Dear Professor, I am very glad to get in touch with you. I have followed your youtube and learned the method of simulating future climate data, which is very helpful to my research. However, in the step of (3) morphing data, my program also reported errors to solar radiation data, but the problem window I encountered was different from what you demonstrated, and the data could not be automatically repaired. So that I have been unable to successfully get the deformed data and successfully export, I would like to ask if you have a further solution! Your reply will be of great help to me, looking forward to your reply!
Hey. Thanks for the video. I am curious about the dcv. It just follows a dummy data from occupancy or it follows the ventilation schedule? I mean, dcv can change the rate of ventilation based on ventilation schedule?
In real life, Demand-Controlled Ventilation is controlled by CO2 sensors. In energy modeling it's common to use occupancy as a proxy for CO2 (though there are ways of simulating CO2 accumulation more directly). The DCV that Honeybee uses is occupancy-based. The ventilation flowrate is tied to the number of people in the zone. In addition to this (or in lieu of this), you can set up ventilation that follows some other logic. I've got two additional videos in this series that might be of interest (ruclips.net/video/f7S4X7dRw9w/видео.html) and (ruclips.net/video/GbRYCk70B30/видео.html).
Air temperature is controlled per thermal zone according to the thermostat assigned to the HVAC system. In Honeybee, each "room" is typically a unique thermal zone with its own HVAC system and thermostat.
Hello Brendon. I am using an Ideal Loads HVAC System in EnergyPlus. Since it's an ideal system does that mean that my end uses are equal to my energy demands (COP=1)? I am trying to evaluate my model's results...
You are correct - the Ideal Loads System matches the demand. For more information about COP, check out the next video in the series. ruclips.net/video/KBAp0txhJCI/видео.html
Dear Professor, I am very glad to get in touch with you. I have followed your youtube and learned the method of simulating future climate data, which is very helpful to my research. However, in the step of (3) morphing data, my program also reported errors to solar radiation data, but the problem window I encountered was different from what you demonstrated, and the data could not be automatically repaired. So that I have been unable to successfully get the deformed data and successfully export, I would like to ask if you have a further solution! Your reply will be of great help to me, looking forward to your reply!
![Honeybee V1.4 :: Custom Window Geometry [Tutorial 3.2]](http://i.ytimg.com/vi/aVxzV1eOrLY/mqdefault.jpg)
![Honeybee V1.4 :: Custom Window Geometry [Tutorial 3.2]](/img/tr.png)
![Honeybee V1.4 :: Getting Started with Energy Modeling [Tutorial 1.1]](http://i.ytimg.com/vi/kDJfZpuJKeE/mqdefault.jpg)
![Honeybee V1.4 :: Constructions and Materials [Tutorial 1.4]](/img/1.gif)
Dear Professor, I am very glad to get in touch with you. I have followed your youtube and learned the method of simulating future climate data, which is very helpful to my research. However, in the step of (3) morphing data, my program also reported errors to solar radiation data, but the problem window I encountered was different from what you demonstrated, and the data could not be automatically repaired. So that I have been unable to successfully get the deformed data and successfully export, I would like to ask if you have a further solution! Your reply will be of great help to me, looking forward to your reply!
Hey. Thanks for the video. I am curious about the dcv. It just follows a dummy data from occupancy or it follows the ventilation schedule? I mean, dcv can change the rate of ventilation based on ventilation schedule?
In real life, Demand-Controlled Ventilation is controlled by CO2 sensors. In energy modeling it's common to use occupancy as a proxy for CO2 (though there are ways of simulating CO2 accumulation more directly). The DCV that Honeybee uses is occupancy-based. The ventilation flowrate is tied to the number of people in the zone. In addition to this (or in lieu of this), you can set up ventilation that follows some other logic. I've got two additional videos in this series that might be of interest (ruclips.net/video/f7S4X7dRw9w/видео.html) and (ruclips.net/video/GbRYCk70B30/видео.html).
Hello, I have a question about the heat limit. Is it per room or for the whole building?
Air temperature is controlled per thermal zone according to the thermostat assigned to the HVAC system. In Honeybee, each "room" is typically a unique thermal zone with its own HVAC system and thermostat.
Hey. Thanks for the video. Can you share the python script you wrote?
Check out 11:08-13:34 in the video. It shows the script.
Hello Brendon. I am using an Ideal Loads HVAC System in EnergyPlus. Since it's an ideal system does that mean that my end uses are equal to my energy demands (COP=1)? I am trying to evaluate my model's results...
You are correct - the Ideal Loads System matches the demand. For more information about COP, check out the next video in the series. ruclips.net/video/KBAp0txhJCI/видео.html
@@BrendonLevitt Thank you very much for your help and immediate response. I really appreciate it!
Dear Professor, I am very glad to get in touch with you. I have followed your youtube and learned the method of simulating future climate data, which is very helpful to my research. However, in the step of (3) morphing data, my program also reported errors to solar radiation data, but the problem window I encountered was different from what you demonstrated, and the data could not be automatically repaired. So that I have been unable to successfully get the deformed data and successfully export, I would like to ask if you have a further solution! Your reply will be of great help to me, looking forward to your reply!