The key of thermal heat storage is the utilization of thermal heat storage material with good performance.
蓄热技术的关键是高性能蓄热材料的选择和应用。
In this paper, the process of preparing a kind of high quality composite heat storage material was established, following a series of experimental studies.
本文在综述了大量参考文献的基础上,制定了一套生产一种新型高性能复合蓄热材料的制备工艺,并进行了一系列实验研究。
But the solar energy has intermittent and instability characteristics, so the heat storage material must be used to improve the utilization of solar energy to reduce the cost.
但是太阳能具有间歇性和不稳定性的特点,必须使用蓄热材料来提高太阳能的利用率、降低使用成本。
The heat storage principle and material of electric heat solid heat storage device is introduced, and heat transfer analysis is made on the heating and discharging.
介绍了电热固体蓄热装置的蓄热原理和蓄热用材料,对加热过程和放热过程进行了传热分析。
Mg-based hydrogen storage material is very promising for hydrogen storage and heat storage application because of its thermal capacity and heat effect.
镁基储氢材料储氢容量大,并且吸放氢过程伴随一定的热效应,从而在氢气的存储和热能存储等方面具有潜在的应用前景。
The thermal properties of cool storage material include freezing and melting point, freezing and melting latent heat during the phase change process were investigated.
通过实验研究了空调蓄冷材料的凝固温度、融解温度、凝固潜热和融解潜热等热学性能。
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.
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。
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.
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。
In the vertical direction the temperature gradient of surface layer is the greatest. The thermophysical properties of the facial material play an important part in the heat storage of the kiln car.
在窑车垂直方向上,靠近车台面处的温度梯度最大,车台面衬料的物性对窑车蓄热量的大小起着重要的作用。
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.
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。
Experimental analysis on heat-storage and discharge characteristics with form-stable phase change material;
运用显热容法对相变胶囊在外部对流换热条件下的蓄放热特性进行了分析。
Experimental analysis on heat-storage and discharge characteristics with form-stable phase change material;
运用显热容法对相变胶囊在外部对流换热条件下的蓄放热特性进行了分析。
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