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Sichuan Aishipaier New Material Technology Co., Ltd.
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Premium High-Temperature 110°C Phase Change Materials: Pioneering The Novel Trend In Industrial Energy Conservation And Pinpoint Temperature Regulation, Redefining Efficiency And Precision Standards

Product Details

Place of Origin: Sichuan,China

Brand Name: A.S.P

Certification: SGS;MSDS

Model Number: GYX-N101

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:

17L portable plug in freezer box

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Rectangle portable plug in freezer box

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Polyurethane Foam catering cool boxes

Product Name:
110℃ Phase Change Material
Phase Transition Temperature:
110℃(can Be Customized)
Density:
Around 0.85
Color:
Mostly White
Enthalpy Value:
228.5 KJ/kg
Application Scenario:
Construction Field, Electronic Equipment Field, Industrial Field, Solar Energy Field
Product Name:
110℃ Phase Change Material
Phase Transition Temperature:
110℃(can Be Customized)
Density:
Around 0.85
Color:
Mostly White
Enthalpy Value:
228.5 KJ/kg
Application Scenario:
Construction Field, Electronic Equipment Field, Industrial Field, Solar Energy Field
Description
Premium High-Temperature 110°C Phase Change Materials: Pioneering The Novel Trend In Industrial Energy Conservation And Pinpoint Temperature Regulation, Redefining Efficiency And Precision Standards

Premium High-Temperature 110°C Phase Change Materials: Pioneering The Novel Trend In Industrial Energy Conservation And Pinpoint Temperature Regulation, Redefining Efficiency And Precision Standards

 
 

 

Product Introduction:

  1. 110℃ Phase change materials are functional materials that undergo phase transition at a temperature of about 110℃ and are accompanied by significant heat absorption or release.
  2. Its composition covers organic, inorganic and composite types, through clever molecular structure design and material combination, to achieve phase transition characteristics at specific high temperatures.
  3. In many fields such as industrial production and energy utilization, this material provides an effective solution for temperature regulation and energy management in high temperature environments with its unique thermal properties.

 


Product advantages:
1. Precise high temperature phase change point

  • Precisely starting the phase change process near 110°C enables precise temperature control under high temperature conditions, providing accurate temperature stability for demanding applications such as industrial reactors and high temperature steam systems.

2. High latent heat storage and release

  • During phase transition, a large amount of latent heat can be absorbed or released, and considerable heat can be efficiently stored and adjusted in a relatively compact volume or mass, which greatly improves the utilization efficiency and regulation ability of high-temperature energy, and helps to optimize the energy consumption structure in industrial production.

3. Excellent thermal stability

  • With good high temperature resistance, after repeated phase change cycles of about 110°C, the physical and chemical properties of the material can still maintain high stability, ensure long-term reliable operation, reduce maintenance costs and material replacement frequency.

4. Good thermal conductivity (some materials)

  • Some 110℃ phase change materials have been optimized and have good thermal conductivity, which can quickly absorb or dissipate the heat during the phase change process, so as to more efficiently exchange heat with the surrounding environment, and enhance the timeliness and effectiveness of temperature regulation.

 


Common application cases of the product:
1. Industrial waste heat recovery system

  • In high-energy industrial fields such as steel, chemical industry and glass, a large amount of waste heat of about 110°C is often generated in the production process.
  • By using a heat accumulator made of 110℃ phase change materials, the waste heat is absorbed and stored, and the stored heat is released when needed, which is used to preheat raw materials, heat domestic water or provide heat energy for other low-temperature process links, so as to achieve efficient recovery and reuse of energy and reduce energy costs and carbon emissions of enterprises.

2. High temperature steam generation and transmission

  • In some small distributed energy systems or specific industrial steam demand scenarios, 110℃ phase change materials can be applied to the heat storage module of steam generators.
  • In the low period of electricity consumption, the use of electrical energy to heat the phase change material to more than 110℃ to make it phase change and store heat.
  • At the peak, the phase-change material releases heat to produce steam at 110°C to meet the demand for production or domestic steam, balance the power load, improve the comprehensive utilization efficiency of energy, and ensure the stability of steam supply and temperature accuracy.

3. Thermal management of electronic equipment (special high temperature environment)

  • For some electronic equipment working in extreme high temperature environments, such as some electronic components in the aerospace field, special testing instruments in high temperature industrial environments, when the internal temperature of the equipment rises to about 110°C, the thermal management system using 110°C phase change materials as the heat dissipation medium can rapidly absorb heat.
  • It can prevent the damage of electronic components due to overheating, ensure the normal operation and reliability of the equipment under high temperature conditions, and extend the service life and maintenance cycle of the equipment.

4. High temperature reaction process control

  • In some fine chemical synthesis reactions or material heat treatment processes, the reaction temperature needs to be precisely controlled at about 110°C to ensure product quality and reaction efficiency.
  • 110℃ phase change material can be used as the jacket filler of the reactor or the built-in heat exchange medium, through the heat absorption and release during the phase change process, accurately adjust the temperature of the reaction system, reduce the impact of temperature fluctuations on the reaction results, and improve the consistency and pass rate of the product.
  • It also reduces the energy consumption and complexity of traditional cooling or heating systems.

 

 

Packaging and storage:
1. Packing method

  • 25 kg/bag

2. Storage method

  • Dry, cool and ventilated place without sharp objects.

 

 

Premium High-Temperature 110°C Phase Change Materials: Pioneering The Novel Trend In Industrial Energy Conservation And Pinpoint Temperature Regulation, Redefining Efficiency And Precision Standards 0

 

Premium High-Temperature 110°C Phase Change Materials: Pioneering The Novel Trend In Industrial Energy Conservation And Pinpoint Temperature Regulation, Redefining Efficiency And Precision Standards 1

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