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Science and technology consumption is a new engine to drive economic growth. Under the tide of global digitalization, green low-carbon and intelligent transformation, cutting-edge technologies such as artificial intelligence and new materials are reshaping the consumption mode, accelerating the transformation and iteration of achievements and enhancing the competitiveness of science and technology through the efficient connection between technological innovation and market demand. As the representative of green science and technology consumption, radiation refrigeration technology realizes "no electricity refrigeration" without energy and refrigerant by virtue of more than 95% solar reflectivity and mid infrared emissivity. These products are based on nano materials and structural design, with environmental protection and scene adaptability. They are widely used in outdoor, transportation and low-carbon life scenes, and are accelerating their integration into the mass consumption system.
Expansion of radiation refrigeration technology: a new scheme of automobile energy saving and cooling
The application scenario of radiation refrigeration technology is accelerating to extend to the automotive field. By integrating product systems such as radiant cooling car paint, thermal insulation car film and powder coating, and utilizing the photothermal characteristics of high solar reflectivity and mid infrared high emissivity, the passive cooling without energy drive is realized. The technical scheme not only effectively reduces the body temperature, improves driving comfort and improves the endurance of new energy vehicles, but also has excellent mechanical properties such as moisture resistance and scratch resistance, ensuring the refrigeration efficiency and lasting beauty in complex environments. This move aims to respond to the global high temperature challenge through technological innovation, and significantly enhance the climate adaptability and energy saving level of automotive equipment.
Building envelope Innovation: thermochromic smart window technology
The new energy-saving envelope technology provides a new path for building air conditioning energy conservation by fundamentally reducing the cooling and heating loads of buildings. Intelligent color changing window technology, as a representative, can dynamically adjust the solar radiation and heat absorption in real time according to the building light and heat demand, and realize the intelligent management of heat load. Thermochromic perovskite materials have become the core materials in this field because of their near room temperature color threshold, rapid response, high transmittance and excellent solar radiation regulation ability. The new thermochromic smart window developed based on the structural design inspiration of the medical mask has the advantages of good breathability, high weather resistance and low haze while realizing dynamic thermal regulation, which significantly improves the building energy efficiency and environmental adaptability.
Efficient insulation, transparent but not hot, fully enjoy the natural and transparent beauty.
In the face of the challenges of building energy consumption and global warming, skyroom radiation refrigeration insulation film relies on the international advanced radiation refrigeration technology, and we redefine the cooling method - not only to block the heat, but also to let architecture learn to actively "heat dissipation". Its radiation refrigeration insulation film uses optical grade substrate and innovative nano coating to achieve a perfect balance between high light transmittance and strong insulation. The product is metal free and corrosion-free, fully compatible with 5g signal, and has the functions of anti UV, anti fading and anti glare. Cryogenis · skyroom enables green life with science and technology, significantly improving the comfort and beauty of living while significantly saving energy.
Technology and application of radiation refrigeration textiles
Passive radiation refrigeration technology is accelerating its integration into the wearable field. Based on the dual mechanism of "high reflection+high radiation", this technology can effectively isolate external heat sources and continuously release body surface heat. Different from the traditional post-treatment fabric with cooling additives, it directly integrates radiation cooling nanoparticles into the yarn structure, giving the fiber itself a lasting cooling function. Even after repeated washing, the performance is still stable. This technology is suitable for outdoor operation and sports scenes, and can provide continuous and stable thermal comfort experience in high temperature environment.
