Data for: Modern day monitoring and control challenges outlined on an industrial-scale benchmark fermentation process

Published: 4 September 2019| Version 1 | DOI: 10.17632/npt257bjxn.1
Contributors:
Stephen Goldrick, Karolis Jankauskas, Barry Lennox, Suzanne Farid, David Lovett, Carlos A. Duran-Villalobos

Description

This data was generated using an advanced mathematical simulation of a 100,000 litre penicillin fermentation system referenced as IndPenSim. All details describing the simulation are available on the following website: www.industrialpenicillinsimulation.com. IndPenSim is the first simulation to include a realistic simulated Raman spectroscopy device for the purpose of developing, evaluating and implementation of advanced and innovative control solutions applicable to biotechnology facilities. This data set generated by IndPenSim represents the biggest data set available for advanced data analytics and contains 100 batches with all available process and Raman spectroscopy measurements (~2.5 GB). This data is highly suitable for the development of big data analytics, machine learning (ML) or artificial intelligence (AI) algorithms applicable to the biopharmaceutical industry. The 100 batches are controlled using different control strategies and different batch lengths representing a typical Biopharmaceutical manufacturing facility: Batches 1-30: Controlled by recipe driven approach Batches 31-60: Controlled by operators Batches 61:90: Controlled by an Advanced Process Control (APC) solution using the Raman spectroscopy Batches 91:100: Contain faults resulting in process deviations. Please reference: Goldrick S., Stefan, A., Lovett D., Montague G., Lennox B. (2015) The development of an industrial-scale fed-batch fermentation simulation Journal of Biotechnology, 193:70-82. and Goldrick S., Duran-Villalobos C., K. Jankauskas, Lovett D., Farid S. S, Lennox B., (2018) Modern day control challenges for industrial-scale fermentation processes. Computers and Chemical Engineering. Additionally help publicise this work on the following platforms: Twitter: @Stephen_Goldric Github: StephenGoldie LinkenIn: Stephen Goldrick - Post Doc @UCL Biochemical Socitey

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Data Science, Machine Learning, Bioprocess Control, Bioprocess Optimization, Bioprocess, Pharmaceuticals, Bioprocess Modeling

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