Flow in pipes

Flow in pipes

When flowing through a pipe the friction causes the pressure energy of the fluid to fall and the internal energy of the fluid to increase.

Losses in pipe elements

HM 250.08

Losses in pipe elements

Influence of flow velocity on pressure loss, didactically successive pipe sections.

Fundamentals of pipe friction

HM 250.09

Fundamentals of pipe friction

Pipe friction for laminar / turbulent flow, Reynolds number and pipe friction factor.

Pressure curve along the inlet section

HM 250.10

Pressure curve along the inlet section

Friction losses in the inlet as well as with different pipe geometries and surface roughnesses.

Open channel and closed channel flow

HM 164

POpen channel and closed channel flow

Flow processes on different structures in open and closed channel flows; losses at inlet and outlet.

Losses in a pipe system

HM 150.11

Losses in a pipe system

Influence of flow velocity on pressure loss.

Energy losses in piping elements

HM 150.29

Energy losses in piping elements

Pressure losses in various pipe fittings and in the ball valve.

Pipe networks

HM 111

Pipe networks

Pressure losses at various piping elements and pipe networks; parallel and series connection of pipe sections.

Pipe friction for laminar / turbulent flow

HM 150.01

Pipe friction for laminar / turbulent flow

Determining the critical Reynolds number.

Losses in a pipe system

HM 150.11

Losses in a pipe system

Influence of flow velocity on pressure loss.

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