功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
14期
1950-1954,1959
,共6页
张毅%张菁燕%黄斌%李东旭
張毅%張菁燕%黃斌%李東旭
장의%장정연%황빈%리동욱
相变材料%导热系数%相变温度和潜热%吸放热性能,有限元分析法
相變材料%導熱繫數%相變溫度和潛熱%吸放熱性能,有限元分析法
상변재료%도열계수%상변온도화잠열%흡방열성능,유한원분석법
PCMs%thermal conductivity%phase change temperature and latent heat%heat absorption-release performance%FEM analysis
相变材料在相变过程中由于材料本身状态的变化,其相变传热过程属于具有移动边界的非线性过程,针对相变材料相变传热过程中非线性传热特征,对月桂酸-癸酸混合脂肪酸相变材料的热性能进行了研究,利用差示扫描量热法(Differential Scanning Cal-orimetry)对相变材料的相变潜热和相变温度进行了测试,利用DRE-2C导热系数测定仪测试了不同摩尔比例脂肪酸相变材料以及相变材料在不同测试温度下的导热系数,通过将无机多孔材料硅藻土和脂肪酸相变材料混合制备了一种无机复合相变材料,并对其导热系数和蓄放热性能进行了测试,利用有限元法对相变材料的相变过程进行了数值模拟。研究表明,脂肪酸相变材料的导热系数和其相变温度呈反比关系,相变材料的相变温度越高,其导热系数越低。对于同一相变材料来说,相变材料的导热系数随着材料温度的升高而升高,硅藻土的掺入明显增加了相变材料的导热系数,复合相变材料蓄放热速率加快,改善了相变材料的传热性能。有限元模拟分析法可以较好地描述相变材料的传热过程,相变材料的导热性能需要强化以提高其蓄放热的速率和频率。
相變材料在相變過程中由于材料本身狀態的變化,其相變傳熱過程屬于具有移動邊界的非線性過程,針對相變材料相變傳熱過程中非線性傳熱特徵,對月桂痠-癸痠混閤脂肪痠相變材料的熱性能進行瞭研究,利用差示掃描量熱法(Differential Scanning Cal-orimetry)對相變材料的相變潛熱和相變溫度進行瞭測試,利用DRE-2C導熱繫數測定儀測試瞭不同摩爾比例脂肪痠相變材料以及相變材料在不同測試溫度下的導熱繫數,通過將無機多孔材料硅藻土和脂肪痠相變材料混閤製備瞭一種無機複閤相變材料,併對其導熱繫數和蓄放熱性能進行瞭測試,利用有限元法對相變材料的相變過程進行瞭數值模擬。研究錶明,脂肪痠相變材料的導熱繫數和其相變溫度呈反比關繫,相變材料的相變溫度越高,其導熱繫數越低。對于同一相變材料來說,相變材料的導熱繫數隨著材料溫度的升高而升高,硅藻土的摻入明顯增加瞭相變材料的導熱繫數,複閤相變材料蓄放熱速率加快,改善瞭相變材料的傳熱性能。有限元模擬分析法可以較好地描述相變材料的傳熱過程,相變材料的導熱性能需要彊化以提高其蓄放熱的速率和頻率。
상변재료재상변과정중유우재료본신상태적변화,기상변전열과정속우구유이동변계적비선성과정,침대상변재료상변전열과정중비선성전열특정,대월계산-계산혼합지방산상변재료적열성능진행료연구,이용차시소묘량열법(Differential Scanning Cal-orimetry)대상변재료적상변잠열화상변온도진행료측시,이용DRE-2C도열계수측정의측시료불동마이비례지방산상변재료이급상변재료재불동측시온도하적도열계수,통과장무궤다공재료규조토화지방산상변재료혼합제비료일충무궤복합상변재료,병대기도열계수화축방열성능진행료측시,이용유한원법대상변재료적상변과정진행료수치모의。연구표명,지방산상변재료적도열계수화기상변온도정반비관계,상변재료적상변온도월고,기도열계수월저。대우동일상변재료래설,상변재료적도열계수수착재료온도적승고이승고,규조토적참입명현증가료상변재료적도열계수,복합상변재료축방열속솔가쾌,개선료상변재료적전열성능。유한원모의분석법가이교호지묘술상변재료적전열과정,상변재료적도열성능수요강화이제고기축방열적속솔화빈솔。
Due to the state change in the phase change process,the heat transfer process of the phase change materials(PCMs) is an non-line process which has a moving interface.For the non-line phase change characteristic of PCMs,the thermal performance of lauric acid and capric acid mixed fatty acid were studied.The phase change temperature and latent heat of the PCMs were measured by differential scanning calorimetry(DSC),DRE-2C thermal conductivity coefficient instrument was used to test the thermal conductivity coefficient of different mole ratio PCMs and PCMs in different test temperature.A kind of composite PCMs made up of inorganic porous materials diatomite and fatty acid PCMs were produced,the thermal conductivity coefficient and the heat absorption-release performance of the materials were tested.Finite element method(FEM) was used for analyzing the heat transfer problems of the PCMs.The results showed that the thermal conductivity coefficient of fatty acid PCMs has an inversely proportional relationship with the phase change temperature,the higher the phase change temperature,the lower the thermal conductivity.Thermal conductivity of the PCMs grow larger as the test temperature increased.By admixing with diatomite,the thermal conductivity coefficient of the PCMs obviously increased,so did the heat absorption and release rate.Heat transfer progress of the PCMs can be well described by FEM analysis,the analysis of FEM showed that the heat conductivity performance of the PCMs should be enhanced to accelerate the phase change rate and frequency.
