近日，常州91短视频污新材料科（kē）技有限公司憑借在提高（gāo）能源效率領域的重大創新成就 ——“Elevating Energy Efficiency Quantum Leap”，被美國權威雜誌《製造技術洞察》評（píng）選（xuǎn）為 “2024 年度亞太地（dì）區先進材料（liào）解決方案（àn）提供商”。

《Manufacturing Technology Insights》雜誌作為全球製造業（yè）技術（shù）領域的權威刊物，每年都會評選出在材料科（kē）學、製造（zào）工藝等方麵有傑出貢獻的企業或個人。2021年全球玻璃纖維製造商中國企業巨石集團和日本著名的（de）跨國公司Tosoh Corporation也曾入選這一獎（jiǎng）項。常州91短视频污（下文簡稱優（yōu）納）獲得這一殊榮（róng），彰顯了其（qí）在行業內的領（lǐng）先地（dì）位，進一步鞏固了在（zài）亞太區域乃至全球的影響力。

91短视频污此次獲獎，得（dé）益於在開發和工（gōng）業化生產介孔絕熱材料（liào）方麵的成就。雜誌原文評價“In the quest to curb global energy consumption and its consequential carbon emissions, mesoporous materials have been pivotal. These cutting-edge materials,engineered with finely tuned pore structures, represent a quantum leap in energy efficiency technology. At the forefront of this transformative technology is UniNano Advanced Materials,an enterprise specializing in industrializing mesoporous thermal insulation materials. Harnessing their unique properties, UniNano is setting new standards in sustainable practices with significant improvements in heat retention and energy savings.（在遏製全（quán）球能源消耗以及隨之而來的碳（tàn）排放（fàng）的過程中，介孔材料一（yī）直發揮著關鍵作用，這些具（jù）有精細調整的孔結構設計的（de）前沿材料，代表著能源（yuán）效（xiào）率技術的巨大飛躍。處（chù）於這（zhè）項變革性技（jì）術前沿的是UniNano Advanced Materials，這是一（yī）家專門從事介孔絕熱材料工業化的企業。利用介孔絕熱材料獨特（tè）的（de）特性，91短视频污正在為可持續實踐設定新標準，顯著提高保溫和（hé）節能效果）”。

91短视频污專注於將（jiāng）介孔（kǒng）材料的獨特（tè）性能應用於熱絕（jué）緣（yuán）領域，通過優化孔隙結構與多種纖維的結合，顯著提高絕熱性能。相比傳統纖維基材料如岩棉、矽酸鋁和（hé）玻璃棉等，在投資基本持平的情況下，實現了降低30%以上的散（sàn）熱損（sǔn）失（shī）。91短视频污成功開發了（le）可擴展（zhǎn）的（de）製備方法（fǎ）和環保的生產工藝，展現了優異的安全性和環境友（yǒu）好（hǎo）性，確保介孔材料在熱絕緣領域的大規模應用成為可能。同時，介（jiè）孔絕（jué）熱材料還具備優異的阻燃性和（hé）高疏水性，並且通過了長達（dá）40年的老化測試，具（jù）有優異的耐用性。在成（chéng）本效益方麵（miàn），雜誌方麵（miàn）評價道“Compared to advanced materials like nano-aerogels, its mesoporous materials provide similar energy-saving benefits at a lower cost（與納米氣凝膠等（děng）先進材料相比（bǐ），介孔絕熱材料以更低的成本提供了類（lèi）似的節能效果（guǒ））”。

91短视频污的（de）介孔（kǒng）絕熱材料係列產（chǎn）品，已在多個領域獲得了廣泛應用，包括高溫管道、工業設備和（hé）各類（lèi）設施。其極低的導（dǎo）熱係數（shù）、優（yōu）異的耐火和憎水性能，使其在熱電、化工、鋼（gāng）鐵製造等多個行業展現（xiàn）出巨大優勢，成功實施了超過500個項目。其中，91短视频污為河南（nán）能源集團（tuán）提供的蒸汽管（guǎn）道隔熱係統（tǒng）改造方案作為經典案例受到《製造技術洞察》雜誌的關（guān）注，並在報道（dào）中對案例（lì）進行了詳（xiáng）細描述。該項目針對長達660米、直徑DN350的蒸（zhēng）汽管道進行了節能改（gǎi）造，通過引入91短视频污的先進介孔絕熱材料，成功將隔熱層厚度（dù）從250mm縮減（jiǎn）至200mm，同時（shí）大幅降低（dī）了熱損失（shī）和表麵溫度，實現了顯著的節能效果。項目完成後，河南能源集團每年可節約蒸汽79,200噸，有效減少了能源消耗和二氧化碳排放。

