可持续发展

循环原料

为实现更高的可持续性，我们持续探索用可再生或循环再生的替代方案取代化石及石化资源的可能性。在决策过程中，我们综合考量经济、环境与社会效益，同时兼顾供应安全、工艺流程及产品安全等关键因素。

质量平衡法

在生产过程中，我们持续采用质量平衡方法：巴斯夫的众多价值链始于合成气工厂或蒸汽裂解装置。

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负责任的采购

巴斯夫负责任地采购，为价值链的环境保护做贡献。

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In BASF’s ChemCycling™ project, plastic waste is transformed into pyrolysis oil using a thermochemical process. The oil can be fed in the BASF Verbund, replacing fossil resources. Using a mass balance approach, new products are manufactured with it. These have the same properties as products from fossil raw materials. BASF works together with partners such as Quantafuel, a startup headquartered in Oslo, Norway. Quantafuel is specialized in the pyrolysis of mixed plastic waste and the integrated purification of the resulting oil. Dr. Michael Bachtler (right), who is working on BASF’s ChemCycling™ project, and Rasmus Kærsgaard (left), Plant Director at Quantafuel in Quantafuel’s pyrolysis and purification plant in Skive, Denmark.

巴斯夫“化学循环”项目（ChemCycling®）

当前资源日益紧张，市场对可持续发展要求不断提高，相关法规持续演进，在此背景下，回收利用在全球范围内正发挥着越来越重要的作用。

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机械回收

机械回收是实现循环经济必不可少的环节，适用于塑料、电动车锂电池、金属等材料。报废材料经收集、分拣、破碎、熔化等过程转化为次级原料，重新投入新应用。

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We will continue to increase the volume of renewable and recycled feedstocks from sustainable sources which we already use as drop-in solution. In a challenging environment with limited availability of alternative raw materials, we still aim to process 250,000 metric tons of recycled and waste-based raw materials, such as pyrolysis oil from mixed plastic waste or end-of-life tires, in our production plants annually from 2025. The certified mass balance approach enables us to offer products with an allocated share of renewable or recycled feedstock. Customers can choose these products if they want to contribute to saving fossil resources and a lower carbon footprint. We also offer a bio-based portfolio, e.g. for personal care, nutrition or plastics.