The project encompassed several beyond-the-start-of-the-art technologies, which enable the use of guaranteed parameter estimation in real-life (industrial) conditions and which enable a reliable decision-making based on the improved estimation. The project delivered novel theoretical and algorithmic developments, open-access data, publications and software tools, and demonstrations of the developed technologies for estimation and control of chemical processes.
Since substantial advances in the applicability of the guaranteed estimation technology were shown within the project, the project results will potentially foster the innovation in industry. European chemical industry employs 1.2 million people in the EU and contributes €551 billion to the EU economy. Unlike few other industrial sectors the chemical industry in EU has still not managed to reach production rates of 2009 (pre-crisis) levels. It is thus among the most important targets of the current movements towards increased energy efficiency and sustainable development. Another set of challenges arises from the demographical changes in EU, e.g. aging of the skilled personnel and striving for quality and safety of working and living environments. This results in a tendency towards reduction of direct involvement of humans at high-risk production sites. Not only technical innovations, new plants and new technologies are needed to achieve the highly ambitious sustainability milestones that are set by the EU, such as 40% cut in greenhouse gas emissions compared to 1990 levels by 2030, and to address the aforementioned demographic and global economic challenges. It is also the exploitation of the opportunities in existing and in future plants. Improved monitoring and control is key to energy and resource efficiency of the assets and it enables a shift towards autonomous production and sustainability in chemical industry.