CAJ | 학술논문

建立了间接接触式显热蓄热实验台，对不同粒径的砂砾用于太阳能显热蓄热斜温层单罐填料的蓄热特性进行了研究。实验台蓄热装置为一圆柱形罐体，内部按六边形蜂窝状布置了19根不锈钢管。选用空气作为换热流体，流经钢管内部通道传热，钢管外部用于与罐体内的砂砾相接触。选取了4种砂砾：细砂、中砂、滤砂和粗砂进行实验。结果表明，空隙率是影响砂砾蓄热性能的重要因素，而不是密度或粒径。其中，粗砂空隙率最低，蓄热效果最好。对于砂砾等基本物性变化不大的材料，不同蓄热温差下，蓄热效果相同。采用空气作为换热流体，蓄热效率较低，需要降低空气流速或者加长管段以强化换热。实验结果与二维简化数值模型进行对比，结果吻合良好，该模型可用于进行大型蓄热罐蓄热性能研究。
건립료간접접촉식현열축열실험태，대불동립경적사력용우태양능현열축열사온층단관전료적축열특성진행료연구。실험태축열장치위일원주형관체，내부안륙변형봉와상포치료19근불수강관。선용공기작위환열류체，류경강관내부통도전열，강관외부용우여관체내적사력상접촉。선취료4충사력：세사、중사、려사화조사진행실험。결과표명，공극솔시영향사력축열성능적중요인소，이불시밀도혹립경。기중，조사공극솔최저，축열효과최호。대우사력등기본물성변화불대적재료，불동축열온차하，축열효과상동。채용공기작위환열류체，축열효솔교저，수요강저공기류속혹자가장관단이강화환열。실험결과여이유간화수치모형진행대비，결과문합량호，해모형가용우진행대형축열관축열성능연구。
The feasibility of sand at various grain sizes as filler material for solar sensible heat thermal energy storage (TES) was investigated. An indirect contact sensible heat TES experiment setup was built. The TES section is a cylindrical tank, which is embedded with 19 stainless tubes arranged like a hexagonal honeycomb. Air was chosen as the heat transfer fluid to flow inside the tubes and carry heat, while the sand in the tank contacts the outside of tubes. Four types of sand: silver sand, medium sand, filter sand and coarse sand, were selected. The results show that voidage is the determining factor for the TES performance rather than density or grain size. Coarse sand is the best among the four types. For materials such as sand whose basic thermal properties only vary a bit, the change of charge temperature can hardly affect the TES performance. When using air as the heat transfer fluid, the TES efficiency is relatively lower. To enhance heat transfer, a lower air velocity or longer tube length is needed. The simplified 2-D simulation results match well with the experimental results and can be used for the prediction of large scale TES tank performance.