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AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用

日期:2025-04-18 11:57
瀏覽次數(shù):1479
摘要:

AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用

AEROSIL? 氣相法二氧化硅在環(huán)保和節(jié)能方面的應(yīng)用

溫室效應(yīng)和全球變暖多年來一直是人們關(guān)注的重要問題。如何才能使這個重大的問題得以解決?

Climate protection and energy conservation with AEROSIL? fumed silica


更廣泛地利用可再生能源是解決問題的方法之一。另外,我們也可以降低能源的消耗,例如通過使用改良的保溫材料。在歐洲,35%的主要能源被用于家庭。因此,在工業(yè)和運輸方面,仍存在著巨大的節(jié)能潛力。良好的絕熱性對于*大限度減少二氧化碳的排放量有一定的幫助。同時,在能源價格不斷上漲的時下,它在降低成本方面也有顯著的功效。

贏創(chuàng)開發(fā)的AEROSIL氣相法二氧化硅,具備優(yōu)越的絕熱性能,非常低的導(dǎo)熱系數(shù),λ< 20 mW/m?K*。相比傳統(tǒng)的隔熱系統(tǒng),比如聚苯乙烯或聚氨酯泡沫塑料、玻璃纖維或巖棉纖維,它具備更高的絕熱性能。這些傳統(tǒng)的絕緣材料的應(yīng)用很多可以追溯到20世紀(jì)50年代。它們已經(jīng)達到了其絕熱性能的極限,不能滿足當(dāng)今高效保溫的技術(shù)需求。這也是AEROSIL氣相法二氧化硅越來越多地被用于高效保溫系統(tǒng)解決方案中的原因。

降低能源消耗水平是減少二氧化碳排放量從而遏制全球變暖的關(guān)鍵所在。許多國家正通過立法大力推廣這種生態(tài)模式——例如,更為嚴(yán)格的建筑法規(guī)或是對于家用電器引入節(jié)能效率分類的概念。

使用更好的保溫材料能夠通過降低能耗來顯著地降低成本,面對當(dāng)今不斷上升的能源成本,投資高效的保溫材料將很快實現(xiàn)成本的回收。

*) 與適合的遮光劑配合使用的效果

AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用-High-temperature insulation

AEROSIL? is already widely used as insulating material in ceramic stovetops, in industrial applications and in the field of fire protection.

Even when things get hot, Evonik offers the ideal solution. The heating elements underneath ceramic stove tops reach temperatures of up to 1,000 oC — so they need insulation that can reliably stand up to the constant heat. Just another area in which AEROSIL? has proven itself as an insulating material.

A thin layer of AEROSIL? is built into the heating elements of many stovetops. Its insulating properties are so good that electrical wires can be located quite close to the heating elements themselves. But that’s not all. The layer of AEROSIL? also provides a reliable mount for the heating elements, which expand as they grow hot. This tried-and-proven application has been standard in many stovetops for decades now.

Its resistance to heat also makes AEROSIL? a reliable material for use in fire prevention and protection, where it is used in the making of elevator doors, airplane black boxes and to insulate pipes and conduits in chemical plants. AEROSIL? is an outstanding, low-weight, mineral-based insulator with excellent qualities, even at very high temperatures.

AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用-Vacuum-insulation panels (VIP)

AEROSIL? is used in vacuum-insulation panels (VIP) and has been in the spotlight for years as an essential component of energy-efficient refrigerators.
Vacuum-insulation panels (VIP)
Vacuum-insulation panels (VIP)

With the development of vacuum-insulation panels (VIP) 20 years ago, Evonik delivered a particularly energy-efficient and economical solution. The panels are made with vacuum-packed AEROSIL? encased in several layers of a special film that is impermeable to air and moisture. The better the quality of the structure of the silica in its core, the better the insulation effect of VIP. The way VIPs work is similar to a Thermos jug. The vacuum conducts very little heat, thereby inhibiting convection (the natural transfer of heat). 

The success story of VIPs containing AEROSIL? began just a few years ago, when rapidly rising energy costs resulted in increased pressure to save energy. Although they are considerably thinner than conventional insulating materials, VIPs are about eight times as effective as the polyurethane foam previously used in refrigerators, for example.

In practical terms, that means a meaningful reduction in energy consumption as well as more space inside the refrigerator. Vacuum-insulation panels make it easy to manufacture refrigerators that achieve A++ and A+++ energy-efficiency ratings. Today, thanks to their reliability as insulating material, VIPs are also used in portable coolers like the ones used to transport blood samples, medicine, and human organs, where a constant temperature is of utmost importance.

