Product Details
Place of Origin: Sichuan,China
Brand Name: A.S.P
Certification: SGS;MSDS
Payment & Shipping Terms
Minimum Order Quantity: Negotiable
Price: Negotiable
Packaging Details: Bags, boxes, or containers(can be customized)
Delivery Time: 5-8 Work Days
Payment Terms: T/T
Name: |
Energy Storage Buildings PCM |
Color: |
White |
Form: |
Powder |
Density: |
Around 0.85 |
Phase Transition Temperature: |
26℃,37℃,45℃,58℃,120℃(can Be Customized) |
Material Property: |
Safe, Environmentally Friendly And Non-toxic |
Name: |
Energy Storage Buildings PCM |
Color: |
White |
Form: |
Powder |
Density: |
Around 0.85 |
Phase Transition Temperature: |
26℃,37℃,45℃,58℃,120℃(can Be Customized) |
Material Property: |
Safe, Environmentally Friendly And Non-toxic |
Green Pioneer Building Energy Storage PCM:Zero Pollution And Energy Saving To Help The Journey Of Low-Carbon Buildings
Working principle of building energy storage phase change materials:
The working principle of building energy storage phase change materials is based on the phase change process of matter. When the ambient temperature is higher than the phase change temperature of the phase change material, the material will change from a solid to a liquid state, absorbing a large amount of heat in the process.
When the ambient temperature is lower than the phase transition temperature, the material changes from liquid to solid, and at the same time, heat is released.
During this phase transition, the material is able to absorb or release tens or even hundreds of times more heat than when the temperature of its single phase changes.
Product quality features:
1. High energy storage density
Phase change energy storage materials can absorb or release a lot of heat during the phase change process, and their heat storage density is much higher than that of traditional building materials, such as concrete and bricks.
This means that at the same volume or mass, phase-change energy storage materials can store more energy.
2. Good thermal stability
In the process of multiple phase change cycles, the properties of the material remain stable, and energy can be effectively stored and released for a long time.
There is no degradation or failure of performance due to frequent phase transitions.
3. Suitable phase change temperature
The appropriate phase change temperature can be selected according to the use needs and environmental conditions of the building.
For example, in the summer, the phase transition temperature can be selected in a range close to the upper limit of the indoor temperature, in order to absorb heat in time when the temperature rises.
In winter, the phase change temperature can be chosen to be in a range close to the lower limit of the indoor temperature in order to release heat when the temperature drops.
4. Good compatibility with building materials
Can be combined with a variety of building materials, such as gypsum board, concrete, wallboard and so on.
This compatibility enables phase-change energy storage materials to be easily applied to different parts of the building to achieve overall energy saving of the building.
Matters needing attention:
1. In case of eye contact
Please rinse with plenty of water.
2. If in contact with skin
Please remove contaminated clothing and shoes and rinse with soap and water for 15 minutes.
3. If ingested
Gargle repeatedly and get to the hospital as soon as possible.
