制冷与空调(四川)
製冷與空調(四川)
제랭여공조(사천)
REFRIGERATION & AIR-CONDITION
2014年
5期
524-527
,共4页
廖星宇%徐龙%沈袁%王军%龙恩深
廖星宇%徐龍%瀋袁%王軍%龍恩深
료성우%서룡%침원%왕군%룡은심
相变材料%导热系数%建筑节能
相變材料%導熱繫數%建築節能
상변재료%도열계수%건축절능
phase change material%thermal conductivity%building energy conservation
针对相变材料在实际应用过程中交替存在升温液化和降温固化的复杂传热过程,采用JW-Ⅲ建筑材料热流计式导热仪,分别对升温和降温过程中处于固态、混合态、液态的新型复合相变材料导热性能进行了测试和分析。研究结果表明,复合相变材料在加热和冷却过程中的导热系数随温度的变化存在明显的规律性差异,导热系数在混合态时差值达到20%;升温过程中,复合相变材料在混合态和液态时的导热系数值相差不大,但与固态时相比有明显减小;降温过程中,在液-固相变的过程中导热系数随温度减小而增大,有利于加速相变材料的固化。
針對相變材料在實際應用過程中交替存在升溫液化和降溫固化的複雜傳熱過程,採用JW-Ⅲ建築材料熱流計式導熱儀,分彆對升溫和降溫過程中處于固態、混閤態、液態的新型複閤相變材料導熱性能進行瞭測試和分析。研究結果錶明,複閤相變材料在加熱和冷卻過程中的導熱繫數隨溫度的變化存在明顯的規律性差異,導熱繫數在混閤態時差值達到20%;升溫過程中,複閤相變材料在混閤態和液態時的導熱繫數值相差不大,但與固態時相比有明顯減小;降溫過程中,在液-固相變的過程中導熱繫數隨溫度減小而增大,有利于加速相變材料的固化。
침대상변재료재실제응용과정중교체존재승온액화화강온고화적복잡전열과정,채용JW-Ⅲ건축재료열류계식도열의,분별대승온화강온과정중처우고태、혼합태、액태적신형복합상변재료도열성능진행료측시화분석。연구결과표명,복합상변재료재가열화냉각과정중적도열계수수온도적변화존재명현적규률성차이,도열계수재혼합태시차치체도20%;승온과정중,복합상변재료재혼합태화액태시적도열계수치상차불대,단여고태시상비유명현감소;강온과정중,재액-고상변적과정중도열계수수온도감소이증대,유리우가속상변재료적고화。
For complex heat transfer of heating liquefaction and cooling solidification alternately occurring in phase change material (PCM) practical application process, thermal conductivity of one new type composite PCM at its solid state, mixed state and liquid state of heating and cooling process was tested and analyzed, by means of JW-Ⅲ heat flow meter typeconductometer of building materials. The results show that the thermal conductivity of this composite PCM behaves obvious regular difference with temperature change in its heating and cooling process.Meanwhile, the difference reaches 20% at the mixed state.The difference of its thermal conductivity derived from the mixed state and liquid state is small for heating process, which is much less than that at solid state.In addition, its thermal conductivity increases with decline of the temperature for cooling process of liquid-solid phase change, which is benefit for PCM solidification quickly.