Course Syllabus
Titolo
**Sustainable Chemical Processing Technologies
**
Docente(i)
Heiko Lange ; Luca Zoia
Lingua
English
Breve descrizione
PhD students of essentially all chemical disciplines are directly or indirectly concerned with the im-plementation of sustainable chemical processing and analysis, including apart from the classical chemical sectors: i) the biotechnology sector; ii) the pharmaceutical industry; iii) water and soil remediation sectors; iv) waste treatment sectors, including agricultural waste management.
The course will introduce the different technologies nowadays available at various scales for a (more) sustainable and green(er) chemical processing. Such processing includes classical aspects of chemical synthesis, as well as chemical processes encountered in contexts of water remediation, soil requalification, and waste treatment. The technologies that will be presented and critically discussed include flow chemistry tools, biotechnologies involving isolated biomass components as well as entire organisms, and state-of-the-art inline monitoring technologies. The course will highlight how the novel technologies intercept with computer-assisted planning and monitoring of processes, and data base-assisted real-time analysis for process control and optimisation.
The topics will be treated also in form of case studies: short introduction into the case by the lecturers, followed by elaboration of the cases in teamwork, presentation/discussion of results.
The language and the level of details will be tailored to the specific needs of the actual audience that will be evaluated at the beginning of the course; eventual knowledge differences will be accounted for by immediate interven-tions by the lecturer and in form of background material made available via the e-learning platform prior to the lectures.
Active contributions to group work and during final discussion of cases is re-quired for successful participation.
CFU / Ore
2 CFU - 16 Hours (lecture)
Periodo di erogazione
II Semester: June 25th and June 27th (14.30 - 18.30).
Sustainable Development Goals
Title
**Sustainable Chemical Processing Technologies
**
Teacher(s)
Heiko Lange ; Luca Zoia
Language
English
Short description
PhD students of essentially all chemical disciplines are directly or indirectly concerned with the im-plementation of sustainable chemical processing and analysis, including apart from the classical chemical sectors: i) the biotechnology sector; ii) the pharmaceutical industry; iii) water and soil remediation sectors; iv) waste treatment sectors, including agricultural waste management.
The course will introduce the different technologies nowadays available at various scales for a (more) sustainable and green(er) chemical processing. Such processing includes classical aspects of chemical synthesis, as well as chemical processes encountered in contexts of water remediation, soil requalification, and waste treatment. The technologies that will be presented and critically discussed include flow chemistry tools, biotechnologies involving isolated biomass components as well as entire organisms, and state-of-the-art inline monitoring technologies. The course will highlight how the novel technologies intercept with computer-assisted planning and monitoring of processes, and data base-assisted real-time analysis for process control and optimisation.
The topics will be treated also in form of case studies: short introduction into the case by the lecturers, followed by elaboration of the cases in teamwork, presentation/discussion of results.
The language and the level of details will be tailored to the specific needs of the actual audience that will be evaluated at the beginning of the course; eventual knowledge differences will be accounted for by immediate interven-tions by the lecturer and in form of background material made available via the e-learning platform prior to the lectures.
Active contributions to group work and during final discussion of cases is re-quired for successful participation.
CFU / Hours
2 CFU - 16 Hours (lecture)
Teaching period
II Semester: June 25th and June 27th (14.30 - 18.30).