Risk Analysis

Kód předmětu: 142RIAE
Garant předmětu: Ing. Miroslav Brouček, Ph.D.
Zakončení předmětu: Z,ZK
Počet kreditů: 6 kred.
Rozsah výuky: 2+3

Anotace(semestr )
Unified and comprehensive framework covering the various aspects of risk and reliability in both hydraulic structures and water quantity and quality problems. The topics cover uncertainty analysis of acquired data, stochastic simulations, decision theory under uncertainty and case studies. Methods for risk analysis of extremes in hydrology, groundwater clean-up, rivers. Geotechnical risks in dam engineering, safety assessment of various hydraulic structures, reliability analysis of dam equipment, risk and cost benefit analysis of projects related to water management. Risk analysis of urban water systems vulnerability to extreme events and climate change effects. Sources of uncertainty and their propagation through urban water models.
Obsah 
The course covers various aspects of risk and reliability in both hydraulic structures and water quantity and quality problems.

Introduction to the concept of risk analysis, types, terminology, methods
General methods for risk assessment; estimations and simulations; acceptable risk
Risk assessment and cost-benefit analysis for flood protection schemes
Geotechnical risks for hydraulic structures and site investigation
Reliability - based design and assessment of hydraulic structures and their parts
Load and Resistance Factor Design - Codes and Practice
Risk management for dam projects and other hydraulic structures
Cost benefit analysis for water management schemes
Risk analysis of water supply systems vulnerability to drought impacts
Risk analysis of urban drainage systems vulnerability to flood impacts
Risk analysis of urban streams vulnerability to pollution impacts
Sources of uncertainty in urban waters modelling, uncertainty propagation
Case studies of CBA
Literatura 
[1]  Fenton, G.A., Griffiths, D.V. (2008) Risk Assessment in Geotechnical Engineering; John Wiley & Sons, Inc.; ISBN: 978-0-470-17820-1
[2]  Fell, R., MacGregor, P., Stapledon, D., Bell, G. 2005: Geotechnical Engineering of Dams; CRC Press; ISBN: 978-1-138-74934-4
[3]  Cullen, A.C., Frey, H.C. (1999). Probabilistic Techniques in Exposure Assessment: A Handbook for Dealing with Variability and Uncertainty in Models and Inputs, Plenum Press; ISBN: 978-0-306-45956-6
[4]  Simonović, S. 2012 Floods in a Changing Climate: Risk Management (International Hydrology Series). Cambridge: Cambridge University Press. ISBN 978-1-107-01874-7.
[5]  Highland, L., M., Bobrowsky, P.: The Landslide Handbook - A Guide to Understanding Landslides. U.S. Department of the Interior, U.S. Geological Survey, Circular 1325, 129 p.
Návaznosti 
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Studijní plány 
Předmět je zařazen do následujících studijních plánů:

- studijní plán Water and Environmental Engineering, spec. Hydraulic Engineering (NW20200001), skupina Water and Environmental Engineering, 3rd semester (NW20200003), dop. semestr 3 (valid from 2020/21 )
- studijní plán Water and Environmental Engineering, spec. Environmental Engineering and Science (NW20200002), skupina Water and Environmental Engineering, 3rd semester (NW20200003), dop. semestr 3 (valid from 2020/21 )
- studijní plán Water and Environmental Engineering, spec. Water Management (NW20200003), skupina Water and Environmental Engineering, 3rd semester (NW20200003), dop. semestr 3 (valid from 2020/21 )