Heidelberg Materials is working intensively on innovative methods for processing, reprocessing, and returning demolition concrete to the construction cycle as a valuable material. The opportunities afforded by innovation in this area are great. In line with the European Union’s circular economy targets, Heidelberg Materials is also involved in projects researching the reuse and recarbonation of recycled building materials. One such example is the K4 project (Carbon dioxide reduction through low-lime clinker and carbonation hardening), funded by the German Federal Ministry of Education and Research (BMBF), in which, over four years, six partners are investigating the permanent sequestration of CO₂ in cements and concretes. For example, paving stones can be produced that absorb an increased amount of CO₂ from the environment.
As part of the innovative ReConcrete process, waste concrete is crushed and sorted almost homogeneously into its components to obtain not only sand and gravel but also hardened cement paste. The latter can be reused as a valuable low-carbon raw material in clinker and cement production, replacing natural limestone as a raw material – in support of circularity. In addition, the hardened cement paste can absorb and permanently bind CO₂, thus acting as a carbon sink.
With ReConcrete, we have been able to show on a pilot scale that concrete can be fully recycled without loss of quality through selective processing of its individual components. This innovative concept, which received the German Innovation Award for Climate and Environment in 2022, is now being used on a large scale at our plant in Poland.