Key information
- Faculty
- Faculty of Engineering Sciences
- Teaching department
- Chemical Engineering
- Credit value
- 15
- Restrictions
-
Only suitable for students within the Faculty of Engineering.
Need to have previously studied CENG0012 or CENG0015 or equivalent.
Check with the department (chemeng.teaching.admin@ucl.ac.uk) to confirm equivalent knowledge.
- Timetable
-
Alternative credit options
There are no alternative credit options available for this module.
Aims:
To provide an understanding of advanced reactor design and the principles and phenomena that are present in multiphase and catalytic reactions.
Learning Outcomes:
Upon completion of this module student should be able to:
- design advanced chemical reactors;
- evaluate the influence of mass transfer and hydrodynamics on reactor performance;
- apply advanced concepts for the design of chemical reactors;
- combine analytical and computational approaches for reactors design;
- critically evaluate what phenomena and under what circumstances need to be considered as related to the level of accuracy required for a specific design problem;
- gain experience on the operation and data analysis form laboratory chemical reactors;
Synopsis:
- Nonisothermal reactor design at steady and unsteady state
- Multiple reactions in PFR/CSTR
- Introduction to heterogeneous catalysis
- Mass transfer and reaction in heterogeneous catalytic reactions
- Design of fixed bed reactors
- Mass transfer and reaction in gas/liquid and gas/liquid/solid reactions
- Design of gas/liquid and las/liquid/solid reactors
- Nonideal reactors and residence time distribution
The Masters level (level 7) version of the module (CENG0018) has a stronger focus on unseen, and more open ended, problem solving.
Module deliveries for 2024/25 academic year
Intended teaching term:
Term 1 ÌýÌýÌý
Undergraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
20%
In-class activity
30%
Coursework
50%
Exam
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
0
- Module leader
-
Professor Asterios Gavriilidis
- Who to contact for more information
- chemeng.teaching.admin@ucl.ac.uk
Intended teaching term:
Term 1 ÌýÌýÌý
Postgraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
20%
In-class activity
30%
Coursework
50%
Exam
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
7
- Module leader
-
Professor Asterios Gavriilidis
- Who to contact for more information
- chemeng.teaching.admin@ucl.ac.uk
Intended teaching term:
Term 1 ÌýÌýÌý
Undergraduate (FHEQ Level 6)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
20%
In-class activity
30%
Coursework
50%
Exam
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
196
- Module leader
-
Professor Asterios Gavriilidis
- Who to contact for more information
- chemeng.teaching.admin@ucl.ac.uk
Last updated
This module description was last updated on 19th August 2024.
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