Power of spectroscopy in chemical recovery & stickies monitoring
TAPPI Webinar January 18, 2022
Is there a way to improve chemical recovery through more powerful on-line monitoring techniques? How would you monitor the development of stickies in your process in real time with current technologies? Do you want to discover how this area of analytical techniques have adapted and attempt to achieve real-time analysis for better production insights?
Spectroscopy has the power to directly observe chemicals present in a sample. Monitoring chemical concentrations from on-line analysis is recognized as having the potential for significant impact on chemical recovery efficiencies as well as accuracy and speed of stickies monitoring. However, not all spectroscopies are the same. Join Keit’s Product & Application Manager, Dr. Jonathon Speed, at the upcoming TAPPI webinar January 18, 2022 as he presents a thorough comparison & contrast of on-line spectroscopies of the three major types of industrial techniques available to pulp and paper manufacturers – near-infrared (NIR), standard Fourier transform infrared (FTIR or mid-infrared) and the IRmadillo FTIR (innovation in mid-infrared).
Find out about the possibilities with technology and techniques for on-line monitoring of the top challenges in pulp & paper production.
What will you gain from this webinar?
- Understand the current top challenges with capturing on-line chemical concentration analysis in pulp and paper manufacturing
- Describe the fundamentals of spectroscopy to enable process optimization in pulp and paper manufacturing
- Distinguish strengths and weaknesses of near-infrared (NIR) and mid-infrared (FTIR) spectroscopies as in-process analytical techniques
- Examine the basic chemistry involved in monitoring reduction efficiency and stickies formation
- Assess how the IRmadillo and on-line spectroscopy can address analytical issues with real-time information for improved chemical recovery, monitoring the formation of stickies and overall process optimization
Jonathon will talk about the power behind spectroscopy, what makes each method different, the chemistry involved with monitoring reduction efficiency and stickie formation and efforts to analyze them on-line. More importantly, you’ll learn how advancement in spectroscopic analytical technology enables process optimization with real-time measurement of chemicals and properties of interest (i.e. reduction efficiency in chemical recovery for pulping, or sizing additives in paper making) as well as more difficult to measure concepts such as spotting stickies formation early.
Couldn’t make it on the day? No problem, it’s been recorded and you can view it now!
About the Presenter: Dr. Jonathon Speed
Dr Jonathon Speed CChem is the Product and Applications Manager at Keit Spectrometers. Receiving both his Masters and PhD in Chemistry from the University of Southampton, UK, Dr Speed has authored multiple publications in the field of vibrational spectroscopy for professional organisations including the Royal Society of Chemistry (RSC) and the American Chemical Society (ACS). His areas of expertise include nanotechnology, spectroscopy and the use of chemometrics to monitor and control industrial processes. He has published eight patents in the field of surface science. His most recent experience is in the use of FTIR spectroscopy to improve efficiency and safety for a range of industrial applications such as: pulp and paper manufacturing, fermentation, metals refining and fats & oils refining. He has previously presented to TAPPI audiences at both the TAPPICon virtual and live 2021 conferences.
About Keit Spectrometers and the IRmadillo Process Analyser
Keit has created the family of IRmadillo mid-infrared instruments to provide in-line process analysis of liquids over a variety of operating environments – including those most challenging. They are built tough with fixed sampling probes and a vibration-tolerant design. The IRmadillo enables real-time process analysis of liquids in environments that challenge standard instrumentation enabling process optimisation & cost savings.