Product Details
58°C Phase Change Energy Storage Building Materials Can Effectively
Absorb Heat And Reduce Room Temperature In Summer
Appearance and physical characteristics:
- It may take on different forms, such as being made into a powder
that can be mixed with other building materials to enhance the
overall thermal properties; It can also be in the form of blocks or
plates, which is used for direct installation on the walls, roofs
and other parts of the building. The exterior color is usually an
inconspicuous neutral color, such as off-white or beige, in order
to harmonize with the overall style of the building.
- In terms of physical properties, it has a certain mechanical
strength, and when used in the form of plates, it can withstand
certain pressure and external force, and is not easy to break or
damage, ensuring stability and durability in the building
structure. Its density is carefully designed so that it is neither
too heavy to increase the building load, nor too light to affect
its installation and use in the building.
- At the same time, it has good corrosion resistance and durability,
and can maintain its stable performance in the building environment
for a long time, and is not easily eroded by external environmental
factors such as moisture, chemicals, etc.
Thermal Properties:
1. Phase change characteristics
- The phase change temperature of this material is 58°C. When the
ambient temperature is below 58°C, it is in a relatively stable
state and may appear solid or have a specific microstructure. When
the temperature gradually rises to 58°C, it undergoes a phase
change and begins to absorb a large amount of heat, usually from a
solid to a liquid state (or other forms of phase change, such as a
shift in crystal structure, etc.). This phase change process is
reversible, and when the temperature drops, it releases the stored
heat again and returns to its original phase. This property allows
it to efficiently store and release heat at temperatures close to
58°C, thus regulating the temperature of the surrounding
environment.
- The latent heat of the phase change is large, which means that it
is able to absorb or release large amounts of energy around 58°C.
For example, in some specific building environments, when the
indoor temperature is close to 58°C for various reasons, the
material can quickly absorb heat, slow down the rise of indoor
temperature, and prevent the indoor temperature from becoming too
high. When the temperature drops, it can release the stored heat,
maintain the indoor temperature relatively stable, and reduce the
fluctuation of the indoor temperature.
2. Thermal conductivity
- Its thermal conductivity is in the right range. If the thermal
conductivity is too high, when the temperature reaches the phase
transition point, the heat will be transferred to the inside of the
material too quickly and be absorbed, which may cause the indoor
temperature to drop too quickly and affect the comfort of the room;
If the thermal conductivity is too low, the rate of heat absorption
and release during the phase change process will be too slow to
regulate the indoor temperature in a timely and effective manner.
- By precisely controlling the thermal conductivity, the material is
able to absorb and release heat at the right time, working in
tandem with the rest of the building for good thermal management.
Application Advantages:
1. Strong temperature regulation ability
- The application of this 58°C phase change energy storage building
material in the building can effectively regulate the indoor
temperature. It absorbs excess heat indoors during the day, and
when the outside temperature is high, approaching or reaching 58°C,
the material comes into play to absorb the heat so that the indoor
temperature does not get too high. At night or when the temperature
is low, it can release heat, so that the indoor temperature will
not drop too quickly, reduce the fluctuation of indoor temperature,
and provide a more stable and comfortable indoor environment for
residents or users.
2. Remarkable energy-saving effect
- Due to its good phase change energy storage characteristics, it can
effectively reduce the energy consumption of buildings. In the
summer, it can reduce the operating time and energy consumption of
refrigeration equipment such as air conditioners, because when the
indoor temperature rises, the material is able to absorb heat,
lowering the indoor temperature, thus reducing the need for air
conditioning refrigeration. In winter, it can assist the heating
system, releasing heat when the temperature drops, reducing the
energy consumption of the heating equipment. It is estimated that
the use of this material can reduce the energy consumption of
buildings by around 20 to 30 percent, with significant energy
savings.
3. Adapt to a variety of scenarios
- 58°C phase change energy storage building materials have strong
adaptability and can adapt to climatic conditions and building
types in different regions. In some areas with hot climate, it can
effectively absorb heat and reduce indoor temperature during high
temperatures in summer; In some areas with a large temperature
difference between day and night, it can release heat at night and
play a certain role in heat preservation. Moreover, it can be
applied to various building types, such as residential, commercial
buildings, industrial buildings, etc., to meet the temperature
regulation and energy-saving needs of different buildings.
Application Scenarios:
1. Solar Buildings
- In some buildings that utilize solar energy, equipment such as
solar collectors may raise indoor temperatures during the day. When
the temperature approaches 58°C, the PCS building material can
absorb excess heat and store it.
- When solar energy is insufficient at night or on cloudy days, it
can release heat, maintain indoor temperature stability, improve
the efficiency of solar energy, and reduce dependence on other
energy sources.
2. High-temperature industrial buildings
- In some high-temperature industrial production environments, such
as some metallurgical workshops, glass manufacturing workshops,
etc., the indoor temperature may be high.
- When the temperature reaches or approaches 58°C, it can absorb
heat, reduce indoor temperature, and provide workers with a
relatively comfortable working environment, while reducing
dependence on ventilation and air conditioning systems and reducing
energy costs for industrial production.
3. Special storage buildings
- For some storage buildings that need to store special items within
a specific temperature range, such as chemical raw material
warehouses, this phase change energy storage building material can
play a role in regulating temperature.
- When the temperature in the warehouse approaches 58°C due to
changes in the outside temperature, the material absorbs the heat
and prevents problems such as deterioration or chemical reactions
due to excessive temperatures.
- At the same time, when the temperature is suitable, it releases
heat to maintain a relatively stable temperature in the warehouse,
reducing the dependence on traditional temperature control
equipment and reducing storage costs.
Packaging and storage:
- Wrap:25kg/bag
- Storage: Store in a dry, cool, ventilated place without sharp
objects.