Modeling

InRePlast

Environmental Policy Instruments to Reduce Plastic Pollution of Inland Waters through Drainage Systems
January 2019
December 2021

The project aims to make a significant, transdisciplinary contribution to applied research on the prevention of plastic discharges into water bodies via drainage systems from a behavioural and environmental economics perspective.

MicroCatch_Balt

Investigation of Sinks and Sources of Microplastics from a Typical Catchment Area to the Open Baltic Sea
August 2017
July 2020

This project determines sources and sinks of microplastic in the Warnow river basin, as well as relevant dissemination processes on its way to the open Baltic Sea. Separate models will be linked so that the resulting model covers the entire river basin including estuary and coastal waters.

PLAWES

Microplastic Contamination in the Weser- Wadden Sea – National Park Model System: an Ecosystem-Wide Approach
September 2017
August 2020

In PLAWES, the modelling system of the German national park Weser-Wadden Sea is the first large European river basin that is investigated in detail regarding its microplastic pollution to.

MicBin

Microplastics in Inland Waters – Investigation and Modeling of Entries and Whereabouts in the Danube Area as a Basis for Action Planning
October 2017
September 2020

The goal of this project is to achieve a first-ever accounting of macro-, meso- and microplastics released into the German part of the Danube river basin, with measuring stations at its main tributaries. Microplastic particles (particles < 5 mm) are examined by using various, complementary analytical methods.

solvoPET

Development of a Recycling Technology for PET Waste Plastics from Multilayer Material and Other Waste Composites
October 2017
September 2020

solvoPET aims to develop a solvolytic recycling process for materials made of PET (Polyethylene Terephthalate) in multilayer or mixed materials and to carry out experimental trials. Inactive patents for solvolysis of single-variety PET waste form the basis for this research: those solvolytic processes will be enhanced into a continuous waste treatment concept that can recycle PET waste.

RAU

Tyre Wear in the Environment
August 2017
July 2020

Plastics in the environment are an increasingly serious challenge. As macroplastics deteriorate, such as through tire abrasion, the resulting microplastics can enter the aquatic environment through a variety of entry points. As vehicle traffic increases, there is an inevitable increase in microplastics from worn tires ending up in the environment.

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