| TFKI28 |
Kemisk och biologisk reaktionsteknik, 6 p
/Chemical Reaction Engineering/ |
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Prel. schemalagd
tid: 66 |
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Utbildningsområde: Teknik Ämnesgrupp: Kemiteknik Nivå (A-D):B |
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Mål:
The goal of the course is to introduce students to the basic concepts of chemical and biological reactor design with chemical engineering applications. Additionally, students will learn how to use Matlab to solve typical reaction engineering problems. The objectives are laid out in the following six levels, with the required knowledge and depth of understanding increasing with each level. A pass in the course can be obtained by demonstrating an ability to be able to complete the first three levels. Higher grades require an ability to complete all levels of objectives. By the end of the course, students are to be able to: (1) Demonstrate knowledge of facts: define CSTR, PFR, batch reactor, conversion, selectivity, yield, space time, residence time and steady state; (2) Explain and describe common reactor systems: describe a CSTR, PFR and batch reactor, including advantages and disadvantages of each and, in general terms, when they might be used; (3) Apply knowledge in order to design reactor systems: calculate the size of a CSTR, PFR and batch reactor, given appropriate data; calculate conversion in a given CSTR, PFR or batch reactor; perform the previous calculations for reactors with variable pressure, unknown temperature (i.e. calculate the temperature and conversion or volume), and under non-steady state conditions; calculate the equilibrium conversion for a given reaction; estimate the activation energy and pre-exponential factor for an Arrhenius-type reaction; estimate reaction order from experimental data for simple reactions. (4) Use knowledge to analyse reactor systems: analyse a chemical or biological reaction or set of chemical or biological reactions and recommend the best reactor system to meet a given objective; compare alternative reactor designs in order to recommend the best option; analyse an open-ended project description to obtain specific objectives and tasks to be completed. (5) Combine knowledge from previous courses with knowledge learned in TFKI28: solve more advanced reactor problems using Matlab for numerically solving differential equations and Simpsonâ?T rule for numerical integration; work in a team to accomplish a given task; prepare and present written and oral reports of work involved in an extended design project; use Matlab to solve moderately complicated reactor design problems. (6) Evaluate: oppose another groupâ?Ts presentation of their design project. |
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| Förkunskaper: (gäller studerande antagna till program som kursen ges inom, se 'För:' ovan) Calculus, Linear Algebra, General Chemistry. It is assumed that students already have a working knowledge of spreadsheets OBS! Tillträdeskrav för icke programstudenter omfattar vanligen också tillträdeskrav för programmet och ev. tröskelkrav för progression inom programmet, eller motsvarande. |
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| Påbyggnadskurser TFKI60 Design av kemitekniska processer |
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| Organisation: Föreläsningar, räkneövningar/datorövningar och laborationer. Kursen påbörjas i ht2 och slutförs i vt1. |
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| Kursinnehåll: Material-och energibalanser, reaktionkinetik, ideala reaktorer, komplexa reaktioner, industriella reaktorer. Reaktormodellering med Matlab. Projektlaboration som innebär eget arbete med litteraturstudier, försöksplanering samt försöksuppställning. |
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| Kurslitteratur: Fogler, H.S.: Elements of Chemical Reaction Engineering hemsidan: http://www.ifm.liu.se/~lawrence/reactioneng/ |
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| Examination: | |||
| TEN1 PRA1 |
En skriftlig tentamen (U,3,4,5) Ett projekt med muntlig och skriftlig redogörelse av resultat (U,3,4,5) |
3 p 3 p |
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| The oral and written components of the project will be graded out of 100 (75% weighting for the written report and 25% for the oral presentation), as will the written exam. These two marks will be combined in the weighting 2/6, 3/6, respectively, to obtain the final grade for the course. The final 1/6 is allocated to a Matlab project. | |||
Undervisningsspråk är Engelska.
Institution: IFM.
Studierektor: Stefan Svensson
Examinator: David Lawrence
Länk till kurshemsida på kursgivande institution
Ansvarig utbildningsnämnd: UNING
Engelsk kursplan
Om inget annat anges ovan gäller betygsskala enligt avsnitt a8.5 i de gemensamma bestämmelserna.
Kursplanen gäller för 2005 enligt beslut av ansvarig utbildningsnämnd.
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