Wack, ThorstenThorstenWackSchlüter, StefanStefanSchlüterHennig, TorstenTorstenHennigWagner, HenningHenningWagnerDiekmann, AndreasAndreasDiekmannZheng, QinghuaQinghuaZhengGrundler, JonasJonasGrundler2022-03-052022-03-052018https://publica.fraunhofer.de/handle/publica/25411710.1002/cite.201800047In the Carbon2Chem joint research project, mathematical models are involved to simulate operation scenarios of crossindustrial networks, especially chemical plants implemented in a steel mill environment. In order to achieve an optimal model-based system integration approach, a distributed co-simulation environment is introduced. In particular this enables model suppliers and integrators to exchange co-simulation units without having to disclose sensitive information and intellectual property. Here, the architecture and preliminary results of such an environment which is based on a classical waveform relaxation algorithm are described.endistributed co-simulationCarbon2Chemmodelingsystem integrationwaveform relaxation660journal article