輻射冷卻
最新的輻射冷卻新聞
2023年6月9日
分享這篇文章提供的新聞分享這篇文章創建這個報告來幫助你創建一個數十億美元的材料或設備業務的新興被動冷卻市場在1770億年達到2043美元。它也會是非常有用的那些尋求最好的冷卻他們未來的產品和係統。獨特的報告,“被動冷卻材料和設備:新市場2023 - 2043》揭示了總機會。這個市場是複雜的材料和跳躍幾乎四倍子係統現在必需的。58%的市場價值將電子和電氣工程係統包括電動汽車、信息、計算機和電信ICT結構和設備。同樣重要的是,建築市場將占總數的25%(全球變暖,提高生活水平。,emerging nations in tropics) so this breadth of demand de-risks your investment and this report analyses and predicts all of it. Help cool the hotter data centers, vast areas of solar panel, forthcoming 6G Communications, liquid and compressed air long duration electricity storage and by electric vehicles by land, water and air. All appraised in this report revealing your opportunities and gaps in the market. The higher added-value materials emerging vary from aerogels, hydrogels and new polymer blends, annealed pyrolytic graphite, graphene composites, 3D porous boron nitride, hollow silica microspheres and thermal liquids loaded with various metal oxides to increase thermal capacity. Your skills in silicones and polyacrylates are also necessary in increasingly sophisticated forms but that is part of a long list identified. Learn your opportunities in the next generations such as Passive Daylight Radiative Cooling PDRC and Insulated Cooling with Evaporation and Radiation ICER. After all, the report calculates strong growth in reinvented conductive, convective and phase change passive cooling but even faster growth in radiative cooling including the new metamaterial and advanced optronics approaches as well as that PDRC and ICER. Key Topics Covered: 1.1 Purpose of this report 1.2 Methodology of this analysis 1.3 The big picture 1.5 Opportunities for passive cooling materials 2023-2043 1.6 Maturity of passive cooling technologies vs new active options 2023, 2033, 2043 1.7 Market forecasts 2023-2043 in 28 lines 1.8 Passive cooling roadmap by market and by technology 2022-2031 1.9 Passive cooling roadmap by market and by technology 2032-2043 2. Current situation, changing needs, new options 2023-2043 2.1 Cooling needs increase for many reasons 2023-2043 2.2 Cooling people and things: the active and passive cooling toolkit 2.3 Some emerging opportunities set the scene 2.4 Examples of both active and passive cooling needed in a given system 2.5 Growing problems create large passive cooling opportunities in buildings 2.6 New passive cooling must assist active cooling of buildings, refrigerators, freezers, vehicles 2.7 Electric vehicles land, water and air create major new needs for thermal management 2.8 New large batteries need better thermal management or lower cost: annotated Ragone plot by technologies and Henkel examples 2.9 Cooling power-hungry power electronics for grids, microgrids, telecoms. 2.10 Thermal insulation for heat spreaders and other passive cooling 3. Passive radiative and heat sink radiative/ convective cooling: emerging materials and devices toolkit 2023-2043 3.1 Radiative cooling and heat sink convection or radiative cooling 3.2 Radiative cooling 3.4 Other emerging forms of radiative cooling 3.5 SWOT appraisal of passive radiative cooling 4. Passive conductive cooling: emerging materials and devices toolkit 2023-2043 4.1 Overview: adhesives to thermally conductive concrete 4.2 Important considerations when solving thermal challenges with conductive materials 4.3 Thermal Interface Material TIM 4.4 Polymer choices: silicones or carbon-based 4.5 Thermally conductive carbon-based polymers: targetted features and applications 4.6 Quantum dot cooling: 3D BN network in white LEDs 5. Passive phase change cooling: evaporative, heat pipe, solid state: emerging materials and devices toolkit 2023-2043 5.1 Overview 5.3 Closed evaporative cooling: heat pipes 5.4 Open evaporative cooling: hydrogels and open wicking 5.5 Wicking reinvented for tents 5.6 Phase change cooling by melting solids and waxes for battery, solar panel and apparel cooling 5.7 Phase change material enhanced radiative cooling 6. Metamaterial and advanced photonic cooling: emerging materials and devices toolkit 2023-2043 6.1 Metamaterials 6.3 Advanced photonic cooling and prevention of heating 7. Passive multi-mode multipurpose integrated cooling 7.1 Overview
輻射冷卻常見問題(FAQ)
輻射冷卻是何時成立的?
輻射冷卻成立於2017年。
輻射冷卻的總部在哪裏?
輻射冷卻的總部位於博爾德。
輻射冷卻的競爭對手是誰?
輻射冷卻的競爭對手包括SkyCool係統和5。
比較輻射冷卻和競爭對手
SkyCool係統是一種清潔能源公司專注於節能解決方案。它提供冷卻解決方案。發展屋頂,輻射sky-cooling太陽能板,提高了空調和製冷係統。公司成立於2016年,總部位於山景城,加州。
熱量逆超材料技術發展可持續能源管理。它提供冷卻技術,將熱量從室外表麵,被幾個行業。公司成立於2017年,位於伊薩卡島,紐約。
希亞材料開發、生產和銷售塗料和複合材料的太陽能發電,節能LED照明,溫室,並顯示。希亞使客戶生成或節省更多的能量和改善產品的二氧化碳排放量以不同的方式。該公司成立於2006年,位於Geleen荷蘭。
塗漆製造和零售可持續塗層旨在幫助改變房屋。公司提供油漆的牆壁、天花板、廚房、浴室、木材、外殼等等。這家公司的總部設在英國倫敦,成立於2020年。
工業空氣中心(IAC)提供工業壓縮空氣設備,維修服務和能源管理係統。它提供產品,如便攜式壓縮機,內閣冷卻,空氣幹燥器和過濾、工業泵、冷卻裝置,和許多更多。它成立於1991年,位於Jeffersonville印第安納州。
壓縮空氣服務銷售和服務工業空氣壓縮機,烘幹機,並完成空氣係統商店、工廠、工廠等等。壓縮空氣服務成立於1985年,位於Norristown賓夕法尼亞。