Process Integration
Áreas Científicas |
Classificação |
Área Científica |
OFICIAL |
Processos em Engenharia Química e Biológica |
Ocorrência: 2022/2023 - 1S
Ciclos de Estudo/Cursos
Sigla |
Nº de Estudantes |
Plano de Estudos |
Anos Curriculares |
Créditos UCN |
Créditos ECTS |
Horas de Contacto |
Horas Totais |
MEBQ |
13 |
Study Plan |
2 |
- |
6 |
60 |
162 |
Docência - Responsabilidades
Língua de trabalho
Portuguese
Objetivos
Understand the scope of the design in chemical and biological engineering. Know how to read a process flow diagram and understand its structure. Understand some systematic methods of process design. Know how to use process simulators. Understand the usefulness of process design heuristics. Scheduling of batch processes. Enhance competencies in problem solving integrating previous knowledge.
Resultados de aprendizagem e competências
Not applicable.
Modo de trabalho
Presencial
Programa
1. Design in chemical engineering and biological engineering. 1.1 Process design and product design.
1.2 Case Studies.
2. Process flow diagrams.
2.1 Types of diagrams.
2.2 Basic structure of processes.
2.3 Integrated analysis of process diagrams.
2.4 Linear and non-linear balances.
2.5 Sequential-modular and simultaneous methods.
3. Introduction to process flow simulation.
3.1 Heuristics to analyse a process diagram.
3.2 Operating conditions and equipment sizing.
3.3 Commercial simulators (Aspen Plus, etc.).
4. Introduction to the design and scheduling of batch processes. 4.1 Concept of unit procedure (“recipe”).
4.2 Processing times and cycle time.
4.3 Gantt diagrams.
4.4 Relation between design and scheduling.
4.5 Production scale effects.
4.6 Single-product and multiproduct plants.
5. Economic analysis in the process design.
5.1 Estimates of investment and operating costs.
5.2 Economic feasibility analysis.
Bibliografia Obrigatória
Seider, W.D.; Seader, J.D.; Lewin, D.R; Product & Process Design Principles Synthesis, Analysis, and Evaluation,, John Wiley & Sons, 2004
Turton R.; Bailie, R.C.; Whiting, W.B.; Shaeiwitz, J.A.; Analysis, Synthesis, and Design of Chemical Processes, Prentice Hall International, 1998
Bibliografia Complementar
Biegle L.T., Grossmann, I.E.; Westerberg, A.W.; Systematic Methods of Chemical Process Design, Prentice Hall, 1997
Douglas,M.; Conceptual Design of Chemical Processes, McGraw-Hill Book Company, 1988
Peters,M. S.,and Timmerhaus K.D.; Plant Design and Economics for Chemical Engineers, McGraw Hill, 1991
Métodos de ensino e atividades de aprendizagem
In the theoretical classes, the exhibition technique is used, complemented with case presentation, inverted class method and for questions in order to stimulate interest in the themes, reasoning and critical spirit of students through the performance of individual work. In laboratory classes, students perform work using software to solve practical cases and perform group work.
The evaluation may be carried out by frequency, by normal season examination or by a time of appeal examination. Frequency evaluation consists of group work (30%) and a frequency (70%). The evaluation by examination consists of an overall evaluation test. The minimum rating for approval is 9.5 values.
Software
https://hpp.uva.es/software/
Tipo de avaliação
Distributed evaluation with final exam
Componentes de Avaliação
Designation |
Peso (%) |
Teste |
70,00 |
Trabalho laboratorial |
30,00 |
Total: |
100,00 |
Componentes de Ocupação
Designation |
Tempo (Horas) |
Estudo autónomo |
102,00 |
Frequência das aulas |
60,00 |
Total: |
162,00 |
Obtenção de frequência
Not applicable.
Fórmula de cálculo da classificação final
Evaluation in school period: 70% Test + 30% Work
Exam (all times): 100% Exam