Phase-transformation Heat Pipe

The phase-transformation energy storage heat pipe makes use of plenty of latent heat absorbed (released) by phase-transformation materials during the process of phase transformation to store and release the heat to achieve the goal of the reduction of the controlled components' temperature fluctuation.

Phase-transformation Heat Pipe
ltem Performance Parameter
Phase-transformation Temperature/℃ -30~150℃
Phase-transformation Latent Heat/J/g ≥200
Phase-transformation Form Solid-solid
Heat conductivity coefficient/w/m .k >0.5~3
Expansion Rate/% <3
ln-orbit Quantity >100
Accumulated working Time >50000h
Supply cycle 2 months

Features

  • Efficient Energy Storage:

    • Utilizes phase-change materials to store thermal energy during phase transitions

    • Provides consistent thermal regulation by absorbing and releasing heat

  • High Thermal Conductivity:

    • Rapid heat transfer capabilities ensure efficient thermal management

    • Maintains optimal operating temperatures for sensitive components

  • Thermal Stability and Control:

    • Ensures stable temperature control by leveraging the latent heat of phase transitions

    • Ideal for applications requiring precise thermal regulation

  • Versatile Applications:

    • Suitable for renewable energy systems, such as solar thermal energy storage

    • Effective in industrial processes and electronics cooling where efficient heat transfer is critical

  • Durable and Reliable:

    • Constructed with robust materials to withstand demanding operational environments

    • Ensures long-term performance and reliability

  • Environmentally Friendly:

    • Enhances energy efficiency and reduces reliance on traditional energy sources

    • Contributes to sustainable and eco-friendly thermal management solutions

Advantage

  • Advanced Energy Storage:

    • Leverages phase-change materials for efficient thermal energy storage

    • Absorbs and releases heat during phase transitions to provide consistent thermal regulation

  • Superior Thermal Conductivity:

    • Rapid heat transfer capabilities for effective thermal management

    • Maintains optimal temperatures for sensitive components and systems

  • Precision Thermal Control:

    • Ensures stable and precise temperature control through latent heat utilization

    • Ideal for applications requiring consistent thermal regulation

  • Wide Range of Applications:

    • Perfect for renewable energy systems like solar thermal storage

    • Effective in industrial processes and electronics cooling

  • Robust and Reliable Design:

    • Constructed with high-quality materials to ensure durability and long-term performance

    • Capable of withstanding demanding operational conditions

  • Eco-Friendly Solution:

    • Enhances energy efficiency, reducing dependence on conventional energy sources

    • Promotes sustainable and environmentally friendly thermal management practices

  • Quality Assurance:

    • Subjected to rigorous testing to ensure high performance and reliability

    • Meets the highest standards of thermal management and energy efficiency

Choose us

  • We have extensive experience in the research and development of satellite integration and platform;

  • We have extensive experience in the research and development of remote sensing, communication, and navigation electronic equipment;

  • We have extensive experience in establishing research and production conditions;

  • We have extensive experience in the development of numerical control, testing, and data processing systems;

  • We have a large number of satellites to name;