论文信息 - Effect of cover materials on heat and mass transfer coefficients in a plastic solar still

Effect of cover materials on heat and mass transfer coefficients in a plastic solar still

The intention of this work was to study the effect of cover materials on heat and mass transfer coefficient and hence productivity of the still. Two plastic stills having similar geometrical features were constructed to maintain the comparison under the same weather conditions. The condensing surface of one still was an acrylic (plastic) cover (3 mm thick) while of the other still it was a glass cover (3 mm thick), both fixed in an aluminum frame. It was found that for water depth of 10 cm the plastic solar still with the glass cover produced 30–35% more output than the plastic solar still with Plexiglas cover. The evaporative heat transfer coefficient for the glass cover still was 57% more than that for the still with the plastic cover which resulted in a higher output. Plastic can be used as the structural material for solar stills but increased costs do not always increase the distillate output.

M. K. Phadatare | S. K. Verma

[1] S. C. Mullick,et al. Estimation of Heat-Transfer Coefficients, the Upward Heat Flow, and Evaporation in a Solar Still , 1991 .

[2] Seigo Sakai,et al. Non-gray calculation of plate solar collector with low iron glazing taking into account the absorption and emission with a glass cover , 2007 .

[3] M. S. Sodha,et al. Periodic theory of solar still , 1980 .

[4] A. A. Mabrouk,et al. Enhancement of solar still productivity using floating perforated black plate , 2002 .

[5] G. Cappelletti,et al. An experiment with a plastic solar still , 2002 .

[6] M. Reali,et al. Solar stills made with tubes for sea water desalting , 2008 .

[7] G. N. Tiwari,et al. Effect of Temperature Dependent Internal Heat Transfers on the Performance of a Solar Still , 1988 .

[8] O. A. Hamed,et al. Overview of solar desalination , 1993 .

[9] K. Kalidasa Murugavel,et al. Progresses in improving the effectiveness of the single basin passive solar still , 2008 .

[10] Walid H. Shayya,et al. Thermodynamic and economic considerations in solar desalination , 2000 .

[11] Walid H. Shayya,et al. Solar energy desalination for arid coastal regions: development of a humidification–dehumidification seawater greenhouse , 2003 .