Lehre im Wasserbau - Bachelorstudiengänge

• define basic concepts of hydromechanics, hydrology, groundwater hydrology and water management
• derive the basic equations of hydrostatics, the kinematics of water movements and conservation laws, and describe and quantify the relevant processes of the water cycle.
• Describe the essential aspects of precipitation-runoff modelling and explain, for example, the derivation of common storage models or a unit hydrograph in a theoretical manner.

• define the basic concepts of hydraulic engineering and hydraulics
• explain the application of the conservation laws of hydromechanics to practical problems in hydraulics
• present the main tasks of hydraulic engineering and provide an overview of river engineering, flood protection, energy hydraulic engineering and transport hydraulic engineering.

Characteristics of sustainable construction and material cycles Key objectives, strategies and exemplary fields of research in the area of sustainable construction, innovative areas of application, e.g. recycling of construction waste.

• Nature-based hydraulic engineering
• Groundwater hydrology 
• Groundwater modelling with regard to groundwater movement and recharge
• Risk management in hydraulic engineering

Theoretical basics of Geo-Information-Systems

• Data models, geographical coordinates, geo-referencing, map-views
• Data mining and – analyses of geo-data 
• Analysis techniques

Characteristics of sustainable construction and material cycles Key objectives, strategies and exemplary fields of research in the area of sustainable construction, innovative areas of application, e.g. recycling of construction waste.

• Nature-based hydraulic engineering
• Groundwater hydrology 
• Groundwater modelling with regard to groundwater movement and recharge
• Risk management in hydraulic engineering

Theoretical basics of Geo-Information-Systems

• Data models, geographical coordinates, geo-referencing, map-views
• Data mining and – analyses of geo-data 
• Analysis techniques

• Nature-based hydraulic engineering
• Groundwater hydrology 
• Groundwater modelling with regard to groundwater movement and recharge
• Risk management in hydraulic engineering

Characteristics of sustainable construction and material cycles Key objectives, strategies and exemplary fields of research in the area of sustainable construction, innovative areas of application, e.g. recycling of construction waste.

• define basic concepts of hydromechanics, hydrology, groundwater hydrology and water management
• derive the basic equations of hydrostatics, the kinematics of water movements and conservation laws, and describe and quantify the relevant processes of the water cycle.
• Describe the essential aspects of precipitation-runoff modelling and explain, for example, the derivation of common storage models or a unit hydrograph in a theoretical manner.

Theoretical basics of Geo-Information-Systems

• Data models, geographical coordinates, geo-referencing, map-views
• Data mining and – analyses of geo-data 
• Analysis techniques

• define the basic concepts of hydraulic engineering and hydraulics
• explain the application of the conservation laws of hydromechanics to practical problems in hydraulics
• present the main tasks of hydraulic engineering and provide an overview of river engineering, flood protection, energy hydraulic engineering and transport hydraulic engineering.

• Nature-based hydraulic engineering
• Groundwater hydrology 
• Groundwater modelling with regard to groundwater movement and recharge
• Risk management in hydraulic engineering

• define basic concepts of hydromechanics, hydrology, groundwater hydrology and water management
• derive the basic equations of hydrostatics, the kinematics of water movements and conservation laws, and describe and quantify the relevant processes of the water cycle.
• Describe the essential aspects of precipitation-runoff modelling and explain, for example, the derivation of common storage models or a unit hydrograph in a theoretical manner.