Marine Full Electric Propulsion Power System
This example shows a representative marine half-ship electrical power system with base load, hotel load, bow thrusters and electric propulsion.
The principal components of the system are:
30 MVA Gas Turbine, Round Rotor Alternator
5 MVA Diesel Generator, Salient Pole Alternator
11.5 MVA Base Load
6 MVA Switched Hotel Load
20 MVA Average-Value Propulsion Rectifier
1 MVA Direct Online Start, Squirrel Cage Bow Thrusters
The sequence of events during the simulation is:
10 seconds - Hotel Load disconnected
20 seconds - Propulsion begins ramping up
30 seconds - Full power ahead
40 seconds - Propulsion begins ramping down
50 seconds - Bow Thrusters start up
60 seconds - Hotel Load connected
Model
Simulation Results from Simscape Logging
The plot below shows the diesel generator and gas turbine power outputs.
Results from Real-Time Simulation
This example has been tested on these platforms:
Speedgoat™ Performance real-time target machine with an Intel® 3.5 GHz i7 multi-core CPU and 4 GB RAM.
dSPACE® SCALEXIO LabBox with Intel® Core XEON E3-1275v3 at 3.5GHz and 4 GB RAM.
You can run this model in real time with a step size of 400 microseconds by using the Simscape local solver. For small sample rates, a task overrun might occur during the initial task execution due to a cold cache. To avoid this overrun, if the selected platform supports these options, relax the start-up behavior by specifying a limited number of task overruns or increasing the sample time of periodic tasks during the start-up phase of the real-time application.
See Also
Synchronous Machine Round Rotor | Synchronous Machine Salient Pole | Wye-Connected Load | Average-Value Rectifier (Three-Phase) | Induction Machine Squirrel Cage | Phase Permute | Circuit Breaker (Three Phase) | Transmission Line (Three-Phase) | SM AC1C
