Educational guide School of Chemical Engineering |
english |
Chemical Engineering (2013) |
Subjects |
ADVANCED SEPARATION PROCESSES |
IDENTIFYING DATA | 2022_23 | |||||||||||||||||
Subject (*) | ADVANCED SEPARATION PROCESSES | Code | 20695103 | |||||||||||||||
Study programme |
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Cycle | 2nd | |||||||||||||||
Descriptors | Credits | Type | Year | Period | ||||||||||||||
6 | Compulsory | First | 2Q |
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Teaching | Modality by working group | Teaching language, timetables and exam dates | ||||||||||||||||
Prerequisites | ||||||||||||||||||
Department | Chemical Engineering |
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Coordinator |
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laureano.jimenez@urv.cat guillem.gilabert@urv.cat christine.elkhoury@urv.cat |
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Lecturers |
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Web | ||||||||||||||||||
General description and relevant information |
The course has two different parts, both dealing with separation technologies. Both parts (i.e., modelling and membrane) are totally independent. Classes of these two topics will be done in alternance. Part 1: separation of complex systems using computer aided process engineering tools as decision support systems. - The course schedule during the modelling part will be from 15:00 to 18:30 with 10 minutes break. - This part of the course will be done in the computer laboratory 304. Advanced modelling strategies for the design and rate separation strategies in steady state for complex systems using advance modelling strategies (sensitivy analysis, design specification, optimization, FORTRAN, calculator blocks, optimization, constraints...). To obtain such results AspenPlus and/or AspenHysys modelling tools will be used. Petroleum and oil separation: - Pseudocomponents: assay curves, ASTM, TBP, gravity, light ends, blending. - Pre-flash colum: furnace. - Atmosferic column: side strippers, pumparounds. - Vaccum column: furnace, side strippers, side-streams. - Sulfur content: assay curves, Sulfur distribution in the products... - Column internals: tray sizing & rating, pack (random &structured) sizing & rating. Solids separation: - SiO2 drier: solids. - Calcite crushing: PSD, crushers. - Particulate removal: PSD, cyclone, bag-filter, venturi-scrubber, electrostaticprecipitator, ultimate, proximate, and sulfur analyses. - Coal drying, coal combustion and coal separation: ultimate, proximate, and sulfur analyses, PSD, reactions with solids, - RGibbs, bag-filter, cyclone, fabric
filter. - Spray drier: generation of particles, spray dryer. Electrolyte separation: - Acid-base mixing and flashing: aqueous electrolytes, electrolyte wizard, electrolyte reactions, mixing, flashing - Sour water stripping: electrolytes wizard, apparent component approach - Inserts: import inserts, property sets, estimates - CO2 capture: rate-based models, Henry components, reactive distillation Part 2: Membrane separation Membrane technology from micro-filtration to ultra- or nano-filtration
and reverse osmosis. Finally, there is an introduction to membrane
synthesis and microencapsulation. |
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(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation. |