阿尔及利亚西南海水淡化厂的设计和试点研究

Abdelkarim Maamar Abdelkader, Bounegta Bachir Moha
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摘要

阿尔及利亚同大多数属于第三世界的许多国家一样,拥有大量的水资源含盐(含盐量在1500至2000 ppm之间,超过了所需的饮用水标准,因此不适合消费)。因此,我们必须考虑利用这些巨大的储备,对海水淡化技术感兴趣。因此,当务之急是实现满足饮用水这些需求的蒸馏器太阳能计划。改进后的太阳能蒸馏器的吸收器表面涂有黑色搪瓷漆并覆盖有铜片。太阳蒸馏器中水的蒸发速率与水的暴露面积成正比。因此,太阳能的生产力仍然随着盆地中水的自由表面积的增加而增加。发现馏出物收率有相当大的提高,特别是当水深较高时。该研究还指出了一些设计特征,由于所做的修改,将进一步提高产量的改善,蒸发速率仅与水的自由表面积的温度成正比。建立了一个基于系统各组成部分传热平衡的通用模型来预测淡水的质量。该工艺的效率约为65%,日产量约为5.13 l/m2,并对实验结果进行了讨论。提出了一种新的层叠式太阳能海水淡化装置的设计方案,该装置具有障碍物和进水预热。
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SIZING AND EXPERIMENTAL STUDY OF A SOLAR STILL FOR THE PRODUCTIVITY OF WATER DESALINATION IN SOUTH-WEST OF ALGERIA – BECHAR: التصميم والدراسة التجريبية لجهاز التقطير الشمسي لإنتاجية تحلية المياه في جنوب غرب الجزائر – بشار
Algeria, like many countries belonging mostly to the Third World, has considerable water resources saline (salt content ranging between 1500 and 2000 ppm, exceeding the required standards for drinking water and therefore unfit for consumption). We must therefore think of making use these huge reserves interested in desalination techniques. The stain majored is therefore to achieve a distiller solar plan which meets these needs in drinking water. The absorber surface of the modified solar still is coated with black enamel paint and covered with copper chips. The evaporation rate of the water in the solar still is directly proportional to the exposure area of the water. Thus the productivity of the solar still increases with the free surface area of the water in the basin. The distillate yield was found to have improved considerably, especially when the water depth was high. The study also indicated some design features that would further enhance the improvement in output due to the modification made, the evaporation rate is proportional to the temperature of the free surface area of the water only. A general model based on heat transfer balances in each component of the system was developed to predict the mass of freshwater. The efficiency of this still was about 65% and can produce about 5.13 l/m2 per day, experimental studies and the outcomes are discussed in the article. We propose a new design of the cascading solar desalination still with obstacles and preheating of inlet water.
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