This study investigated the effect of system temperature on the performance of thermosyphon solar water heater. Solarudcollector was designed and developed with galvanized steel, wood and copper pipes for the experiment. While theudcopper pipes serves as the tube through which the cold water flows, the wood was employed for the frame and stand, and the galvanized steel for the collector material. Also employed were two hot and cold water tanks of 60 and 110 litre capacities respectively. The period of experiment were taken to be 3 days each for sunshine, sun-off and moderate sunshine days, with the average data employed for the analysis. The results showed that temperature has a domineering effect on the performance of the thermosyphon system. The maximum outlet temperature obtained for sunshine, moderate sunshine and sun-off days were 94.6, 73.5 and 51oC respectively. Also the system efficiency was found to be 61.04%, demonstrating good performance. However, considering the fact that the experiment was carried out in rainy season (between April and September), it was concluded that if it is repeated during the dry periods (October to March), the efficiency of performance will be more as these period is characterized by low cloud cover, high temperature and high radiation intensities. The outcome of the study was compared with published results and it clearly demonstrates that the designed system can suitably be employed for both domestic and industrial uses.
展开▼
机译:本研究调查了系统温度对热虹吸太阳能热水器性能的影响。 Solar udcollector是为镀锌钢,木材和铜管设计和开发的。铜管用作冷水流经的管,而木头则用作框架和支架,镀锌钢则用作收集器材料。还分别使用了容量分别为60和110升的两个热水箱和冷水箱。实验期分别为日照,日晒和中度日照为3天,并使用平均数据进行分析。结果表明,温度对热虹吸系统的性能起主导作用。日照,中度日照和日晒日的最高出口温度分别为94.6、73.5和51oC。另外,发现系统效率为61.04%,表现出良好的性能。但是,考虑到该实验是在雨季(4月至9月)进行的,因此得出的结论是,如果在干旱时期(10月至3月)重复进行实验,则在这些时期内,性能的效率会更高。具有低云量,高温和高辐射强度的特点。将研究结果与发表的结果进行了比较,它清楚地证明了该设计的系统可以适当地用于家庭和工业用途。
展开▼
