Base Knowledge
Not applicable.
Teaching Methodologies
Theoretical classes will be oriented towards understanding the basic notions of the curricular unit, being complemented with theoretical-practical classes for problem solving and case studies.
In theoretical and theoretical-practical classes, the subject will be exposed through the use of a PowerPoint slide projection system. Worksheets will be solved on the different chapters taught, group and individual work will be carried out to analyze scientific articles, search for information and process data on topics related to Bioengineering.
Students are encouraged to participate with questions and comments during theoretical and theoretical-practical classes. There will also be classes for the preparation, presentation and discussion of seminars prepared by the students.
Learning Results
The main objective of the course is to provide students with an integrated view of Bioengineering and its various fields of application, focusing on ethics and the analysis of engineering concepts and the design of biological processes and systems. The aim is for students to be able to: i) list the new paradigms in engineering and the life sciences, identifying current areas of technological importance, such as synthetic biology, nanobiotechnology, industrial and environmental biotechnological processes; ii) define the practice of engineering as a profession of public trust, scientific and technical valorization, accompanied by a commitment to ethical principles and deontological duties inherent to the free and responsible exercise of the profession; iii) develop skills in data processing, building graphs with Excel and interpreting results; iv) analyze, diagram and define chemical processes and their variables; v) write in accordance with the principles and practice of writing scientific documents and researching information; vi) apply the rules of citation and presentation of bibliography.
Program
1. BIOENGINEERING AS THE RESULT OF THE INTEGRATION OF PHYSICAL, ENGINEERING AND LIFE SCIENCES
Introduction to bioprocesses. Bioprocess engineering. Industrial, environmental and energy applications.
2. INTRODUCTION TO SCIENTIFIC/TECHNICAL WRITING
Characteristics of scientific documents: clarity, precision and logical structure. Typical structure of a document. Citations and bibliography Styles and norms. Information search and evaluation of information resources. Ethics in the use of information and plagiarism. Application to case studies.
3. INTRODUCTION TO ENGINEERING CALCULATIONS
Dimensions and units. Unit systems and conversions. Data representation and analysis in Excel. Application to case studies.
4. CHEMICAL/BIOLOGICAL PROCESSES
Process definition. Process variables. Classification of processes: continuous and discontinuous; steady state and transient. Manufacturing, flow and block diagrams. The mass balance. Examples of industrial applications.
5. ENGINEERING ETHICS
Contact with professional ethics capable of establishing the duties and responsibilities required by the evolution of the professional environment, reconciling it with the lasting values implied in the nature of the human being.
Curricular Unit Teachers
Grading Methods
- - Exame - 100.0%
Internship(s)
NAO
Bibliography
Main Bibliography
Moreira, M. J. (2024). Apontamentos de Introdução à Bioengenharia. ISEC (disponível na plataforma académica InforEstudante).
Pandey, A. & Teixeira, J. A. C. (Eds.). (2017). Current developments in biotechnology and bioengineering : foundations of biotechnology and bioengineering. Amsterdam. Elsevier. COTA: 6-15-43 (ISEC)
Bailey, J.E.& Ollis, D.F. (1986). Biochemical Engineering Fundamentals. McGraw-Hill. COTA: 6-13-18 (ISEC)
Supplementary Bibliography
Ghosh, R. (2006). Principles of Bioseparations Engineering. World Scientific Publishing. https://doi.org/10.1142/6183
Rego, A. & Braga, J. (2017). Ética para Engenheiros – Desafiando a Síndrome do Vaivém Challenger. LIDEL
Seider, W.D., Seader, J.D., Lewin, D.R. (2008). Product and process design principles. ISBN: 0-471-45247-5 0471203165.
Sirohi, R., Pandey, A, & Taherzadeh, M. J. (Eds). (2022). Current Developments in Biotechnology and Bioengeneering: Advances in Bioprocess Engineering. Elsevier. https://doi.org/10.1016/C2020-0-04191-5