37 ℃ Building Phase Change Energy Storage PCM: Pioneering PCM For Creating A New Era Of Building Temperature Regulation

Product Introduction:

• Its working principle is similar to that of common phase change energy storage materials. When the ambient temperature reaches or approaches 37 ℃, the material will transform from a solid state to a liquid state, absorbing a large amount of heat; When the ambient temperature is below 37 ℃, the material will transition from liquid to solid, releasing the previously stored heat.
• This unique performance makes 37 ℃ building phase change energy storage materials have great potential for application in the field of construction.

Product Features:
--Has good thermal stability.

• During the repeated phase transition process, the chemical and physical properties of the material remain relatively stable and can withstand multiple temperature cycles without significant performance degradation. This makes the material have a longer service life and can be applied in buildings for a long time, ensuring the energy-saving and temperature regulation effects of the building.
• The phase transition temperature of the material is relatively stable and will not undergo significant changes due to long-term use or environmental factors, ensuring its reliability in building temperature control.

Scope and Scenarios of Product Use - Construction Field:
--Wall insulation

• In some buildings that require high indoor temperature stability, such as precision instrument laboratories and high-end residences, 37 ℃ phase change energy storage materials are added to the wall materials. When the external temperature rises during the day, the material absorbs heat and undergoes a phase transition to prevent the indoor temperature from rising too quickly; When the temperature drops at night, the material releases heat to maintain a relatively stable indoor temperature.
• For example, in some new buildings in the Nordic region, this phase change energy storage wall material is used, effectively reducing heating energy consumption in winter.