Skip to main content

Neste launches new product

Published by , Senior Editor
Hydrocarbon Engineering,

Neste has announced that it is launching a new product, Neste RE, a 100% renewable and recycled raw material for plastics and chemicals production.

It is a product for tackling climate change through reducing the need to use virgin fossil resources, while it also provides a new solution to the end-of-life related challenges the polymers and chemicals industries are facing today. Neste RE can be used in a wide range of plastics applications, from sports gear to toys, even in sensitive applications such as high-performing medical equipment. Neste RE makes it possible to use bio-based waste and residues and waste plastic in the manufacture of high-quality products.

The world’s economy is only 8.6% circular today (source: Circular bioeconomy study, 2020, WBCSD & BCG). The urgency to move towards a truly circular economy is high (source: IPCC Global warming report) and will deserve a variety of different technologies. Neste has a decade-long experience in developing and producing renewable and circular solutions for transportation, and is now extending its offering to the polymers and chemicals sectors. With this, Neste supports the reduction of crude oil dependency by providing more sustainable alternatives to the currently used virgin fossil-based feedstock in plastics and chemicals production.

"We need to take drastic action to achieve the necessary change towards a circular economy in materials. With Neste RE, we combine the best of renewable and recycled materials, to serve as a sustainable feedstock alternative for the polymers and chemicals sectors. This new product provides a new solution for the industry to close the circle of material flows. Neste RE is available globally, and together with like-minded partners, we can use Neste RE as a tool to change and revolutionise plastics,” said Lars Börger, Vice President of Renewable Polymers & Chemicals at Neste.

A fresh start for plastics

Neste RE is both renewable and recycled: the product’s renewable components can be produced from waste and residue oils and fats and sustainably-produced vegetable oils. The recycled component is produced from chemically-recycled plastic waste that cannot be recycled mechanically, such as coloured, multilayer or multi material packaging.

The more fossil resource based content is replaced with content from renewable or recycled origins. In 2018, over 29 million t of post-consumer plastic waste was collected, and of this, only 9.4 million t was directed to recycling (source: Plastics Europe) – even less actually recycled. Furthermore, the share of global oil production used to produce plastics, which is currently 6%, may reach 20% by 2050 (source: New Plastics Economy, Ellen MacArthur Foundation). To tackle these numbers by accelerating the plastics industry’s transformation towards a circular bioeconomy, urgent action is required, collaboration among some of the industry forerunners playing a key role.

Neste’s collaborations are already bearing fruit: in 2019, Neste collaborated with LyondellBasell to produce the world’s first commercial-scale volumes of renewable, bio-based polypropylene. And in March 2020, Neste collaborated with Borealis to produce renewable polypropylene with renewable propane at a propane dehydrogenation facility for the first time in history. Clariant added an entire range of additives based on Neste RE. Together with Recycling Technologies and Unilever, Neste combines expertise to test and validate systems to chemically recycle waste plastics. In a strategic cooperation with Covestro, Neste is promoting the use of sustainable raw materials in plastics production, particularly in the production of polycarbonates. And, together with Jockey, Neste has a collaboration with a target to develop the market for rigid packaging from sustainable renewable and recycled materials for food and non-food applications.

Neste RE is available worldwide to the polymers and chemicals value chain including brands wishing to add bio-based and recycled content to their offering. It is a drop-in solution compatible with existing polymers and chemicals production infrastructures.

Read the article online at:

You might also like


Embed article link: (copy the HTML code below):


This article has been tagged under the following:

Downstream news