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Sichuan Aishipaier New Material Technology Co., Ltd.
Sichuan Aishipaier New Material Technology Co., Ltd.
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26°C Phase Change Energy Storage Building Materials Can Increase The Weight And Stability Of The Wall

Product Details

Place of Origin: Sichuan, China

Brand Name: A.S.P

Certification: SGS;MSDS

Model Number: ASP-26

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

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Specifications
Highlight:
Product Name:
26°C Energy Storage Buildings PCM
Temperature:
26℃
Density:
Around 0.85
Model:
ASP-26
Color:
White
Feature:
Energy Storage, Cold Storage, Cooling
Product Name:
26°C Energy Storage Buildings PCM
Temperature:
26℃
Density:
Around 0.85
Model:
ASP-26
Color:
White
Feature:
Energy Storage, Cold Storage, Cooling
Description
26°C Phase Change Energy Storage Building Materials Can Increase The Weight And Stability Of The Wall

26°C Phase Change Energy Storage Building Materials Can Increase The Weight And Stability Of The Wall

 

 

Appearance and physical characteristics:

  • In appearance, it may be similar to ordinary building materials in form, such as plates, granules or powders, etc., depending on its application scenario and production process. The color may be white, gray, or other more common hues of building materials.
  • It has a certain hardness and strength to meet the requirements for support and use in building structures. At the same time, its density is usually comparable to that of conventional building materials or optimally adjusted to facilitate handling and installation during building construction. The material is relatively stable at room temperature, but as the temperature approaches the phase transition point of 26°C, its internal structure begins to change.

 

 

Thermal properties:

1. Phase change characteristics

  • Its core feature is the phase transition at 26°C. When the ambient temperature is below 26°C, it exists in a relatively stable state, either in a solid state or in some particular crystal structure. When the ambient temperature gradually rises to 26°C, it absorbs a large amount of heat and begins to transition from one state to another, such as from a solid to a liquid state (or from one crystal structure to another specific form of phase transition, such as a specific form of phase transition), a process that takes advantage of the latent heat of phase change.
  • Due to the large latent heat of phase change, it is able to absorb or release large amounts of heat with small temperature changes. When the ambient temperature is higher than 26°C, it will continue to absorb heat, slowing down the indoor temperature rise; When the ambient temperature drops, it will release the stored heat, which plays a role in regulating the indoor temperature fluctuation and keeping the indoor temperature relatively stable.

2. Thermal conductivity

  • It has the right thermal conductivity to absorb and release heat efficiently without causing heat to be transferred too quickly or too slowly. If the thermal conductivity is too high, the heat may be transferred quickly, and the advantages of phase change energy storage cannot be fully utilized.
  • If the thermal conductivity is too low, efficiency will be affected when absorbing or releasing heat. Its right thermal conductivity allows it to work in tandem with the rest of the building for good thermal management.

 

 

Application Benefits:

1. Energy-saving and comfortable

  • The use of this phase change energy storage material in buildings can significantly reduce the fluctuation range of indoor temperature and reduce the frequent start and stop of temperature control equipment such as air conditioners.
  • For example, during the summer daytime, when the outdoor temperature rises, the material absorbs the heat and the indoor temperature rises slowly, reducing the load of air conditioning and refrigeration; At night, when the outside temperature drops, the material releases heat and keeps the room relatively warm, thus reducing the power consumption of the air conditioner.
  • At the same time, the stable indoor temperature also improves the comfort of living and working.

2. Adjust the indoor microclimate

  • Through the storage and release of heat, it can regulate microclimate factors such as relative humidity in the room.
  • To a certain extent, when the material absorbs heat, it may have a certain adsorption effect on moisture in the air; When heat is released, moisture may be released back into the air, helping to maintain a relatively suitable humidity environment in the room and reducing the adverse effects of dryness or humidity on the human body and indoor objects.

3. Enhance the performance of building structure

  • In addition to the thermal performance advantages, it can also enhance the structural performance of the building to a certain extent. For example, when it is applied to building walls in the form of panels, etc., it can increase the thermal and acoustic insulation effect of the wall, and improve the overall performance and quality of the building.
  • At the same time, its presence in the building structure can also increase the weight and stability of the wall, which may be helpful for some seismic aspects.

 

 

Application scenarios:

1. Residential buildings

  • The application of this material to the walls, roofs, and other parts of the house can effectively improve the indoor thermal environment.
  • For example, laying 26°C phase change energy storage building materials on the roof can reduce the heat of solar radiation into the room and reduce the indoor temperature in summer; In winter, it can absorb solar heat during the day and release it at night to play a certain role in heat preservation. For walls, whether they are exterior or interior, this material can be used to regulate the indoor temperature and improve the comfort of living.

2. Commercial buildings

  • For commercial buildings such as shopping malls and office buildings, a large number of people and equipment will generate heat, and at the same time, the indoor environment comfort requirements are high. The use of 26°C phase change energy storage building materials can better control the indoor temperature and reduce energy consumption.
  • For example, in the central air conditioning system of a shopping mall, this material can help regulate the temperature and reduce the operating cost of the air conditioner, while providing a more comfortable shopping and working environment for customers and employees.

3. Industrial Buildings

  • In some industrial plants with certain temperature requirements, such as food processing workshops, precision instrument production workshops, etc., 26°C phase change energy storage building materials can accurately control the indoor temperature and ensure the stability of the production process and product quality.
  • It absorbs excess heat generated by production equipment and releases heat when the temperature is too low, maintaining the right operating temperature range.

 

 

First aid measures:

  • In case of eye contact, rinse with plenty of water. Skin-to-skin contact: Remove contaminated clothing and shoes. Rinse with soap and water for 15 minutes. Accidental ingestion: Rinse your mouth and send to the hospital as soon as possible.

 

 

Packaging and storage:

  • Wrap:25kg/bag
  • Storage: Store in a dry, cool, ventilated place without sharp objects.

 

 

26°C Phase Change Energy Storage Building Materials Can Increase The Weight And Stability Of The Wall 0

 

26°C Phase Change Energy Storage Building Materials Can Increase The Weight And Stability Of The Wall 1

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