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LG Chem to Produce Plastics with Recycled Marine Waste


LG Chem will recycle marine wastes, which have been a huge problem for the ocean, to produce plastics.
Protecting Marine Ecosystem
LG Chem announced that it entered into an MoU for building a resource circulation system by recycling marine wastes with NETSPA, a company in resource circulation, at the Yeouido LG Twin Towers on 12th Jan.
Through this MoU, LG Chem will be able to stably secure raw materials for its Seokmun National Industrial Park pyrolysis oil plant in Dangjin, Chungnam, which is scheduled to begin operations in 2024. Once NETSPA sorts and processes plastics from marine wastes, LG Chem will use it to produce recycled plastics.
The two companies hope to not only protect the marine ecosystem but also reduce carbon emissions through this resource circulation partnership.
Related Read: Plastic Recycling Innovation: Materials, Technologies, Applications Update?

Reducing Carbon Emissions by Three-Fold
About 50,000 tons of marine wastes, such as discarded fish nets, are generated every year in Korea. But collecting the wastes has been difficult due to the costs of discarding, and even if they are collected, it has been difficult to treat. Therefore, most of the wastes were left neglected or incinerated.
LG Chen and NETSPA anticipate that using it as materials for recycled plastic will help reduce marine wastes while reducing carbon emissions by three-fold compared to other fossil fuel-based products.
LG Chem Petrochemicals Company President KUG LAE, NOH stated, “We will further accelerate eco-friendly technologies and businesses for sustainable growth in the future such as marine waste resource circulation.
Meanwhile, since declaring 2050 Net Zero, LG Chem has been putting the spurs to new sustainable, eco-friendly businesses such as launching eco-friendly plastics using bio-materials, establishing a bio-mass power plant joint venture, producing plastics through carbon capture, etc.
Source: LG Chem




Publication date: 16/01/2023

Omnexus (news)

      

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870292.