Hydraulics For Civil Engineering

Fluid mechanics plays a fundamental and key role in engineering education. Lectures and laboratory exercises on fluid mechanics are part of the standard curriculum for a wide range of engineering disciplines, such as mechanical and plant engineering, energy and process engineering, environmental engineering, shipbuilding, civil engineering, agriculture, food technology etc. The fundamental principles of fluid mechanics are also an indis
pensable part of the teaching programme in vocational education and training for many technical professions. The graphic below illustrates the structure of the GUNT programme for product sector 4. The field of general fluid mechanics is covered in catalogue 4. Catalogue 4b details the subject
of hydraulic engineering and catalogue 4a deals with fluid machinery.

Related fields of study:

• hydraulic engineering

• supply engineering

• shipbuilding

• marine technology

• environmental engineering

• geosciences

Products

HM 169 Visualisation of seepage flows

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HM 141 Hydrographs after precipitation

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HM 145 Advanced hydrological investigations

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HM 165 Studies in hydrology

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CE 116 Cake and depth filtration

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HM 167 Groundwater flow

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HM 152 Potential flow

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HM 168 Sediment transport in river courses

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HM 142 Separation in sedimentation tanks

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HM 140 Open-channel sediment transport

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HM 166 Fundamentals of sediment transport

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HM 161 Experimental flume 600x800mm

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HM 163 Experimental flume 409x500mm

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HM 162 Experimental flume 309x450mm

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HM 160 Experimental flume 86x300mm

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HM 143 Transient drainage processes in storage reservoirs

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HM 156 Water hammer and surge chamber

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HM 150.16 Series and parallel configuration of pumps

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HM 150.04 Centrifugal pump

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HM 150.20 Operating principle of a Francis turbine

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HM 150.19 Operating principle of a Pelton turbine

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HM 111 Pipe networks

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HM 164 Open channel and closed channel flow

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HM 150.11 Losses in a pipe system

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HM 150.01 Pipe friction for laminar / turbulent flow

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HM 150.12 Vertical flow from a tank

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HM 150.09 Horizontal flow from a tank

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HM 150.10 Visualisation of streamlines

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HM 150.21 Visualisation of streamlines in an open channel

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HM 150.08 Measurement of jet forces

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HM 150.07 Bernoulli’s principle

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HM 150.18 Osborne Reynolds experiment

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HM 150.39 Floating bodies for HM 150.06

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HM 150.06 Stability of floating bodies

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HM 150.05 Hydrostatic pressure in liquids

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HM 115 Hydrostatics trainer

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