78596 - SUSTAINABLE DESIGN OF WATER RESOURCES SYSTEMS

Scheda insegnamento

SDGs

L'insegnamento contribuisce al perseguimento degli Obiettivi di Sviluppo Sostenibile dell'Agenda 2030 dell'ONU.

Acqua pulita e igiene Energia pulita e accessibile Agire per il clima La vita sulla terra

Anno Accademico 2018/2019

Conoscenze e abilità da conseguire

Students of this course will learn advanced methods for the design of water resources systems. The main focus will be (1) the estimation of water resources in the presence of human impact and climate change, (2) the estimation of water demands, and (3) the evaluation of alternative solutions for reconciling the availability of water resources with the increasing water needs and the preservation of ecosystems and the environment. Decision theory will be considered as an effective and transparent means to evaluate competitive solutions, while uncertainty assessment will provide the basis for a pragmatic design. The joint analysis and modeling of water resources systems and societal systems will be the driving concept of the course.

Programma/Contenuti

The course focuses on the emerging problem and challenges related to the sustainable and resilient use of water resources, by referring to recent research development and scientific information.

The teacher will adopt an innovative approach to learning, which makes extensive use of interaction with students. Accordingly, students will be given the optional opportunity of delivering presentations to the class and the public, developing software, preparing open source contributions to be published on the web, substitute the final assessment of learning with a continuous time and interactive verification. The educational approach adopted by the teacher takes the technical application as the central thread of the lectures. An intensive interaction with the students will be established through web based discussions (see also http://distart119.ing.unibo.it/albertonew/?q=node/155 and http://distart119.ing.unibo.it/albertonew/?q=node/60. An example of tutorial is given at http://distart119.ing.unibo.it/albertonew/?q=node/158).

The lectures include: (1) an introduction to the assessment of water resources availability in different regions of the world, (2) rainfall-runoff modeling for the estimation of river flows to support the design of water resources systems under human impact, (3) assessment of water resources under human impact as an innovative tool to project future scenario of development, (4) uncertainty assessment for hydrological models, (5) integrated modeling of water resources systems and  societal systems and related risk, (6) scientific visions and future perspective for hydrological modeling.

Computer based exercises will be developed which will focus on technical applications.

Testi/Bibliografia

The teacher will prepare dynamic documents to support the learning process, which will be made available in the form of an open e-book, which will be open to interactive contribution by students (see http://distart119.ing.unibo.it/albertonew/?q=node/158).

A further suggested reading is the book:

Water Resources Systems Planning and Management: An Introduction to Methods, Models and Applications by Daniel P. Loucks and Eelco van Beek with contributions from Jery R. Stedinger, Jozef P.M. Dijkman, Monique T. Villars, freely available at http://ecommons.cornell.edu/handle/1813/2798http://ecommons.cornell.edu/handle/1813/2798

Metodi didattici

Students should preliminarily possess knowledge of open channel hydraulics and basic hydrology (estimation of extreme rainfall, estimation of peak river flow with simple approaches, river flow routing).

The course is taught through lectures. Part of them are dedicated to the solution of practical water resources management problems, that are developed at the computer.

Modalità di verifica dell'apprendimento

If the student opts for the traditional assessment of learning, the preparation of the student will be assessed through an oral colloquium whose duration is about 30 minutes. The student may present at the exam a brief report of the exercises that were developed during the course. Students are asked to reply to 3-4 questions focusing on the topics that were treated during the lectures. Students may be asked to solve a short exercise. The exam is passed if the student proves to be prepared on the theoretical principles and analytical derivations that were taught during the lectures. The teacher will explicitly mention to students during the lectures what are the basic questions that one needs to rigorously address in order to pass the exam. The speaking capability will also be evaluated but it is not a cause of failure. The laude is reserved to students who are excellently prepared and prove to have integrated their preparation with personal in-depth analysis.

If the student opts for the continuous assessment of learning, teacher will propose to student activities with interaction among students and the professor. These activities will be continuously evaluated. After the completion of the lectures teacher will propose an evaluation of the above interactive activities, which may lead to proposing a final mark without the need for the student to take a full final exam (a shortened exam may be proposed if the interaction was not fully developed). If the evaluation of the interactive activities is not satisfactory the student will be allowed to take the final exam according to the traditional assessment.

Strumenti a supporto della didattica

The teacher will made available notes on his personal web-site. Scientific papers will be distributed during the lectures as well as summaries of recent research outcomes. Moreover, the teacher makes available videos of the lectures (see https://www.youtube.com/playlist?list=PLzpKSIoIBFCOMSallyrDVFtpBOf0z8tub).

Link ad altre eventuali informazioni

http://www.albertomontanari.it

Orario di ricevimento

Consulta il sito web di Alberto Montanari