Composite phase change energy storage temperature control and adjustment material for high stability building
Development prospects of building phase change energy storage materials:
1. Technological innovation
- Researchers are constantly exploring new phase change material formulations and preparation processes to improve the potential heat of phase change, thermal conductivity, stability and other key properties of materials.
- For example, the modification of phase change materials through nanotechnology is expected to further improve their energy storage efficiency and thermal response speed.
- At the same time, new packaging technologies will continue to emerge to better protect phase change materials and extend their service life.
2. Performance improvement
- Intelligence is also a development direction of building phase-change energy storage materials.
- Future phase change energy storage materials may have the ability to automatically adjust energy storage and release functions according to environmental temperature, humidity, light and other factors to achieve more accurate building temperature control.
Advantages of materials:
1. Energy saving and consumption reduction
- In a building's Heating Ventilation and Air Conditioning (HVAC) system, phase-change energy storage materials can store energy during periods of low electrical load, such as at night, when electricity prices are lower.
- The application of phase-change energy storage materials in building enclosures (such as walls, roofs, floors) can effectively reduce heat transfer.
2. Temperature regulation
- The phase-change energy storage material can automatically adjust the indoor temperature according to the change of the ambient temperature, so that the indoor temperature is relatively stable.
3. Environmental sustainability
- Many phase change energy storage materials are themselves environmentally friendly, especially some organic phase change materials derived from renewable resources.
