Active single basin solar still with a sensible storage medium , 2009 .

[35]  Vassilis Belessiotis,et al.  Experimental investigation of a solar still coupled with solar collectors , 2001 .

[36]  Mousa K. Abu-Arabi,et al.  Modeling and performance analysis of a solar desalination unit with double-glass cover cooling , 2001 .

[37]  José L. Fernández,et al.  Extreme operating conditions in shallow solar stills , 1997 .

[38]  A. E. Kabeel,et al.  Performance of finned and corrugated absorbers solar stills under Egyptian conditions , 2011 .

[39]  P. Monowe,et al.  A portable single-basin solar still with an external reflecting booster and an outside condenser , 2011 .

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

[41]  Hiroshi Tanaka,et al.  Factors influencing the productivity of a multiple-effect diffusion-type solar still coupled with a flat plate reflector , 2005 .

[42]  Mazen M. Abu-Khader,et al.  Performance evaluation of a modified design of a single slope solar still , 2008 .

[43]  S. A. El-Agouz,et al.  Experimental investigation of stepped solar still with continuous water circulation , 2014 .

[44]  Abdul Jabbar N. Khalifa,et al.  Effect of insulation thickness on the productivity of basin type solar stills: An experimental verification under local climate , 2009 .

[45]  Rahbar Rahimi,et al.  Modeling and determination of heat transfer coefficient in a basin solar still using CFD , 2011 .

[46]  G. N. Tiwari,et al.  THERMAL MODELING OF PASSIVE AND ACTIVE SOLAR STILLS FOR DIFFERENT DEPTHS OF WATER BY USING THE CONCEPT OF SOLAR FRACTION , 2006 .

[47]  Hiroshi Tanaka,et al.  Increase in distillate productivity by inclining the flat plate external reflector of a tilted-wick solar still in winter , 2009 .

[48]  A. A. El-Sebaii Effect of wind speed on some designs of solar stills , 2000 .

[49]  M. Naim,et al.  Non-conventional solar stills Part 2. Non-conventional solar stills with energy storage element , 2003 .

[50]  G. N. Tiwari,et al.  Thermal modeling based on solar fraction and experimental study of the annual and seasonal performance of a single slope passive solar still: The effect of water depths , 2007 .

[51]  G. Mink,et al.  DESIGN PARAMETERS, PERFORMANCE TESTING AND ANALYSIS OF A DOUBLE-GLAZED, AIR-BLOWN SOLAR STILL WITH THERMAL ENERGY RECYCLE , 1998 .

[52]  A. E. Kabeel,et al.  Improving the performance of solar still by using nanofluids and providing vacuum , 2014 .

[53]  Hiroshi Tanaka,et al.  Effect of inclination of external flat plate reflector of basin type still in winter , 2007 .

[54]  H.M.S. Hussein,et al.  Experimental and financial investigation of asymmetrical solar stills with different insulation , 1995 .

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

[56]  J. Ward,et al.  A plastic solar water purifier with high output , 2003 .

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

[58]  Vassilis Belessiotis,et al.  Experimental investigation of the behavior of a solar still coupled with hot water storage tank , 2003 .

[59]  B. A. Jubran,et al.  Effect of climatic, design and operational parameters on the yield of a simple solar still , 2002 .

[60]  Saeed Zeinali Heris,et al.  Exergy and economic analysis of a pyramid-shaped solar water purification system: Active and passive cases , 2012 .

[61]  K. Kalidasa Murugavel,et al.  An experimental study on single basin double slope simulation solar still with thin layer of water in the basin , 2008 .

[62]  I. Pop,et al.  A review of the applications of nanofluids in solar energy , 2013 .

[63]  Aly M. Elzahaby,et al.  Augmentation of solar still performance using flash evaporation , 2010 .

[64]  G. N. Tiwari,et al.  Annual performance of an active solar distillation system , 2000 .

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

[66]  Yasser Fathi Nassar,et al.  The second generation of the solar desalination systems , 2007 .

[67]  Hiroshi Tanaka,et al.  Tilted wick solar still with external flat plate reflector: Optimum inclination of still and reflector , 2009 .

[68]  S. Shukla,et al.  Thermal modeling of solar stills: an experimental validation , 2005 .

[69]  A. S. Abdullah Improving the performance of stepped solar still , 2013 .

[70]  José L. Fernández,et al.  Cavity geometry influence on mass flow rate for single and double slope solar stills , 2000 .

[71]  Y. P. Yadav Analytical performance of a solar still integrated with a flat plate solar collector: Thermosiphon mode , 1991 .

[72]  Mousa K. Abu-Arabi,et al.  MODELLING AND PERFORMANCE ANALYSIS OF A REGENERATIVE SOLAR DESALINATION UNIT , 2004 .

[73]  Bilal Akash,et al.  Experimental study of the basin type solar still under local climate conditions , 2000 .

[74]  B. Janarthanan,et al.  Performance of floating cum tilted-wick type solar still with the effect of water flowing over the glass cover , 2006 .

[75]  A. S. Nafey,et al.  SOLAR STILL PRODUCTIVITY ENHANCEMENT , 2001 .

[76]  Salah Abdallah,et al.  Effect of various absorbing materials on the thermal performance of solar stills , 2009 .

[77]  Abdulhaiy M. Radhwan,et al.  Transient analysis of a stepped solar still for heating and humidifying greenhouses , 2004 .

[78]  K. Srithar,et al.  Integrated performance of stepped and single basin solar stills with mini solar pond , 2009 .

[79]  Abdulhaiy M. Radhwan,et al.  Transient performance of a stepped solar still withbuilt-in latent heat thermal energy storage , 2005 .

[80]  E. El-Bialy,et al.  Performance analysis for passive single slope single basin solar distiller with a floating absorber – An experimental study , 2014 .

[81]  K Abu-Hijleh,et al.  Experimental study of a solar still with sponge cubes in basin , 2003 .

[82]  G. Tiwari,et al.  Simple multiple wick solar still: Analysis and performance , 1981 .

[83]  S. D. Probert,et al.  Solar-desalination prospects for the sultanate of Oman , 1995 .

[84]  Hassan E.S. Fath,et al.  Effect of adding a passive condenser on solar still performance , 1992 .

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

[86]  K. Srithar,et al.  Desalination of effluent using fin type solar still , 2008 .

[87]  Abdulrahman Ghoneyem,et al.  Software to analyze solar stills and an experimental study on the effects of the cover , 1997 .

[88]  J. Georgiadis,et al.  Science and technology for water purification in the coming decades , 2008, Nature.

[89]  Donatien Njomo,et al.  Heat and mass transfer processes in a solar still with an indirect evaporator–condenser , 2000 .