MODEL-BASED OPTIMIZATION & CONTROL FOR PROCESS-INTENSIFICATION IN CHEMICAL AND BIOPHARMACEUTICAL SYSTEMS

Objective

In response to world-wide changes in the chemical/biopharmaceutical industry, new market requirements for specific end-use product properties as well as to stricter energy, safety and environmental constraints a revolutionary approach is needed regarding equipment design, plant operation and new production paradigms that will result in better products and processes. Process intensification (PI) is the key technological pathway to drastically improve the sustainability of the chemical and biopharmaceutical processes by replacing the existing, inefficient plant equipment with new, intensified operations. PI comprises the development of novel equipment and production methods that can bring dramatic improvements in manufacturing and processing and lead to safer, cleaner, smaller and cheaper production routes. PI is expected to open up the way for the production of new products, unblock the potential for plant operation under less stable conditions and reform entire business models to foster just-in-time or distributed production. In a series of recent publications and roadmaps, PI has been identified as the ‘path for sustainable development’. The OPTICO project aims at overcoming the present limitations on implementing PI by establishing a new methodological design approach for sustainable, intensified chemical/biopharmaceutical plant design and operation through a flexible, integrated multi-scale modeling framework coupled with advanced process analytics tools and modern optimization/control techniques. It is envisaged that, within a 3 year time frame, the proposed work will enable the innovative process design and promote a substantial improvement in chemical/biopharmaceutical plant efficiency by reducing energy consumption, operating costs, handled volumes and generated wastes as well as by improving the process efficiency and safety.

Fields of science

Coordinator

ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS

EU contribution

€ 484 379,40

Address

CHARILAOU THERMI ROAD 6 KM
57001 Thermi Thessaloniki
Greece

Region

Βόρεια Ελλάδα Κεντρική Μακεδονία Θεσσαλονίκη

Activity type

Research Organisations

Administrative Contact

Costas Kiparissides (Prof.)

Links

Contact the organisation Website

HORIZON collaboration network

Total cost

No data

Participants (12)

IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE

United Kingdom

EU contribution

€ 374 220,00

RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN

Germany

EU contribution

€ 244 000,00

EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH

Switzerland

EU contribution

€ 317 097,60

DANMARKS TEKNISKE UNIVERSITET

Denmark

EU contribution

€ 360 000,00

TECHNISCHE UNIVERSITEIT DELFT

Netherlands

EU contribution

€ 392 850,00

UNIVERSITEIT GENT

Belgium

EU contribution

€ 288 000,00

UNIVERSITY OF STRATHCLYDE

United Kingdom

EU contribution

€ 373 417,00

BASF SE

Germany

EU contribution

€ 270 091,00

ARKEMA FRANCE SA

France

EU contribution

€ 224 980,00

DSM CHEMICAL TECHNOLOGY R & D BV

Netherlands

EU contribution

€ 137 890,00

FIBRE PHOTONICS LTD

United Kingdom

EU contribution

€ 244 865,00

CHROMACON AG

Switzerland

EU contribution

€ 180 750,00

Objective

Fields of science

Programme(s)

Topic(s)

Call for proposal

Funding Scheme

Coordinator

Participants (12)

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