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I suggest starting from

https://simulationresearch.lbl.gov/modelica/releases/latest/help/Buildings_Utilities_IO_BCVTB_Examples.html#Buildings.Utilities.IO.BCVTB.Examples.MoistAir

You can then delete the demultiplexer and the multiplexer objects first. Next, you can connect the blocks from_degC1, perToRel1, from_degC, perToRel with real input connectors as shown on the figure you have posted.

For the outputs, you can get the latent and sensible enthalpy flow rate from the Buildings.Utilities.IO.BCVTB.MoistAirInterface component (bouBCVTB). That is the one connected to the box you are referring to.

The block was used to compute the average values of the outputs over the sampling period to replicate what is done in the bcvtb block found in the MoistAir example (This block should of course be deleted prior to exporting the model as an FMu 1.0 for co-simulation). You may be able to bypass the block as well.

I suggest starting from

https://simulationresearch.lbl.gov/modelica/releases/latest/help/Buildings_Utilities_IO_BCVTB_Examples.html#Buildings.Utilities.IO.BCVTB.Examples.MoistAir

You can then delete the demultiplexer and the multiplexer objects first. Next, you can connect the blocks from_degC1, perToRel1, from_degC, perToRel with real input connectors as shown on the figure you have posted.

For the outputs, you can get the latent and sensible enthalpy flow rate from the Buildings.Utilities.IO.BCVTB.MoistAirInterface component (bouBCVTB). That is the one connected to the box you are referring to.

The I don't have the model any longer but I believe that block was used to compute the average values of the outputs over the sampling period to replicate what is done in the bcvtb block found in the MoistAir example (This block should of course be deleted prior to exporting the model as an FMu 1.0 for co-simulation). You may be able to bypass the block as well.

I suggest starting from

https://simulationresearch.lbl.gov/modelica/releases/latest/help/Buildings_Utilities_IO_BCVTB_Examples.html#Buildings.Utilities.IO.BCVTB.Examples.MoistAir

You can then delete the demultiplexer and the multiplexer objects first. Next, you can connect the blocks from_degC1, perToRel1, from_degC, perToRel with real input connectors as shown on the figure you have posted.

For the outputs, you can get the latent and sensible enthalpy flow rate from the Buildings.Utilities.IO.BCVTB.MoistAirInterface component (bouBCVTB). That is the one connected to the box you are referring to.

I don't have the model any longer but I believe that the block was used to compute the average values of the outputs over the sampling period to replicate what is done in the bcvtb block found in the MoistAir example (This block should of course be deleted prior to exporting the model as an FMu 1.0 for co-simulation). You may be able to bypass the block as well.

I suggest starting from

https://simulationresearch.lbl.gov/modelica/releases/latest/help/Buildings_Utilities_IO_BCVTB_Examples.html#Buildings.Utilities.IO.BCVTB.Examples.MoistAir

You can then delete the demultiplexer and the multiplexer objects first. Next, you can connect the blocks from_degC1, perToRel1, from_degC, perToRel with real input connectors as shown on the figure you have posted.

For the outputs, you can get the latent and sensible enthalpy flow rate from the Buildings.Utilities.IO.BCVTB.MoistAirInterface component (bouBCVTB). That is the one connected to the box you are referring to.

I don't have the model any longer but I believe that the block was used to compute the average values of the outputs over the sampling period to replicate what is done in the bcvtb block found in the MoistAir example (This block should of course be deleted prior to exporting the model as an FMu 1.0 for co-simulation). You may be able to bypass the block if you are OK using the current values as well.opposed to averaged ones.

I suggest starting from

https://simulationresearch.lbl.gov/modelica/releases/latest/help/Buildings_Utilities_IO_BCVTB_Examples.html#Buildings.Utilities.IO.BCVTB.Examples.MoistAir

You can then delete the demultiplexer and the multiplexer objects first. Next, you can connect the blocks from_degC1, perToRel1, from_degC, perToRel with real input connectors as shown on the figure you have posted.

For the outputs, you can get the latent and sensible enthalpy flow rate from the Buildings.Utilities.IO.BCVTB.MoistAirInterface component (bouBCVTB). That is the one connected to the box you are referring to.

I don't have the model any longer but I believe that the block was used to compute the average values of the outputs over the sampling period to replicate what is done in the bcvtb block found in the MoistAir example (This block should of course be deleted prior to exporting the model as an FMu FMU 1.0 for co-simulation). You may be able to bypass the block if you are OK using the current values as opposed to averaged ones.