化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2015年
1期
54-60
,共7页
郭少朋%高维%赵军%安青松
郭少朋%高維%趙軍%安青鬆
곽소붕%고유%조군%안청송
可再生能源%相变材料%传热%间接式移动蓄热%赤藻糖醇
可再生能源%相變材料%傳熱%間接式移動蓄熱%赤藻糖醇
가재생능원%상변재료%전열%간접식이동축열%적조당순
renewable energy%phase change material%heat transfer%indirect contact mobilized thermal energy storage%erythritol
针对回收工业余热用于分散式用户供热的应用背景,本文设计搭建了间接式移动蓄热器实验系统,选取了赤藻糖醇作为相变材料,对相变材料进行了示差扫描量热法和过冷度的测试分析,获得了相变材料较为准确的蓄热性能参数和过冷度情况。此外,本文还通过对实验数据的整理及分析总结了间接式蓄热器内相变材料在充放热过程中的温度变化情况,在此基础上分析了蓄热材料的熔化和凝固规律。实验结果表明:在相变材料的熔化过程中,蓄热器上部相变材料熔化较快,下部相变材料熔化较慢;在相变材料的凝固过程中,蓄热器下部相变材料凝固较快,上部相变材料凝固较慢。水平方向上材料熔化凝固情况基本一致。通过本文的实验研究,初步掌握了间接式移动蓄热器相变内材料的熔化凝固情况,并由此分析了间接式移动蓄热器优化的方向,为该技术的进一步完善奠定了基础。
針對迴收工業餘熱用于分散式用戶供熱的應用揹景,本文設計搭建瞭間接式移動蓄熱器實驗繫統,選取瞭赤藻糖醇作為相變材料,對相變材料進行瞭示差掃描量熱法和過冷度的測試分析,穫得瞭相變材料較為準確的蓄熱性能參數和過冷度情況。此外,本文還通過對實驗數據的整理及分析總結瞭間接式蓄熱器內相變材料在充放熱過程中的溫度變化情況,在此基礎上分析瞭蓄熱材料的鎔化和凝固規律。實驗結果錶明:在相變材料的鎔化過程中,蓄熱器上部相變材料鎔化較快,下部相變材料鎔化較慢;在相變材料的凝固過程中,蓄熱器下部相變材料凝固較快,上部相變材料凝固較慢。水平方嚮上材料鎔化凝固情況基本一緻。通過本文的實驗研究,初步掌握瞭間接式移動蓄熱器相變內材料的鎔化凝固情況,併由此分析瞭間接式移動蓄熱器優化的方嚮,為該技術的進一步完善奠定瞭基礎。
침대회수공업여열용우분산식용호공열적응용배경,본문설계탑건료간접식이동축열기실험계통,선취료적조당순작위상변재료,대상변재료진행료시차소묘량열법화과랭도적측시분석,획득료상변재료교위준학적축열성능삼수화과랭도정황。차외,본문환통과대실험수거적정리급분석총결료간접식축열기내상변재료재충방열과정중적온도변화정황,재차기출상분석료축열재료적용화화응고규률。실험결과표명:재상변재료적용화과정중,축열기상부상변재료용화교쾌,하부상변재료용화교만;재상변재료적응고과정중,축열기하부상변재료응고교쾌,상부상변재료응고교만。수평방향상재료용화응고정황기본일치。통과본문적실험연구,초보장악료간접식이동축열기상변내재료적용화응고정황,병유차분석료간접식이동축열기우화적방향,위해기술적진일보완선전정료기출。
Based on the application background of supplying heat for distributed users with recovered industrial waste heat,the experimental system of indirect contact mobilized thermal energy storage was designed and set up. Erythritol was chosen as the phase change material. The accurate parameters of heat storage performance and super-cooling of erithritol were obtained by testing and analyzing with DSC and super-cooling technology. Besides,the temperature variation of phase change material in indirect contact container during the charging and discharging processes was summarized by collecting and analyzing the experimental data. Melting and solidification of phase change material was studied. The phase change material on the top melted faster than that at the bottom during the charging process. However,the phase change material at the bottom solidified faster than that on the top during the discharging process. There was no distinct difference of melting and solidification along the horizontal direction. With the experimental study in this paper,melting and solidification of phase change material inside the indirect contact mobilized thermal energy storage container were investigated. The direction of optimizing the indirect contact mobilized thermal energy storage container was also analyzed,laying the foundation for its further improvement.