合作开展低碳排放项目

• “Sustainability Covalence” celebrated the first anniversary, promoting PCF calculation methodology and low-carbon procurement

• Collaborated with Sinopec, Baowu and Shell to explore CCUS Project 

• Collaborated with Huayuan Group on sustainable and innovative solutions

• Partnered with China BlueChemical and Wuhuan Engineering to promote low-carbon development and utilization of marine gas resources

BASF celebrated the first anniversary of “Sustainability Covalence” with its founding partners in Hefei, Anhui in October. a forum. During the forum themed “Unlimited Vitality", which was co-organised by BASF and one of co-founding partners – Huaheng Biotechnology, BASF also shared its carbon calculation methodology and called for action of low-carbon procurement along the value chain.

BASF, Sinopec, Shell and Baowu signed a Memorandum of Understanding in Shanghai in November on an open-source carbon capture, utilization and storage (CCUS) project with a scale of tens of millions of tons per year in East China. The four partners are aiming to develop supply chain of low-carbon products and contribute to the development of the CCUS industry and China’s “dual carbon” targets.

BASF and Huayuan Group, a major Chinese player in the industry of high-end manufacturing, new energy, and advanced materials, formed a strategic partnership on sustainable and innovative solutions. Leveraging BASF's deep know-how and extensive innovative solutions in the chemical industry, both companies will cooperate closely in metal pre-treatment technologies, pharmaceutical materials, sustainable packaging materials.  

BASF signed a joint development agreement with the leading natural gas producer China Blue Chemical Limited Company, and the chemical engineering company Wuh Engineering Co., Ltd., to promote low-carbon development and utilization of marine gas resources. With its technical innovation in reforming catalysts, specially designed reactor and process technology, BASF’s solution helps to improve process energy efficiency and carbon efficiency beyond existing commercial catalyst and process technology.