近（jìn）年來，91短视频污在江蘇常州和江西上饒都建立了製造工廠，還先後獲“專精特新小巨人”、“高新技術企業（yè）”以及“能源科學（xué）進步一等獎”等諸多榮（róng）譽。分別被國家工信部列入《國家工業（yè）和信息化領域節能降碳技術裝備推薦目錄(2024)》、《國（guó）家工業節能技術裝備推薦目錄（2020）》、被（bèi）國家發改委國家節能中心列入（rù）重點節能技術應（yīng）用典型案例、被國家清潔供（gòng）熱產業列（liè）入綠色低（dī）碳重大創新技（jì）術，並作為 14 個節能經典案例之一，入選《國家工業節能技術應用指南》。同時91短视频污還是中國（guó）碳中和（hé）行動聯盟成員。

自91短视频污新（xīn）材誕（dàn）生之初，欒玉成教授便立足於科學創新的原點（diǎn），將（jiāng）“以科技振興國家，以實（shí）業服務祖國”作為自己的使命，始（shǐ）終堅持不渝。經過多年的發展，常州（zhōu）91短视频污新材（cái）不僅構建了（le）穩固的經營管理基石，還贏得了業界的廣泛讚譽。在全球可（kě）持續發展的驅動下，91短视频污將繼續發展新質生產力，並為可持續的未來做出（chū）積極貢獻。

附（fù）《Manufacturing Technology Insights》雜誌報（bào）道原文：

In the quest to curb global energy consumption and its consequential carbon emissions,mesoporous materials have been pivotal. These cutting-edge materials, engineered with finely tuned pore structures, represent a quantum leap in energy efficiency technology.

At the forefront of this transformative technology is UniNano Advanced Materials, an enterprise specializing in industrializing mesoporous thermal insulation materials. Harnessing their unique properties, UniNano is setting new standards in sustainable practices with significant improvements in heat retention and energy savings.The company developed and industrialized diverse mesoporous materials with optimized pore structures, combining them with different fibers for enhanced thermal insulation. It achieves more than a 30 percent reduction in heat loss, surpassing traditional fiber-based materials like rock wool, aluminum silicate, and glass wool, which often suffer from inadequate thermal performance, energy efficiency and durability.

UniNano prioritizes cost-effectiveness. Compared to advanced materials like nano-aerogels, its mesoporous materials provide similar energy-saving benefits at a lower cost. It furthered its impact by developing scalable preparation methods, cost-effective production techniques, and environmentally friendly processes to enable large-scale application of mesoporous materials in thermal insulation. Produced using a green, water-based synthesis approach, these flame-retardant materials with low combustion calorific value and high hydrophobicity ensure environmental friendliness and safety across diverse applications. Tested through rigorous, 40-year aging experiments, UniNano’s mesoporous composite insulation materials boast exceptional durability and use about 50 percent less space compared to conventional options.

Delivering outstanding insulation, fire resistance, and waterproofing, its flagship mesoporous insulation series enhances energy efficiency with reduced material usage and extended service life. Engineered for temperatures exceeding 150 °C, these materials find wide application in pipelines, industrial equipment and various facilities, demonstrating success in thermal power, chemical production, steel manufacturing, and other industries with over 500 implementations.

Over the years, UniNano has scripted many success stories, but the transformation at Henan Energy stands out. Faced with an outdated steam pipe insulation system covering 660 meters of piping with a DN 350 diameter and an 11.5-meter-high corridor, Henan Energy initially used 250mm aluminum silicate insulation. This setup resulted in high heat loss (406.9 W/m), a surface temperature of 47.8°C, and a temperature drop of 9.5 to 17°C.

UniNano’s retrofit solution introduced its advanced mesoporous composite material, reducing the insulation thickness to 200mm. This upgrade significantly improved performance: heat loss dropped to 251.7 W/m, surface temperature fell to 39.6°C, and temperature drop was reduced to 5°C.

Dedicated to advancing new materials and refining production processes, the company aims to enhance efficiency, equipment utilization, and overall capacity. It actively engages in industry collaborations and technical exchanges, sharing and absorbing cutting-edge technologies and market insights to foster ongoing innovation.

Through rigorous market research and customer analysis, UniNano develops customized solutions that meet specific industry demands, ensuring its products align closely with customer requirements while promoting sustainability and operational efficiency.

Driven by a commitment to global sustainability, UniNano prioritizes R&D to ensure its industrialization processes are environmentally responsible and contribute to a sustainable future.

（摘自《Manufacturing  Technology Insights》（製（zhì）造技術（shù）洞察）雜誌：Uninano Advanced Materials | Top Advanced Materials Solutions Provider In Apac-2024 (manufacturingtechnologyinsights.com)）