We are delighted to present our popular Chemical Development Course online, this three day course will be divided up over six afternoon sessions, timings are all set in GMT (Greenwich Mean Time) and are set later to help with our international clients.
The course will be run over 6 online Sessions, 18 hours of training on the following dates and times:
Wednesday, July 10th | 2.00pm 鈥 5.00pm BST
Thursday, July 11th | 2.00pm 鈥 5.00pm BST
Friday, July 12th | 2.00pm 鈥 5.00pm BST
Monday, July 15th | 2.00pm 鈥 5.00pm BST
Tuesday, July 16th | 2.00pm 鈥 5.00pm BST
Wednesday, July 17th | 2.00pm 鈥 5.00pm BST
Chemical process development is generally not taught as part of degree courses in higher education; the conversion of a synthetic route used for making milligram or gram quantities of a chemical into a process for manufacturing multi-kilogram and tonne quantities is typically learnt 鈥渙n the job鈥 by chemists in industry.
For many years, little chemical development work was published in the literature, until the establishment of the Organic Process R & D journal by Dr Trevor Laird (Founder of Scientific Update). Even now, 鈥渢ricks of the trade鈥 are handed down within individual company organisations, and it can be difficult to gain an awareness of what is involved in chemical development, and of the skills and techniques required to efficiently scale up chemical processes.
This three-day course, written and presented by highly experienced process chemists from the pharmaceutical and fine chemical industry, provides a comprehensive foundational overview of this fascinating and important element of the chemical industry. A logical investigative approach to all aspects of chemical development is described, with an abundance of case studies from literature, conferences and private communications. The multi-disciplinary nature of chemical development is emphasised, from the initial interaction with laboratory research scientists to the vital partnership with chemical engineers in the pilot plant and in the production environment. The lectures are interspersed with interactive problem sessions, enabling participants to share in the problem solving and troubleshooting typically experienced during chemical development.
The course will be run over 6 online Sessions, 18 hours of training on the following dates and times:
Wednesday, July 10th | 2.00pm 鈥 5.00pm BST
Thursday, July 11th | 2.00pm 鈥 5.00pm BST
Friday, July 12th | 2.00pm 鈥 5.00pm BST
Monday, July 15th | 2.00pm 鈥 5.00pm BST
Tuesday, July 16th | 2.00pm 鈥 5.00pm BST
Wednesday, July 17th | 2.00pm 鈥 5.00pm BST
Chemical process development is generally not taught as part of degree courses in higher education; the conversion of a synthetic route used for making milligram or gram quantities of a chemical into a process for manufacturing multi-kilogram and tonne quantities is typically learnt 鈥渙n the job鈥 by chemists in industry.
For many years, little chemical development work was published in the literature, until the establishment of the Organic Process R & D journal by Dr Trevor Laird (Founder of Scientific Update). Even now, 鈥渢ricks of the trade鈥 are handed down within individual company organisations, and it can be difficult to gain an awareness of what is involved in chemical development, and of the skills and techniques required to efficiently scale up chemical processes.
This three-day course, written and presented by highly experienced process chemists from the pharmaceutical and fine chemical industry, provides a comprehensive foundational overview of this fascinating and important element of the chemical industry. A logical investigative approach to all aspects of chemical development is described, with an abundance of case studies from literature, conferences and private communications. The multi-disciplinary nature of chemical development is emphasised, from the initial interaction with laboratory research scientists to the vital partnership with chemical engineers in the pilot plant and in the production environment. The lectures are interspersed with interactive problem sessions, enabling participants to share in the problem solving and troubleshooting typically experienced during chemical development.