Periodic Reporting for period 2 - CONSENS (Integrated Control and Sensing for Sustainable Operation of Flexible Intensified Processes)
Période du rapport: 2016-07-01 au 2017-12-31
All goals of CONSENS were achieved, and very promising technologies were developed which will provide an impact on the European chemical industries by
1. making processes resilient to variances in feed-stocks and to external disturbances,
2. enabling the migration of batch processes to flexible continuous intensified processes, and
3. enhancing fast development of new products.
CONSENS focused on flexible continuous plants but the results are transferable to other kind of plants.
(1) Intensified continuous organic synthesis using a modular containerized pilot plant
(2) Intensified continuous production of specialty polymers including the transfer of two products from batch to continuous production
(3) Continuous formulation of complex non-Newtonian liquids
To cope with the specific challenges, three novel sensors were developed:
- Online NMR sensor: a fast and explosion protected sensor measuring the concentration of chemical substances in liquid mixtures using nuclear magnetic resonance (NMR) spectroscopy
- Inline rheology sensor: a fast non-invasive sensor for measuring the flow behavior of liquids (the complete rheology profile of complex non-Newtonian fluids)
- Inline fouling sensor: a non-invasive sensor measuring the thickness of incrustations inside a tubular reactor.
For the closed-loop control of the key parameters of the case studies, new control methods were developed that resolve major hurdles for flexible intensified continuous processes:
- A self-optimizing iterative model-based control approach achieves the true plant optimum, even with rather simple rigorous process models. This is important, because otherwise the modelling effort would be prohibitive for flexible small- and medium-scale production.
- A data-driven rheology control approach allows simultaneous control of the whole rheology profile (i.e. a curve not only a value). Since the underlying physical principles are not yet fully understood, data-driven models were used.
- A concept for plant-wide control of modular continuous plants supports the plug & produce approach of modular plants that have local control logic already included in their modules.
Novel methodologies and tools were developed to support the engineering and the long-term stable operation of PAT-based control solutions:
- Online sensor failure detection is crucial the more sensors are used in closed-loop control, because sensor malfunctions can lead to a reduced process performance or even drive the plant into safety shutdowns.
- Performance monitoring is used to understand when a PAT-based control solution needs maintenance. Since the performance of a process depends on the circumstances, this concept considers long-term effects such as deactivation of catalyst and environmental conditions.
-The early design evaluation of control solutions helps to identify design flaws, to test the stability of PAT-based control concepts against disturbances, and to estimate the economic impact before any investment is made.
Nearly all technologies were integrated and validated successfully in the pilot plants.
The concepts and the results of CONSENS were disseminated very actively: 9 journal articles, 7 papers in proceedings, 1 book chapter, and 19 posters at 14 events. In addition two public workshops (> 200 participants) were organized.
Since the consortium includes 6 major corporations that cover more than 10% of the EU chemical market and that have identified many potential applications of the technologies in their own plants, it is quite probable that most of the technologies will be further developed and commercialized.
The following contributions can be concluded from the case studies*:
- Financial savings: > 265 M€/year
- Reduction of CO2 emissions: > 490,000 t/year
- Less consumption of non-renewable raw materials (solvents): 176,000 t/year
*) Considered EU markets: pharmaceuticals and fine chemicals, soaps and detergents, specialty polymers
It is expected that the market share of European chemical production plants on the global market will increase by ca. 3% due to better quality, innovative products and higher competitiveness. Also the European instrumentation vendors will benefit from the CONSENS project, as the demand for the innovative sensors will lead to higher turnovers. Several project partners intend to develop and produce products based on the project results in Europe.