The application of vacuum insulation panels (VIP) in hospitals and cold chain is mainly reflected in equipment such as insulated boxes and refrigerated trucks. Its core advantages include high-efficiency insulation, energy conservation and environmental protection, and lightweight design.
VIP insulated boxes are often used for transporting medical cold chain products such as vaccines and blood products. For instance, a certain multinational pharmaceutical company uses VIP insulated boxes to transport monoclonal antibody drugs and adjusts the refrigeration power in advance in high-temperature areas to ensure that the temperature fluctuation is less than 1℃. This insulated box can maintain a temperature of 2-8℃ for up to 72 hours in a 35℃ environment, meeting the distribution needs of county-level disease control centers 1-2 times a week.
VIP technology is widely applied in equipment such as refrigerated trucks and medical insulated boxes. For instance, a certain biotech company uses VIP materials to transport gene samples at -80℃, and the temperature fluctuation is less than 1℃ after traveling 3,000 kilometers. VIP insulation material is filled with nano-scale silica, with a thermal conductivity of only 0.002W/(m·K), which is 1/10 of that of traditional materials. It can significantly reduce energy consumption and extend the temperature control time.
1. Energy-saving and highly efficient: VIP materials can save 10% to 30% of energy for refrigerators, 30% for the temperature control system of refrigerated trucks, and reduce temperature fluctuations by 50%.
2. Green light: thickness is only 1/10 of the traditional materials, expansion of volume rate at the same time reducing the environmental impact.
3. Stable and reliable: in extreme high or low temperature environment still can keep the temperature stable, such as gene in a case of a sample the entire carriage is less than 1 ℃ temperature fluctuations.
4. Intelligent adapter: combining AI temperature control system can predict the temperature change trend, adjust the refrigeration power ahead of schedule, to optimize temperature control effect.
