Borealis's open-innovation collaboration with Qpinch, the creators of a revolutionary and patented heat recovery technology, has passed an important milestone. The first-ever application of the unique Qpinch technology at commercial scale has been achieved upon the technical completion and start-up of a new demonstrational unit.
Located in an existing Borealis low-density polyethylene (LDPE) production location at Europe’s largest chemical cluster in the port of Antwerp (Belgium), the heat recovery unit will test the technology’s capabilities as well as its scale-up potential for Borealis plants in other parts of the world.
The collaboration is especially advantageous because it allows Borealis to take major strides in its efforts to lower CO2 emissions while at the same time increasing production efficiency and maintaining cost competitiveness.
Qpinch technology - how does it work?
The Qpinch technology mimics the natural chemical reactions that take place in the human body in the so-called ATP/ADP cycle (in which ATP refers to adenosine triphosphate, and ADP to adenosine diphosphate).
By using a chemical process to raise the temperature of waste heat, this technology provides a heat lift for waste heat that could otherwise not be used. Unlike the use of conventional heat pumps, this closed-loop process minimises operational costs as well as electricity use. The technology is scalable from one to 50 megawatts (MW) and is, therefore, able to process enormous levels of industrial waste heat.
Sustainability benefits
Since its start-up, the heat recovery demonstration unit has been testing the capabilities of the Qpinch technology with view to scaling it up for use in other Borealis production facilities around the world, as well as for other Borealis technologies.
The start-up of this heat-recovery unit is one of several initiatives bringing Borealis closer to its Energy & Climate goal to be 20% more energy efficient by 2030 compared to 2015. More widespread use of the Qpinch technology in production facilities would enable Borealis to significantly increase the sustainability and efficiency of its Group operations. The new heat recovery unit in Zwijndrecht/Antwerp alone will enable Borealis to save approximately 2,200 tons of CO2 per year, or the equivalent of the annual emissions of around 1,500 compact cars.
A spin-off from Ghent University, Qpinch is positioning its patented technology as a large-scale solution for reducing emissions more quickly and efficiently in a range of industries, including chemicals. Borealis and Qpinch first announced in 2018 the open-innovation collaboration that has now resulted in this commercial scale unit. For Borealis, this project marks the largest potential application to date based on the results of open innovation. The project has received ecology funding support from the Flemish government.