Besides being a standard component of refrigerators and deep freezes, VIPs containing AEROSIL? are also used in a number of other areas, including packaging and containers for temperature-sensitive products as well as retrofit insulation for buildings, for example, exterior facades and floors. And cold transport trucks are also increasingly taking advantage of VIPs, which helps them reduce fuel consumption by up to 25 %. Thus new applications and new markets are opening up all the time.

AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用-冰箱真空隔熱板
現(xiàn)代化冰箱需要具備充足的空間來存儲所有的新鮮農(nóng)產(chǎn)品、香濃奶酪、果汁以及各種各樣的食品。此外,冰箱還必須節(jié)能。而這無疑給**品質(zhì)的絕熱材料提供了用武之地,以便結(jié)合其他因素,確保冰箱的節(jié)能性能。許多制造商選擇基于AEROSIL?氣相二氧化硅的真空隔熱板(VIP),因為贏創(chuàng)工業(yè)集團生產(chǎn)的這種氣相二氧化硅使得極薄的一層隔熱材料便可獲得優(yōu)異的隔熱性能。


電價一路飆升,日益上升的能源成本給許多家庭帶來年復(fù)一年的資源壓力。因此,節(jié)約能源已不再是僅僅出于生態(tài)考量的必要舉措。做出上述變革性決定或許并非一件輕松的事情,但對新型節(jié)能電器進行投資的確能夠持久且大幅地降低電力需求。事實證明,由于冰箱需要整年內(nèi)時刻不停地保持運轉(zhuǎn),因而它的耗電量尤為巨大。根據(jù)德國聯(lián)邦環(huán)境署的計算,能源效率等級為“A+++”的冰箱的耗電量甚至不到能源效率等級為“A”的老式冰箱的耗電量的一半。

為了實現(xiàn)上述能效等級,冰箱中所采用的隔熱材料是一個決定性因素。如果采用傳統(tǒng)隔熱材料,則需要給冰箱安裝非常厚的隔熱層才能實現(xiàn)這種**的節(jié)能效果,;而這就意味著這類冰箱尺寸將會比廚房設(shè)計中所采用的標(biāo)準(zhǔn)規(guī)格要大。更重要的是,厚厚的隔熱層將會減少冰箱內(nèi)部儲存新鮮食品的寶貴空間。

正因如此,人們才會專注于真空隔熱板(VIP)的開發(fā),以便將其用于冰箱制造,滿足*高能效等級標(biāo)準(zhǔn)的要求。這一理念源于25年前,為當(dāng)時賓館房間內(nèi)所用的小型冰箱的設(shè)計提供了推動力。其目標(biāo)是為緊湊型冰箱設(shè)計盡可能大的存儲空間。方案十分明顯,即減少隔熱材料的使用量。對此,贏創(chuàng)的專家提供了可行的解決方案:以AEROSIL?為填料的真空隔熱板。作為性能優(yōu)異的芯材,其結(jié)構(gòu)特殊,這使得氣相二氧化硅成為真空隔熱材料中的**芯材。

**品質(zhì)的薄層隔熱材料

VIP的工作原理與雙層保溫外殼頗為相似。AEROSIL?材料被真空包裝并密封在一個特殊的多層薄膜之中,薄膜具有**的氣密性和防水性。真空狀態(tài)令隔熱性能本已很好的AEROSIL?的效率增強至五倍。這有效阻止了隔熱材料中的熱傳導(dǎo)現(xiàn)象,即熱量由熱至冷的自然傳導(dǎo)。保溫容器能夠防止過多熱量向外部釋放,而冰箱中的VIP則能夠防止環(huán)境中的熱量進入電器內(nèi)部。二氧化硅實際上發(fā)揮著絕熱體的作用,但同時也為隔熱板提供保護,避免出現(xiàn)真空作用出現(xiàn)的凹陷。

**隔熱材料

“芯材中二氧化硅結(jié)構(gòu)的品質(zhì)越好,VIP的隔熱效果就越好,”贏創(chuàng)隔熱應(yīng)用技術(shù)部經(jīng)理弗蘭克?門澤爾(Frank Menzel)博士解釋說。盡管VIP與傳統(tǒng)隔熱材料相比要薄得多,但是它能夠達到約8至10倍的保溫值。在實際應(yīng)用中,這項性能意味著大幅減少能耗,同時增加冰箱內(nèi)部的可利用空間。

因此,越來越多的冰箱組件供應(yīng)商開始依靠AEROSIL?所帶來的優(yōu)異品質(zhì)。其中一家供應(yīng)商是Porextherm D?mmstoffe GmbH公司,它的總部設(shè)在肯普滕,十多年來一直從事VIP的生產(chǎn)。

AEROSIL氣相二氧化硅在熱絕緣中應(yīng)用

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