- Docente: Elena Toth
- Credits: 9
- SSD: ICAR/02
- Language: Italian
- Moduli: Elena Toth (Modulo 1) Cristiana Bragalli (Modulo 2)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 2)
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Civil Engineering (cod. 0930)
-
from Feb 21, 2024 to Apr 11, 2024
-
from Apr 16, 2024 to Jun 06, 2024
Learning outcomes
By the end of this course, students have knowledge and critical understanding of the engineering systems and structures for the sustainable management of water, and in particular of multipurpose artificial reservoirs and hydropower plants. Students develop their skill by applying their knowledge to a real-world case study, devel-oping an individual project on water resources assessment and hydropower production, with both reservoir and run-of-the-river power plants.
Course contents
Requirements/Prior knowledge
Robust knowledge of Hydraulics and Hydrology, and in particular of under-pressure pipe flow and open-channel flow, meteo-hydrological measures and the statistical analysis of extreme events, is required to attend with profit this course. Students should also be able to use spread-sheets and/or programming macrolanguages (Matlab or R).
The lessons, apart from the seminars, will be held in Italian. It is therefore necessary to understand the Italian language in order to follow the course profitably.
Course Contents
The course deals with the fundamental elements underlying the design and operation of systems and structures for the multiple use of water resources, with particular attention to artificial reservoirs and to the production of hydroelectric energy.
Water uses and requirements. Assessment of water demands. Multiple-use water systems.
Assessment of water availability: acquisition, processing and validation of water resources data; hydrological analyses; flow-duration curves; estimation of environmental flow; estimates of evaporation from lakes.
Water intakes by natural rivers: intake works; inline weirs with and without gates; silt-intercepting works.
Types of dams: concrete gravity dams; arch dams; earth dams. Gates and spillways in hydraulic installations. Reference regulations for the design, construction and operation of dams.
Water Resources Systems Analysis: mathematical modelling of water resources systems: simulation and optimization methods.
Reservoir planning and management: sizing, operation rules, estimation and control of sedimentation.
Hydro Electric Power Generation and mini-hydro: general scheme; water penstock; types and design of surge tanks; main characteristics of hydraulic turbines; unsteady transient: water hammer and mass oscillation; hydro pumped storage power plants; assessment of the production of energy in hydroelectric dam and run-of-the-river plants; operational issues in hydroelectric power systems, economic sustainability of a project.
Readings/Bibliography
Lecture slides, as well as review articles and research papers that are not open access, will be made available on Virtuale for registered students.
Additional reading material includes:
Allen, R. G., Pereira, L. S., Raes, D., and Smith, M.: Crop evapotranspiration Guidelines for computing crop water requirements, FAO Irrigation and Drainage Paper 56, Food and Agriculture Organization of the United Nations, 1998.
Evangelisti G., Impianti idroelettrici, vol. I, Patron
Evangelisti G., Impianti idroelettrici, vol. II, Patron
Kondolf, G. M. et al. (2014), Sustainable sediment management in reservoirs and regulated rivers: Experiences from five continents, Earth’s Future, 2, 256–280, doi:10.1002/2013EF000184.
Loucks, D. P. and Ellco Van Beek (2005) Water Resources Systems Planning and Management: An Introduction to Methods, Models and Applications., UNESCO, Netherlands.
Jain, S.K., and Singh, V.P. (2003). Water Resources Systems Planning and Management. Elsevier, Amsterdam.
Teaching methods
Frontal lectures. Seminars with experts and technical visits. In-class exercises and home assignments, including spreadsheets/computer programming and use of specific software.
Assessment methods
Student achievement is assessed through: i) a written exam where the student is asked to reply to open questions focusing on the topics covered during the lectures (students should attend all lectures or obtain the notes from their colleagues when absent) without the aid of notes or books; ii) an oral exam where the student presents a report of the home assignments and discusses the outcome of the written exam.
Teaching tools
Lecture slides, assignments and exercises and their draft solutions are published in the collection “Virtuale” - University of Bologna (virtuale.unibo.it/) for registered students.
The teaching material is partly in Italian and partly in English.
Office hours
See the website of Elena Toth
See the website of Cristiana Bragalli
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.