ECTS Course Catalogue
Course details
Course code:
IISS20510o14Semester:
2014/2015 winterName:
Hydrotechnical concrete structuresMajor:
Environmental EngineeringStudy Type:
second cycleCourse type:
compulsoryStudy Semester:
2ECTS points:
5Hours (Lectures / Tutorials / Other):
30 / 30 / 0Lecturer:
dr inż. Robert KasperekLanguage of instruction:
PolishLearning outcomes:
Knowledge:
The student knows the guidelines for the design of hydrotechnical concrete structures; has the knowledge of both domestic and international inland waterways; knows the principles of implementation of model tests of hydrotechnical structures; is familiar with modern technologies and materials applied in hydrotechnical concrete construction; has knowledge of the design of surface water intakes; knows the causes and how to prevent hydraulic structures disasters.
Abilities:
The student can name and describe waterways in Poland and in Europe; knows the design principles of fish passes, can design a surface water intake; knows how to define and calculate the basic criteria for hydraulic testing of physical models of hydrotechnical structures; is able to select appropriate technologies and materials in selected concrete hydrotechnical structures.
Competences:
Is aware of the impact of hydrotechnical concrete structures on the environment; can provide information and knowledge to the society in the field of hydraulic engineering.Prerequisites:
Fluid Mechanics, Computer aided design, Mechanics and Strength of Materials, Meteorology and hydrology, Hydrogeology, Regulation of rivers, Soil MechanicsCourse content:
Concrete hydraulic construction versus ecology. Guidelines for the design of hydraulic structures. Fish passes. Inland waterways: natural, navigable canals, floating fleet. Structures on waterways: locks, lifts, ramps, river ports. Filtration under and around dams. Washing away of the bottom and banks below the water structures, securing of bottom. Model studies in hydraulic engineering. Surface water intakes and ice conditions on rivers. Net-stone structures (gabions) in hydraulic engineering. Concrete dams and release equipment. Execution and repair of hydraulic structures. Modern technologies and materials in the hydraulic engineering. Hydraulic structures disasters.Recommended literature:
Assessment methods:
score of projects, written examComment: