综述了近年来相变储能材料的研究和应用新进展。
New progress on research and application of phase change energy storage materials in recent years are summarized.
采用可适用于工业生产的球磨法制备氧化锆-硬脂酸系相变储能材料。
ZrO2-stearic acid phase change energy storage materials was prepared by the method of high energy milling, which is widely used in industry production.
并通过自行设计的检测设备检测该相变储能材料的调温性能、稳定性和节能效果。
And the phase change energy storage material was tested on its performance of temperature adjustment, stability and energy-saving with self-designed testing device.
复合定形相变储能材料(P CM)是一种新型的环保节能材料,具有重要意义。
The shapely phase change material(PCM) was a new type of environmental material for energy-storing with far-reaching significance.
同时,选取可使相变储能材料与结构功能一体化的多孔介质——膨胀珍珠岩作为石蜡的储能载体。
Meanwhile, selecting porous medium expanded perlite which makes phase change materials and structure into integration-as a carrier of paraffin.
检测结果表明,含石蜡相变储能材料相对于普通材料具有优越的调温效果、节能效果,稳定性良好。
The test result demonstrates that compared with normal materials the olefin phase change energy storage material has excellent effect of thermoregulation, energy-saving and stability.
测试结果表明,该储能材料具有较高的相变潜热和较好的热稳定性,因此可被应用于储能和热能回收系统中。
The results show that the material has higher latent heat and better thermal stability, so it can be used in thermal energy storage and heat recovery system.
介绍了相变储能复合材料的研究结果,包括制备方法、储能性能和耐久性能等;
The research results of phasechanging composite material, including the fabrication method, its energy storage performance and durability were introduced.
摘要相变材料是一种新型储能材料,其热学性质是决定相变材料应用领域和应用效果的关键因素。
As phase change material (PCM) is a new kind of material for energy storage, its thermal properties are key factors which determine the application areas and actual effect.
因此,研制能够结合相变材料和显热材料二者优点,克服二者缺点的新型复合储能材料已经成为人们研究的热点和难点。
So it is the focus and difficulty to develop a new type of composite energy storage material what can integrate advantages of PCMs and sensible heat material and get rid of their disadvantages.
聚乙二醇相变材料是一类相变焓较高、热滞后效应低的储能材料。
Polyethylene glycol (PEG) is a kind of phase change materials with high enthalpy and low thermal hysteresis.
阐述了相变材料储能装置的优点。
研究结果表明,所制备的固态相变材料具有很好的储能效果和热稳定性。
The results show that the solid phase change materials prepared by our laboratory have good energy storage effect and thermal stability.
但是目前储能技术中应用较多的两大类储能材料——相变材料和显热材料,均存在一些缺点。
Phase change materials (PCMs) and sensible heat materials applied in the heat energy storage technique have some fatal disadvantages.
结果表明:采用化学键联法制得的相变材料具有更小、更稳定的微相区,并且是通过固—固相变来储能和释能的;
The results show that the PCMs prepared by chemical reactions had smaller microphase domain and appeared to be solid-solid phase change materials.
基于相变材料熔化和凝固过程的相变潜热储能系统适用于太阳能加热、电力的‘削峰填谷’、热能回收。
Latent heat storage system based on phase change materials' (PCMs) melting and freezing is particularly suitable for solar energy heating, peak-shift of electrical demand and heat recovery.
相变材料(PCM)由于具有储能和控温能力,近年来成为节能应用、体系控温、红外隐身等领域的研究热点。
In recent years, phase change materials (PCM) become hot in the research of energy conservation, temperature controlling, infrared stealth and so on because of its energy storage ability.
“相变储能”、“超导磁储能”、“超级电容器”、“锂离子电池”、“储能材料”等是储能技术领域的重要研究主题。
We found that phase change energy storage, superconducting magnetic energy storage, supercapacitor, lithium ion battery and energy storage materials are major research topics in this field.
该研究拓展了新型相变储能复合材料制备研究的领域,同时也为推进其更广泛的研发应用奠定了基础。
This work set a new direction for preparation of composite phase change energy storage materials, and laid the groundwork for practical applications in the future.
研究了在储能领域使用较为广泛的相变材料的种类及其特点。
The performance and types of phase change materials used in the thermal storage were studied.
本发明为一种多孔石墨基相变储能复合材料及其制备方法。
The present invention relates to one kind of composite porous graphite base phase change energy-storing material and its preparation process.
介绍了相变材料的种类及各类相变材料特点,并对各类相变材料的性能、储能机理和优缺点进行了讨论;
The species and characteristics of phase change materials are introduced, and the performance, energy storage mechanism, merits and faults of all kinds of phase change materials are discussed.
低温定形相变材料是应用于建筑物墙体中的理想储能材料,它可增加墙体的蓄热能力,节约建筑能耗。
The lower temperature shape stabilized phase change material is an ideal material for accumulation of energy used in building wall. It can increase heat storage capacity of the wall and save energy.
本发明采用多孔石墨基相变储能复合材料微粉和钢管等材料制作相变储能单元。
The invention adopts porous graphite-base phase change energy-accumulating composite material powder and steel tube to make phase change energy-accumulating cell.
对该研究领域存在的一些问题进行了总结,并对相变储能建筑材料今后的研究方向提出了建议。
According to the progress of related research, some problems are pointed out and further study directions are provided.
详细介绍了各种相变材料的制备方法、性能和应用,并且展望了高分子固-固相转变储能材料的发展前景。
The preparation methods, properties and the applications of these phase transition materials were summarized in detail. The prospects of further research in this field were also given.
经过100次相变循环试验,表明相变储能陶粒表面保持完好,相变材料的质量损失率均在5%以下。
The surfaces of all the phase change energy storage ceramsites were intact after 100 cycles of phase change, and the loss rate of the mass of phase change materials were below 5%.
介绍储能相变材料及其分类,讨论相变材料在建筑供暖空调领域的应用研究。
Introduced the classification of phase-change energy-storage materials. Discussed the application research of phase-change materials in building, heating, ventilating, and air-conditioning fields.
介绍储能相变材料及其分类,讨论相变材料在建筑供暖空调领域的应用研究。
Introduced the classification of phase-change energy-storage materials. Discussed the application research of phase-change materials in building, heating, ventilating, and air-conditioning fields.
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