1. General information
Course:
INTEGRATED LABORATORY OF UNIT OPERATIONS AND CHEMI
Code:
57723
Type:
CORE COURSE
ECTS credits:
6
Degree:
344 - CHEMICAL ENGINEERING
Academic year:
2021-22
Center:
1 - FACULTY OF SCIENCE AND CHEMICAL TECHNOLOGY
Group(s):
21
Year:
3
Duration:
C2
Main language:
Spanish
Second language:
Use of additional languages:
English Friendly:
Y
Web site:
Bilingual:
N
Lecturer:
FERNANDO DORADO FERNANDEZ
- Group(s):
21
Building/Office
Department
Phone number
Email
Office hours
Enrique Costa. Despacho 2
INGENIERÍA QUÍMICA
3516
fernando.dorado@uclm.es
Lecturer:
IGNACIO GRACIA FERNANDEZ
- Group(s):
21
Building/Office
Department
Phone number
Email
Office hours
Enrique Costa Novella
INGENIERÍA QUÍMICA
3419
ignacio.gracia@uclm.es
Lecturer:
ANA RAQUEL DE LA OSA PUEBLA
- Group(s):
21
Building/Office
Department
Phone number
Email
Office hours
Enrique Costa. Despacho 16
INGENIERÍA QUÍMICA
+34926051963
anaraquel.osa@uclm.es
Lecturer:
ANGEL PEREZ MARTINEZ
- Group(s):
21
Building/Office
Department
Phone number
Email
Office hours
E. Costa / despacho 13
INGENIERÍA QUÍMICA
3413
angel.perez@uclm.es
Lecturer:
MARIA LUZ SANCHEZ SILVA
- Group(s):
21
Building/Office
Department
Phone number
Email
Office hours
Enrique Costa. Despacho 12
INGENIERÍA QUÍMICA
6307
marialuz.sanchez@uclm.es
2. Pre-Requisites
Mandatory: None.
Recommended: Unit Opertions, Fluid Flow, Heat Transfer, and Chemical Reacion Engineering.
3. Justification in the curriculum, relation to other subjects and to the profession
This subject is the first of the two in which the subject Experimentation in Chemical Engineering has been splitted. It is fundamental as, due to its practical nature, the students have the opportunity to apply the theoretical knowledge previously acquired in other subjects, as well as integrate and use them together. Likewise, they acquire skill in handling equipment characteristic of the profession.
The implementation of this subject in the third year of the Degree in Chemical Engineering assumes that the previous theoretical knowledge required in it (fundamentally Energy and Mass Balances, Heat Transmission and Fluid Flow) have already been developed previously.
4. Degree competences achieved in this course
| Course competences | |
|---|---|
| Code | Description |
| E19 | Knowledge about material and energy balances, biotechnology, material transfer, separation operations, chemical reaction engineering, reactor design, and recovery and transformation of raw materials and energy resources. |
| E20 | Capacity for analysis, design, simulation and optimization of processes and products. |
| E21 | Capacity for the design and management of applied experimentation procedures, especially for the determination of thermodynamic and transport properties, and modeling of phenomena and systems in the field of chemical engineering, systems with fluid flow, heat transfer, mass transference, kinetics of chemical reactions and reactors. |
| E22 | Ability to design, manage and operate simulation, control and instrumentation procedures of chemical processes. |
| E26 | Knowledge and capacity of management and specification of the main industrial equipment in the area of knowledge of chemical engineering |
| E40 | Ability to evaluate and implement quality criteria in the chemical industry and chemical laboratories |
| G01 | Capacity for the direction, of the activities object of the engineering projects described in the competence G1. |
| G02 | Knowledge in basic and technological subjects, which enables them to learn new methods and theories, and give them versatility to adapt to new situations. |
| G03 | Ability to solve problems with initiative, decision making, creativity, critical reasoning and to communicate and transmit knowledge, skills and abilities in the field of Chemical Engineering. |
