Energy and Biofuels
1
2021-2022
02004551
Biodiversity and Biotechnology
Portuguese
English
Face-to-face
SEMESTRIAL
6.0
Elective
2nd Cycle Studies - Mestrado
Recommended Prerequisites
Chemical Thermodynamics; Fluid Dynamics; Heat Transfer; Mass and Energy Balances; Introduction to Chemical and Biochemical Engineering
Teaching Methods
In the theoretical classes it is intended to motivate the students for contents of the course by promoting their participation and by exposing the topics a clear and understandable way by using audio visual means. In the TP classes discussion the pratical cases is to be carried out. As a complement of the T and TP classes it is intended to do a visit to an industrial site where the topics given are demonstrated in the real world.
Learning Outcomes
Conhecer as características e condições de funcionamento dos principais equipamentos de produção de energia na indústria e compreender as interações entre os dispositivos presentes numa rede de energia. Dotar os alunos de competências para identificar as principais variáveis nos processos de selecção e instalação dos equipamentos e desenvolvê-las na análise crítica dos sistemas de produção de energia.
- Compreender os compromissos do triângulo energia/ambiente/desenvolvimento económico.
- Comparar a energia fóssil com a energia renovável.
- Conhecer os métodos de produção de bioenergia e biocombustíveis: associados a biomassa, biogás, bioetanol, biodiesel, (bio) hidrogénio, éter dimetílico.
- Compreender os processos de transformação da biomassa lignocelulósica em energia: hidrólise, pirólise e gaseificação.
- Avaliar os combustíveis gasosos e líquidos (fósseis e sintéticos) - caracterização e rotas de produção.
Work Placement(s)
NoSyllabus
Thermal equipments: an introduction. Heat fluids in industrial equipments: characteristics and selection criteria.
Hot water production from solar panels: oerating principles, project options and selection criteria for components. Gastubular boilers and aquatubular counterpart for industrial applications.Cogeneration and trigeneration systems in industry. The use of renewable energy: hydro, wind, solar (photovoltaic and thermal), geothermal, ocean waves and biomass. Biofuels as an alternative or additive to fossil fuels. The technology available for the production of biofuels. Interest in biofuels: bioethanol, biodiesel, biogas and biohydrogen. The transformation of lignocellulosic biomass into energy: hydrolysis, pyrolysis and gasification. Biorefinery. The gaseous and liquid fuels (fossil and synthetic) - characterization and production.
Head Lecturer(s)
Abel Gomes Martins Ferreira
Assessment Methods
Assessment
Project: 20.0%
Synthesis work: 20.0%
Exam: 60.0%
Bibliography
-Elliot, T. and editors of Power Magazine; Standard Handbook of Powerplant Engineering; McGraw-Hill, 1989.
-Martin, Mario Villares; Cogeneración; 2ª Edición, 2003. Hinrichs & Kleinbach, Energy: its use and the environment, 4ª ed., Thomson, Brooks/Cole, 2005
- Speight, J. Synthetic Fuels Handbook – Properties, Process and Performance, McGraw Hill, 2005
- Reith, JH, Wijffels, RH e Barten H Bio-methane & Bio-hydrogen: status and perspectives of biological methane and hydrogen production, Dutch Biological Hydrogen Foundation, 2003
- Abul Azad, K, Rasul, M Advanced Biofuels: Applications, Technologies and Environmental Sustainability (Woodhead Publishing Series in Energy) 1st Edition, Woodhead Publishing, 1st Ed. 2019
- Dahiya, A Bioenergy, Biomass to Biofuels and Waste to Energy, 2nd Edition, Academic Press, 2020
- Rossiter, AP, Jones, BP Energy Management and Efficiency for the Process Industries, Wiley-AIChE, 1st Ed., 2015