Demonstration of Sonication and Microwave Processing of Essential Chemicals

HORIZON.2.4HORIZON-IAID: 101058279
EC Contribution
€94,068
Consortium Size
13 orgs
Summary

SIMPLI-DEMO, the Demonstration of Sonication and Microwave Processing of essential chemicals project, aims at strengthening the chemical process industry ? and in particular the specialty chemicals and pharmaceuticals industries ? in its capacity to produce materials and chemicals in a sustainable and competitive way by moving from batch to continuous and modular production with flexibility being ensured by the application of alternative energy forms. Currently, the conventional technologies in the specialty and pharma sector tend to be batch-type, combined with mechanical mixing and conduction-based heat transfer, inherently leading to poor process control. SIMPLI-DEMO's vision is that of intensified processes, where alternative energy sources enable continuous and modular technologies to achieve localized actuation of multiphase, flow reactors for the purpose of high-value product synthesis. SIMPLI-DEMO focuses on the synthesis of specialty polymers and particles for use in a wide variety of every-day-use products, e.g. insulation, paints and coatings, plastics, catalysts, as well as health applications, which are important domains in the chemical industry today and into the future. Therefore, SIMPLI-DEMO advances the technology readiness level (TRL) of modular flow technology for multiphase streams involving suspensions or viscous products from TRL5 (validation in relevant environment) to TRL7 (industrial system demonstration).SIMPLI-DEMO has brought together a consortium of four end-user chemical companies, two technology suppliers (ultrasound and microwave technology), five universities and research institutions (process control & automation, reactive extrusion, oscillatory flow, ultrasound, microwaves), one SME experienced in modular automation and another SME experienced in sustainability assessment and exploitation.

Consortium (13)

Project Results (17)

Source: CORDIS, the EU research results database.

Publications (15)
A New Strategy for Modelling Sonochemical Reactors: Coupling of the Non-Linear Louisnard Model with Mass and Heat Transport Equations with Applications to Cavitating Viscous Fluids
Ultrasonics Sonochemistry· 2025DOI
Quinten Goris, Ariana Bampouli, Mohammed Noorul Hussain, Olivier Louisnard, Georgios D. Stefanidis, Tom Van Gerven
An in-depth comparison of the ultrasonic horn and plate transducer: Building from fundamentals to applications
Chemical Engineering Research and Design· 2025DOI
Quinten Goris, Matthias Adams, Georgios D. Stefanidis, Tom Van Gerven
An investigation of conservation of fluid oscillation in a continuous oscillatory baffled reactor
Chemical Engineering and Processing - Process Intensification· 2025DOI
Qi Feng Chan, Alexander Riddell, Calum Selman, Jianyu Wang, Rohen Prinsloo, Xiong-Wei Ni
Determining residence time distributions in oscillatory baffled reactors: A comparison between experiments and CFD-simulations
Chemical Engineering and Processing - Process Intensification· 2025DOI
Matthias Adams, Georgios D. Stefanidis, Tom Van Gerven
Intensification of Ethylene Carbonate Synthesis via Microwave‐Induced Phase‐Change Cycles
ChemSusChem· 2025DOI
Ioannis Papaioannou, Athanasios Arampatzis, Ioanna Tzortzi, Xin Gao, Tom Van Gerven, Georgios D. Stefanidis
Mid- and near-infrared spectroscopies for quantitative tracking of isocyanate content: Streamlined development of monitoring tools for reactive extrusion synthesis of specialty polyurethanes
Polymer Testing· 2025DOI
Aleksandra M. Fage, Christian A. Backhaus, Wolfgang Becker, Günter Lorenz, Anita Lorenz, Karsten Rebner, Frank Henning
Particle tuning in reactive crystallization via microwave-assisted temperature cycling for improved downstream performance
Chemical Engineering and Processing - Process Intensification· 2025DOI
Athanasios Arampatzis, Ioannis Papaioannou, Tom Van Gerven, Georgios D. Stefanidis
Can Ultrasound Replace Seeding in Flow Reactive Crystallization of an Aromatic Amine?
Organic Process Research & Development· 2024DOI
Zhang, Biyu; Stefanidis, Georgios D.; Van Gerven, Tom
Chemical Engineering and Processing
Chemical Engineering and Processing - Process Intensification· 2024DOI
Robin Semrau, Heidy Ramirez Mendoza, Cécile Lutz, Sebastian Engell
Dynamic Modeling of Precipitation in Electrolyte Systems
Computer Aided Chemical Engineering, 34th European Symposium on Computer Aided Process Engineering / 15th International Symposium on Process Systems Engineering· 2024DOI
Effects of Ultrasound on Reactive Crystallization and Particle Properties of an Aromatic Amine in Batch and Continuous modes
Ultrasonics Sonochemistry· 2024DOI
Biyu Zhang, Ida Ådnebergli, Georgios D. Stefanidis, Tom Van Gerven
Importance of design and operating parameters in a sonication system for viscous solutions: effects of input power, horn tip diameter and reactor capacity
Chemical Engineering and Processing - Process Intensification· 2024DOI
Ariana Bampoulia, Quinten Goris, Mohammed Noorul Hussain, Olivier Louisnard, Georgios D. Stefanidis, Tom Van Gerven
Tailoring Waterborne Coating Rheology with Hydrophobically Modified Ethoxylated Urethanes (HEURs): Molecular Architecture Insights Supported by CG-MD Simulations
Industrial & Engineering Chemistry Research· 2024DOI
Ioanna Tzortzi, Imane Joundi, Michail Kavousanakis, Theodora Spyriouni, Ariana Bampouli, Guillaume Michaud, Tom Van Gerven, Georgios D. Stefanidis
Tailoring Waterborne Coating Rheology with Hydrophobically Modified Ethoxylated Urethanes (HEURs): Molecular Architecture Insights Supported by CG-MD Simulations
Industrial & Engineering Chemistry Research· 2024DOI
Tzortzi, Ioanna; Joundi, Imane; Kavousanakis, Michail; Spyriouni, Theodora; Bampouli, Ariana; Michaud, Guillaume; Van Gerven, Tom; Stefanidis, Georgios D.
Understanding the ultrasound field of high viscosity mixtures: Experimental and numerical investigation of a lab scale batch reactor
Ultrasonics Sonochemistry· 2023DOI
Ariana Bampouli, Quinten Goris, Jonas Van Olmen, Serkan Solmaz, Mohammed Noorul Hussain, Georgios Stefanidis, Tom Van Gerven
Deliverables (2)
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