BioBTX – investments to realize commercialization ambitions

BioBTX is able to take significant steps in its ambition to realize a commercial plant to produce platform chemicals from waste plastics with a full circular and sustainable process. Three existing and two new investors have decided to finance the next steps. Carduso Capital, Vries Beheer and Lynnovation followed up on earlier investments, whilst Groeifonds of the Economic Board Groningen and NOM opted for co-financing.

BioBTX is an innovative technology provider for the conversion of end-of-life materials and biomass into platform chemicals, i.e. aromatics, such as Benzene, Toluene and Xylenes (BTX). These are essential to the production of high-value specialty products, such as clothing, carpets, construction materials, medicines, cosmetics and wind turbine blades.
Producing sustainable BTX on a commercial basis

BioBTX is now ready for the next step – the first commercial production facility for sustainable aromatics in the world, which is planned to be built in 2023. In December 2019, a Series B investment round was completed, enabling BioBTX to take this significant step to realizing its ambitions for a commercial plant that will use waste plastics as feedstock. This facility will be a global first in producing sustainable aromatics on a commercial basis, enabling production of circular plastics. The Series C investment round for building the plant will commence in 2020.

“This investment represents a significant impulse for our plans”, according to Pieter Imhof, CEO of BIOBTX. “BioBTX has a perfect fit with Northern Netherlands’ sustainability ambitions and the commercial plant will be a very valuable contribution.”

The unique technology behind BioBTX

BioBTX has developed the Integrated Cascading Catalytic Pyrolysis (ICCP) process, which contributes to a fully circular and biobased economy with a sustainable production of platform chemicals from end-of-life materials or non-food biomass. The unique integration of two steps achieves a high flexibility in feedstock and process conditions. The use of waste plastic or non-food biomass results in significant CO2 reductions, avoids incineration or landfill, and replaces the current use of oil as raw material.
The technology has been proven on lab and pilot scale with a number of patents and further IP under development. A production unit for liquid biomass with a 10kg feed/hr capacity has been operational since September 2018 with proven performance and catalyst lifetime. An additional unit for solid biomass as well as plastics & composites was installed in 2019 to demonstrate full circularity options with the ICCP technology.


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