| G17 | Synthesis capacity |
| G19 | Ability to analyze and solve problems |
| G22 | Creativity and initiative |
| G24 | Recognition of diversity, multiculturalism and gender equality |
| G26 | Obtaining skills in interpersonal relationships. |
5. Objectives or Learning Outcomes
| Course learning outcomes | |
|---|---|
| Description | |
| To have the ability to handle equipment and facilities characteristic of the chemical industry, both at laboratory scale and pilot plant. | |
| To practice in a practical way the knowledge acquired about Basic Operations, Fluid Flow, Heat Transmission, Chemical Reaction Engineering, Separation and Control and Instrumentation Operations. | |
| To be able to unify the knowledge acquired about Basic Operations, Fluid mechanics, Heat Transmission, Chemical Reaction Engineering, Separation Operations and Control and Instrumentation of the degree, and to apply them jointly. | |
| Additional outcomes | |
| Not established. |
6. Units / Contents
-
Unit 1: Packed bed pressure drop
-
Unit 2: Heat transfer by forced convection
-
Unit 3: Heat exchanger U calculation
-
Unit 4: Numerical and analogical solution of the heat equation
-
Unit 5: Non-stationary heat transfer
-
Unit 6: Fluid flow
-
Unit 7: Design of a plug flow reactor
-
Unit 8: Design of a perfectly mixed flow reactor
7. Activities, Units/Modules and Methodology
| Training Activity | Methodology | Related Competences (only degrees before RD 822/2021) | ECTS | Hours | As | Com | Description | |
| Laboratory practice or sessions [ON-SITE] | Guided or supervised work | E19 E20 E21 E22 E26 E40 G01 G02 G03 G17 G19 G22 G24 G26 | 1.4 | 35 | Y | Y | ||
| Group tutoring sessions [ON-SITE] | Group tutoring sessions | E19 E20 E21 E22 E26 E40 G01 G02 G03 G17 G19 G22 G24 G26 | 0.95 | 23.75 | Y | Y | ||
| Practicum and practical activities report writing or preparation [OFF-SITE] | Self-study | E19 E20 E21 E22 E26 E40 G01 G02 G03 G17 G19 G22 G24 G26 | 3.6 | 90 | Y | Y | ||
| Final test [ON-SITE] | Assessment tests | E19 E20 E21 E22 E26 E40 G01 G02 G03 G17 G22 | 0.05 | 1.25 | Y | Y | ||
| Total: | 6 | 150 | ||||||
| Total credits of in-class work: 2.4 | Total class time hours: 60 | |||||||
| Total credits of out of class work: 3.6 | Total hours of out of class work: 90 | |||||||
As: Assessable training activity Com: Training activity of compulsory overcoming (It will be essential to overcome both continuous and non-continuous assessment).
8. Evaluation criteria and Grading System
| Evaluation System | Continuous assessment | Non-continuous evaluation * | Description |
| Practicum and practical activities reports assessment | 55.00% | 55.00% | |
| Final test | 45.00% | 45.00% | |
| Total: | 100.00% | 100.00% |
According to art. 4 of the UCLM Student Evaluation Regulations, it must be provided to students who cannot regularly attend face-to-face training activities the passing of the subject, having the right (art. 12.2) to be globally graded, in 2 annual calls per subject , an ordinary and an extraordinary one (evaluating 100% of the competences).
Evaluation criteria for the final exam:
-
Continuous assessment:The labwork activity is absolutely mandatory to pass the subject.
Minimum mark os the praticum to pass: 4,0
Minimum mark of the final exam to pass: 4,0
Mínimum global mark to pass: 5,0 -
Non-continuous evaluation:Evaluation criteria not defined
Specifications for the resit/retake exam:
Evaluation criteria not defined
Specifications for the second resit / retake exam:
Evaluation criteria not defined
9. Assignments, course calendar and important dates
| Not related to the syllabus/contents | |
|---|---|
| Hours | hours |
