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Syllabus 2016-17 - 74712004 - Chemical Technology (Tecnología química)
- Level 1: Tutorial support sessions, materials and exams in this language
- Level 2: Tutorial support sessions, materials, exams and seminars in this language
- Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: | Máster en Ingeniería industrial |
FACULTY: | SCHOOL OF ENGINEERING OF JAÉN |
ACADEMIC YEAR: | 2016-17 |
COURSE: | Chemical Technology |
NAME: Chemical Technology | |||||
CODE: 74712004 | ACADEMIC YEAR: 2016-17 | ||||
LANGUAGE: English | LEVEL: 2 | ||||
ECTS CREDITS: 5.0 | YEAR: 1 | SEMESTER: SC |
NAME: CASTRO GALIANO, EULOGIO | ||
DEPARTMENT: U122 - INGENIERÍA QUIM.,AMBIENTAL Y DE LOS MAT. | ||
FIELD OF STUDY: 555 - INGENIERÍA QUÍMICA | ||
OFFICE NO.: B3 - 405 | E-MAIL: ecastro@ujaen.es | P: 953212163 |
WEBSITE: http://www4.ujaen.es/~ecastro/ | ||
ORCID: https://orcid.org/0000-0003-1719-6049 | ||
LANGUAGE: - | LEVEL: 2 |
Unit 1. Introduction to Chemical Engineering. 1.1. Concepts of Chemical Engineering. 1.2. Description of a process
Unit 2. Mass balances. General concepts. 2.1. Conservation principle. 2.2. Types of mass balances. 2.3. General procedure for troubleshooting in mass balances.
Unit 3. Macroscopic mass balances in systems without chemical reaction. 3.1. Macroscopic mass balances in steady state. Units without chemical reaction. 3.2. Macroscopic mass balances in steady state. Systems without chemical reaction.
Unit 4. Macroscopic mass balances in systems with chemical reaction. 4.1. Macroscopic material balances in steady state. Units with chemical reaction. 4.2. macroscopic material balances in steady state. Systems with chemical reaction
Computer Room. Description and Application of ASPEN Plus simulation software for solving material balances.
Unit 5. Phase equilbria. 5 .1. Mass balance and equilibrium relationship between phases. 5.2 Liquid-vapor equilibrium. 5.3 Distillation
Unit 6. Macroscopic energy balances without chemical reaction systems. 6.1. Macroscopic energy balances in steady state. Systems without chemical reaction. 6.2. Evaporation
Unit 7. Macroscopic energy balances in systems with chemical reaction. 7.1. macroscopic energy balances in steady state. Systems with chemical reaction.
Computer Room. Application of simulation software ASPEN Plus in solving energy balances
Unit 8. Separation operations. 8.1. Definition and classification of separation unit operations.
Unit 9. Chemical Reactors. 9.1. Introduction to chemical reactors. 9.2 Types of reactors. 9.3 Chemical kinetics. 9.4. Ideal reactors. 9.5 Agitated tank batch reactor. 9.6 Perfectly mixed continuous reactor. 9.7 Plug flow continuous reactor. 9.8 Association of reactors. 9.9 Introduction to real reactors
A1. EXPOSITIVE CLASSES IN LARGE GROUP. Presentation of the main theoretical-practical contents. 30 h
Although they are led by the teacher, students also have an active role in the resolution of cases and problems during the sessions and involve a significant proportion of self-work by the student.
A.2. CLASSES IN GROUPS OF PRACTICES 20 h
They consist of four types of activities:
M10MR. Problem Solving. It is an essential part of the course. Students will be given a list of problems, some of which will be resolved as examples in class and others will be proposed as assignments to deliver through the university teaching platform.
M6MR. Seminars. Presentation and discussion of one or more case studies about the contents of the subject or the presentation to the classmates of the resolution of numerical problems by students (one per student, if possible, depending on the number of students).
M8MR. Laboratories. It consists of a two-hour session in the laboratories of the Chemical Engineering Department, in order to meet essential elements of a facility such as heat exchangers, reactors, distillation columns, etc.
M9MR. Computer room. Use of the process simulation software ASPEN Plus in the computer room.
Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support
Written exam. Resolution of issues and problems related to the contents developed during the course (50% value). This element of evaluation is especially oriented to CB10R, CB6R, CB7R, CB8R, CB9R, CE04, CG01, CG02, CG03, CG04, CG07, CG08, CG09, CG10, CG11, CT01, CT02, CT03 and CT05 skills. Similarly, it is an element which will assess the achievement of the three learning outcomes considered in this matter.
Delivery of assignments. The teacher will propose several problems to deliver, primarily through the UJA teaching platform at different dates throughout the semester. Allocations may also include the contents of the work done in seminars. The submission and evaluation of these assignments can be up to 40% of the final grade.
Competences affected by this element of evaluation are mainly CB10R, CB6R, CB7R, CB8R, CB9R, CE04, CG01, CG02, CG03, CG04, CG07, CG08, CG09, CG10, CG11, CT01, CT02, CT03 and CT05. Similarly, it is an element which will assess the achievement of the three learning outcomes considered in this matter.
Detail of competences developed specifically with these elements of evaluation:
Troubleshooting Seminars: CG10, CG11, CT05
Delivery of assignments through the platform: CG09, CG11
Lab and computer practice. Attendance at laboratory and computer sessions and delivery, if any, of the corresponding assignments, represent up to 10% of the final grade. The competences developed more specifically are: CB10R, CB6R, CB7R, CE04
- Elementary principles of chemical processes. Edition: -. Author: Felder, Richard M.. Publisher: New York, [etc.]: John Wiley, 2000 (Library)
- Basic principles and calculations in chemical engineering. Edition: 6th ed. Author: Himmelblau, David M.. Publisher: Upper Saddle River: Prentice Hall, cop. 1996 (Library)