Webinar: Continuous Flow Technology in Industrial Applications
Sponsored by: Lonza
Focused on:
Date: 9th November
Days old: 4837
Time: 3PM London / 10AM New York
From lab to ton scale production featuring Ozonolysis
The webinar will include an introduction on continuous flow technologies, presented by our continuous flow and microreactor technology expert Dominique Roberge. It will then explore, in depth, the role of Ozonolysis in your production facility, before concluding with a Q&A to answer your questions.
In most cases, ozonolysis is more sustainable
and cost effective for the oxidative treatment of organic unsaturated compounds than other oxidation technologies.
To enable the scalability of this challenging gas-liquid oxidation process, Lonza has developed a novel approach that combines microreactors with meso-scale reactors.
The approach combines laboratory feasibility studies and technical transfer - including hazard evaluations and safety assessments - to successful large scale manufacturing.
Join us in this webinar to understand how to reduce costs, maximise efficiency and shorten timelines while producing high quality products without normal scale up troubles.
Presented by
Dr. Markus Nobis,
Production Group Leader, Ozonolysis & Microreactor Technologies
Chemist by Training (Catalysis, Process Chemistry) RWTH Aachen. Since 2002 in process development and production accompanied with Ozone in different positions/companies. At Lonza since 2008 Group leader Production in the LCMC Sector of Lonza AG.
Dr. Dominique Roberge,
Head of Continuous Flow / Microreactor Technology Business Development
Dominique achieved his degree and masters in chemical engineering at Laval University (Quebec City, Canada) in 1996. He later achieved his doctorate at the University of Technology Aachen (Germany) in the field of Heterogeneous Catalysis to develop new chemical processes. He joined Lonza in March 2001 after completing my PhD responsible for reaction calorimetry and reaction engineering in process development. The work included RC-1 safety analysis, experimental design, reaction simulation, Batch Plus support, laboratory automation, and on-line reaction analysis.
In February 2003, Lonza started a new project called Microreactor Technology and was Project Leader until July 2007. Dominique spent some time as an Associate Professor at the University of Ottawa and re-joined Lonza with the goal to pursue Microreactor Technology and bring this technology as a standard method for large scale production.
Download Slides
Please login to download the slidesKey Learning Objectives
- Ozonolysis is not a laboratory curiosity. It can act as an versatile tool for chemical synthesis
- Ozonolysis can be implemented safely and quickly on small and large production scales due to an applied approach
- Ozonolysis can be implemented on an industrial scale and remain robust and predictable using a flow system
- Ozonolysis and post-treatment can usually be carried out efficiently with the application of Microreactor technology
Audience
- CIO/CTO/CISO/CSO
- Clinical Operations
- Purchasing / Procurement
- QA / QC / Validation
- Clinical Operations
- Clinical Research
- Laboratory / R&D Management
- Laboratory / R&D Scientist
- R&D Management
- Facility Design / Management