In Simscape Rankine Cycle example the Turbine does not rotate
I tried to see how the rankine example worked but could not get my head around.
I have seen that elements like motor convert electrical energy to torque and you can measure it using an Ideal Rotational Motion Sensor:
In the "Rankine Cycle" example you can see a turbine connected to a flow energy:
If you replace the Load by a "Rotational Motion Sensor" it will never change from 0, no matter how much flow passes into the turbine through the ports A and B:
So, my question is why? I saw in the "load" block there is a speed source forcing the turbine to rotate at nominal speed, and summing the linear torque to it but why?I tried to see how the rankine example worked but could not get my head around.
I have seen that elements like motor convert electrical energy to torque and you can measure it using an Ideal Rotational Motion Sensor:
In the "Rankine Cycle" example you can see a turbine connected to a flow energy:
If you replace the Load by a "Rotational Motion Sensor" it will never change from 0, no matter how much flow passes into the turbine through the ports A and B:
So, my question is why? I saw in the "load" block there is a speed source forcing the turbine to rotate at nominal speed, and summing the linear torque to it but why? I tried to see how the rankine example worked but could not get my head around.
I have seen that elements like motor convert electrical energy to torque and you can measure it using an Ideal Rotational Motion Sensor:
In the "Rankine Cycle" example you can see a turbine connected to a flow energy:
If you replace the Load by a "Rotational Motion Sensor" it will never change from 0, no matter how much flow passes into the turbine through the ports A and B:
So, my question is why? I saw in the "load" block there is a speed source forcing the turbine to rotate at nominal speed, and summing the linear torque to it but why? rankine-cycle, turbine, torque, speed, energy MATLAB Answers — New Questions