Recycling
在循環經濟中,回收利用是產品生命周期的最后階段,即產品無法再利用、保養或維修的階段。回收利用使我們能夠利用產品中的成分和自然資源,使其重新投入生產。然而,如今只有一小部分材料被回收利用,大部分被送往焚燒或垃圾填埋場。幸運的是,新興工藝正在為塑料、紡織品、電池、城市固體廢物(MSW)等的商業化回收創造新的可能性。
阿法拉伐可以為您提供幫助,為您回收流程中的凈化和濃縮步驟提供高效的分離和水管理解決方案。這些成熟穩健的技術有助于減少用水量和不可回收廢物的數量。對于熱解和氣化等工藝中的冷卻任務,我們還提供各種傳熱解決方案。請繼續閱讀,了解我們如何幫助您將今天的廢物轉化為明天的價值。
What a waste if we do not recycle it!
Using recycled materials instead of raw materials is an efficient way of both conserving natural resources and preventing pollution. To manufacture materials the second time around is much cleaner and less energy intensive than using raw materials.
There is an urgency to accelerate recycling technologies to defossilize the materials industries, and to preserve the valuable raw materials fundamental to our consumables. Today, more than 90 countries have set Net Zero targets with regards to greenhouse gas emissions. The targets put a very clear focus on developing new technology. Circular economy will play an important role in achieving them.
Plastic and derivates recycling
There are various recycling technologies. Key plastic recycling technologies include:
Mechanical recycling
The most common and widely used method for recycling plastic waste. It utilizes mechanical operations, such as sorting, shredding, and melting, to transform the waste into reusable materials, which primarily affect the physical form and size of the plastic waste. In a mechanical recycling process, the chemical structure of the plastic polymer remains intact, with no significant alterations to its chemical composition.
Advanced chemical recycling
Advanced chemical recycling is usually based on either pyrolysis, solvolysis or enzymolysis. It involves breaking down plastic waste into its chemical components or converting it into other valuable products.
Chemical recycling by solvents (Solvolysis)
A process that breaks down polymers into their individual monomers, enabling them to be polymerized to new chemical products. This technology can handle a broader range of plastic types, including complex and contaminated plastics that are difficult to recycle through mechanical means.
Bio-chemical recycling (Enzymolysis)
Biological recycling, also known as biodegradation or composting, involves the use of microorganisms to break down certain types of plastics into organic matter. This method is typically suitable for biodegradable plastics and can be utilized in specific composting facilities.
Thermo-chemical recycling (Pyrolysis)
A thermal decomposition process that converts plastic waste into fuel, such as oil or gas, in the absence of oxygen. It involves heating the plastic at high temperatures, breaking it down into its basic components.
Ash recycling
What is often considered waste today can become a valuable raw material in the future. For example, ash from incineration plants often contain high levels of salt that can be extracted and purified.
Sludge can be used as a raw material for concrete. Valuable metals that were previously too difficult to recover can be concentrated from diluted streams. Wastewater can be turned into fertilizer products. And these are just a few examples of the countless ways to use resources more efficiently.
With our unique solutions for heat transfer and separation, Alfa Laval can increase the performance of virtually any type of recycling plant or operation. We help you boost the production of your plant, taking care of valuable waste and completing the cycle.
Product overview
We offer solutions for efficient separation and water management in your recycling process, specifically for the critical purification and concentration steps. These robust and proven technologies reduce water consumption and produce less non-recyclable waste. For cooling duties in processes like pyrolysis and gasification, we offer a wide range of heat transfer solutions. Keep reading to learn how we can support you in turning today’s waste into tomorrow’s value.
阿法拉伐零液體排放(ZLD)
阿法拉伐ZLD系統是一種堅固耐用、結構緊湊的解決方案,專為最大限度地減少各種工業廢物的液體排放而設計。ZLD 系統以 AlfaFlash 蒸發器為核心,將熱能解決方案與分離技術相結合,優化了用水效率。
阿法拉伐高速分離機
在離心分離方面,阿法拉伐可為任何類型的回收提供理想的選擇。根據工藝和原料的具體情況選擇合適的設備對生產的成功至關重要。我們可以為您提供分離技術、專家指導和服務支持,確保您獲得長期可靠的理想解決方案。
阿法拉伐 OLMI 工藝燃氣鍋爐
阿法拉伐工藝氣體鍋爐是用于冷卻合成氣的非常可靠的熱回收解決方案。對于利用廢塑料生產合成氣等關鍵應用,阿法拉伐 OLMI 工藝燃氣鍋爐是讓您安心運營的理想解決方案。通過可靠的工具減少塑料廢棄物對環境的影響,您可以獲得快速的投資回報。
阿法拉伐板框式熱交換器
要使回收工藝在經濟上可行,能源效率至關重要。在這些應用中,我們的板框式熱交換器具有同類最佳的性能和可靠性。阿法拉伐工業產品系列適用于從加熱、冷卻、熱回收到冷凝和蒸發等各種任務。
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