[Music plays and CSIRO logo and text appears:FloWorks CSIRO’s Centre for Industrial Flow Chemistry]
[Images flash through of Dr. Christian Hornung working in a laboratory and then the image changes to show Dr. Christian Hornung talking to the camera and text appears: Dr. Christian Hornung, Senior Research Scientist, CSIRO Manufacturing]
Dr. Christian Hornung: Hi. My name is Christian Hornung. I am a Research Scientist at CSIRO and I work in the Flow Chemistry area.
[Image changes to show a male working in the Centre for Industrial flow Chemistry]
The Centre for Industrial Flow Chemistry is a new facility here at Clayton.
[Camera zooms in on the male tapping a touch screen computer and then the camera zooms in on the male’s hand working on one of the machines]
It is a technology platform that provides access to CSIRO’s cutting edge flow chemistry technology to industry as well as academic researchers.
[Image changes to show Dr. Christian Hornung talking to the camera]
Flow Chemistry’s a smarter way of making chemicals.
[Image changes and text appears: Flow Chemistry, This is How it Works]
In flow chemistry,
[Image changes to show an animation diagram of two feed tanks feeding into a reactor]
other than in a classical batch process, the starting materials are fed into the reactor continuously and this is where the reaction takes place.
[Image shows a second reactor and a third feed tank being added to the animation diagram]
If you use multi stage processing, you can eliminate the need for manual handling of chemicals in between steps and that greatly improves safety.
[Image shows inline purification and a product tank being added to the animation diagram]
Adding in inline purification makes the whole process more streamlined and efficient
[Image changes to show an analysis box being added to the animation diagram]
and when you integrate smart monitoring and online analysis the whole process can be automated.
[Image changes to show Dr. Christian Hornung talking to the camera]
So, what are the benefits of flow chemistry for your business?
[Image changes to show two males looking at a computer screen and then the camera zooms in on a male using a touch screen]
It basically means that you can reduce your reaction times, you can reduce your plant space
[Image changes to show Dr. Christian Hornung talking to the camera]
and that means that they’ll have less energy costs, a much more efficient process, less waste and a much safer environment.
[Image changes to show a glass beaker with liquid being picked up and then the image changes to show a male working on a touch screen]
At the Centre for Industrial Flow Chemistry we offer a complete package which is quite unique.
[Image changes to show a part of the equipment and then the image changes to show
Dr. Christian Hornung talking to the camera]
So, we’re looking at the chemical development as well as the technology from the very early discovery stages
[Image changes to show two males working at a piece of laboratory equipment and then the camera zooms in on the male’s hands as he adds chemical]
going through a scale up process to the final pilot scale where we then can do the tech transfer back to the client’s site
[Image changes to show a male and a female walking up a set of stairs]
where he can do the manufacturing of their product.
[Image shows the male and the female looking at the equipment]
In the new Centre, we will combine the small-scale capabilities for discovery as well as our large-scale reactors under one roof.
[Camera zooms in on the female’s face as she talks to the male and then the camera zooms out to show them looking up at a gauge on top of stainless steel type tanks and then filling a beaker from the tank]
It’s going to be a collaborative space and in the future we’re looking forward to having even more engagement with industry
[Image changes to show Dr. Christian Hornung talking to the camera]
and for this technology to be taken up by chemical manufacturers in all areas.
[Music plays and images flash through of Zoran Manev walking through an office and talking to a female at a computer and then the image changes to show Zoran Manev talking to the camera and text appears: Zoran Manev, Director, Boron Molecular]
Zoran Manev: Boron Molecular is a manufacturer of fine chemicals. The fine chemicals are used in both the pharmaceutical and material science field.
[Image changes to show a beaker of fluid on sitting on top of a machine and then the image changes to show Zoran Manev talking to the camera]
I guess I’m now one of the prophets of flow chemistry and we have a unit here on site
[Image changes to show two males walking down a set of stairs past laboratory equipment]
that we use to develop a number of our processes or convert them from batch to flow.
[Image changes to show two males looking at the equipment and then the camera zooms in on hoses running into the equipment]
Flow chemistry will enable us to make purer molecules.
[Images changes to show a piece of the equipment and then the image changes to show pharmaceutical products on shelves and the camera pans around the shelves]
So, we will have fewer side chains and fewer issues when we scale up manufacturer from small-scale to larger even tonne lots.
[Image changes to show Zoran Manev talking to the camera and then the image changes to show a piece of laboratory equipment]
The resultant of that is, is that you’re wasting less solvents, less energy and you’re having far less material that you’re discarding into the environment.
[Image changes to show hoses joining into the laboratory equipment and then the image changes to show Zoran Manev talking to the camera]
We’re excited at the prospect of working with CSIRO’s Centre for Industrial Flow Chemistry.
[Camera zooms in on Zoran Manev’s face and then images move through of a male and female looking at a piece of equipment, a male looking at liquid in a beaker and a female looking up]
We look to that partnership being one where we will get introduced to a number of potential clients through our involvement with the Centre
[Image changes and the camera pans in a clockwise direction around a room with stainless steel tanks]
and likewise the Centre will continue to develop molecules for us that we will eventually bring back to our facility for manufacturing.
[Image changes to show Zoran Manev talking to the camera]
In five to ten years’ time I see flow chemistry as being the prevalent chemistry on site.
[Image changes to show Dr. Christian Hornung talking to the camera]
Dr. Christian Hornung: If people want to get access to the facility and learn more about the technology get in contact with us.
[CSIRO logo and text appears: Big ideas start here, www.csiro.au]
