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New model is a giant leap for recycled plastics

skrald

Plastics could be recycled to a far greater degree than they are today if we could develop better methods to test the quality of recycled plastic. That is why AAU is teaming up with industrial companies like Grundfos (water technology) and Logstor (district heating and cooling) among others to make one giant leap for plastic recycling.

Case

New model is a giant leap for recycled plastics

skrald

Plastics could be recycled to a far greater degree than they are today if we could develop better methods to test the quality of recycled plastic. That is why AAU is teaming up with industrial companies like Grundfos (water technology) and Logstor (district heating and cooling) among others to make one giant leap for plastic recycling.

Today, the greatest obstacle for plastic recycling is the lack of models and tests that can accurately describe the characteristics and quality of recycled plastics. A new project led by Aalborg University (AAU) and supported by Innovation Fund Denmark will create new knowledge and give a significant boost to plastic recycling.

A large number of companies could easily recycle major quantities of plastic. There is huge potential. Yet without knowing the specific properties of the recycled plastic, such as durability and strength, they can’t guarantee product quality and therefore won’t use it. We now want to solve that problem.

Project Director and Professor Jesper de Claville Christiansen from AAU

The project is a collaboration between University and four private companies: Grundfos, who deliver water solutions and manufacture pumps, which they take back for recycling; AVL, who recycle plastic products; Logstor, who produce district heating pipes, and Plastix, who recycle fishing nets.

In order to develop a model that can predict the properties of recycled plastics, the researchers behind the project must complete a number of experiments. These can include how the plastic reacts to a particular chemical environment, or how it is affected by temperature or impact. By comparing these experiments in a mathematical model, researchers will develop a method by which short-term tests can determine long-term properties.

Huge potential for both businesses and the environment

LOGSTOR alone expects to be able to recycle several thousand tonnes of plastic using targeted, documented tests to guarantee the quality of the material. A district heating pipe from LOGSTOR forms a vital part of an important infrastructure designed to last 50 to 100 years, so guaranteed durability and functionality are crucial to LOGSTOR using more recycled plastics in future.

Plastic is an extremely important commodity that we want to use responsibly in our products for the distribution of green energy. Therefore, our vision is to optimise our processes and products to contribute to the circular economy, so that we can eventually recycle all products. This project will pave the way for that, says Senior Director of LOGSTOR.

Senior Director fra LOGSTOR Martin Lindgaard Pedersen

Today, Grundfos recycles the metal from discarded pumps, but not the plastic. New models and testing methods could change this.

At Grundfos, we always work towards sustainability, but it must go hand in hand with quality and durability. We therefore look forward to this collaboration, which will enable us to upgrade and recycle our old plastic materials.

Chief Specialist Allan Hjarbæk Holm from Grundfos

Facts

The project will run for four years and, in addition to the companies’ contribution, will receive DKK 14 million from Innovation Fund Denmark. Of this, DKK 11 million will go to AAU.

The sustainability effort works for the following UN global goals

SDG 12, 14 og 15
SDG 12, 14 og 15

Read about many more

sustainable research projects

De sytten verdensmål på hver sin kasse, stablet i en pyramide
Selected research projects

Read about many more

sustainable research projects

De sytten verdensmål på hver sin kasse, stablet i en pyramide