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I'm using OpenStudio Version 2.1.

I applied the 'AEDG Office HVAC Radiant with DOAS' measure to a small office building and ran the model. The model came back with over 2,000 unmet cooling hours. See below for an image of the Unmet Hours Troubleshoot for one of the zones:

I then noticed that I am receiving the following an error such as the one below for each thermal zone:

*** * Warning * ZoneHVAC:LowTemperatureRadiant:VariableFlow [ZONE HVAC LOW TEMPERATURE RADIANT VARIABLE FLOW 3] condensation shut-off occurrence continues. *** * ~~~ * This error occurred 3260 total times; *** * ~~~ * during Warmup 0 times; *** * ~~~ * during Sizing 0 times. *** * ~~~ * Max=24.454547 C Min=19.09359 C

Reading the input/output reference seems to indicate that the system is turning off because the panel was cool enough to cause the water in the air to hit it's dew point, causing condensation. This makes sense to me since I know that is a design consideration for radiant systems. Is this correct?

The design temperature for the cooling loop is 59 F with an 8 degree \Delta T. I've tried changing this around a bit (with the associated radiant cooling temperature schedule), but have had little luck on getting rid of the unmet cooling hours due to the same error (assumption). Anyone have any advice on getting rid of the condensation? It's also totally possible (probable?) that I could be missing something else that is causing the unmet cooling hours.

I'm using OpenStudio Version 2.1.

I applied the 'AEDG Office HVAC Radiant with DOAS' measure to a small office building and ran the model. The model came back with over 2,000 unmet cooling hours. See below for an image of the Unmet Hours Troubleshoot for one of the zones:

I then noticed that I am receiving the following an error such as the one below for each thermal zone:

*** * Warning * ZoneHVAC:LowTemperatureRadiant:VariableFlow [ZONE HVAC LOW TEMPERATURE RADIANT VARIABLE FLOW 3] condensation shut-off occurrence continues. *** * ~~~ * This error occurred 3260 total times; *** * ~~~ * during Warmup 0 times; *** * ~~~ * during Sizing 0 times. *** * ~~~ * Max=24.454547 C Min=19.09359 C

Reading the input/output reference seems to indicate that the system is turning off because the panel was cool enough to cause the water in the air to hit it's dew point, causing condensation. This makes sense to me since I know that is a design consideration for radiant systems. Is this correct?

The design temperature for the cooling loop is 59 F with an 8 degree \Delta Delta T. I've tried changing this around a bit (with the associated radiant cooling temperature schedule), but have had little luck on getting rid of the unmet cooling hours due to the same error (assumption). Anyone have any advice on getting rid of the condensation? It's also totally possible (probable?) that I could be missing something else that is causing the unmet cooling hours.

I'm using OpenStudio Version 2.1.

I applied the 'AEDG Office HVAC Radiant with DOAS' measure to a small office building and ran the model. The model came back with over 2,000 unmet cooling hours. See below for an image of the Unmet Hours Troubleshoot for one of the zones:

I then noticed that I am receiving the following an error such as the one below for each thermal zone:

*** * Warning * ZoneHVAC:LowTemperatureRadiant:VariableFlow [ZONE HVAC LOW TEMPERATURE RADIANT VARIABLE FLOW 3] condensation shut-off occurrence continues. *** * ~~~ * This error occurred 3260 total times; *** * ~~~ * during Warmup 0 times; *** * ~~~ * during Sizing 0 times. *** * ~~~ * Max=24.454547 C Min=19.09359 C

Reading the input/output reference seems to indicate that the system is turning off because the panel was cool enough to cause the water in the air to hit it's dew point, causing condensation. This makes sense to me since I know that is a design consideration for radiant systems. Is this correct?

The design temperature for the cooling loop is 59 F with an 8 degree Delta T. I've tried changing this around a bit (with the associated radiant cooling temperature schedule), but have had little luck on getting rid of the unmet cooling hours due to the same error (assumption). Anyone have any advice on getting rid of the condensation? It's also totally possible (probable?) that I could be missing something else that is causing the unmet cooling hours.

I'm using OpenStudio Version 2.1.

I applied the 'AEDG Office HVAC Radiant with DOAS' measure to a small office building and ran the model. The model came back with over 2,000 unmet cooling hours. See below for an image of the Unmet Hours Troubleshoot for one of the zones:

I then noticed that I am receiving the following an error such as the one below for each thermal zone:

*** * Warning * ZoneHVAC:LowTemperatureRadiant:VariableFlow [ZONE HVAC LOW TEMPERATURE RADIANT VARIABLE FLOW 3] condensation shut-off occurrence continues. *** * ~~~ * This error occurred 3260 total times; *** * ~~~ * during Warmup 0 times; *** * ~~~ * during Sizing 0 times. *** * ~~~ * Max=24.454547 C Min=19.09359 C

Reading the input/output reference seems to indicate that the system is turning off because the panel was cool enough to cause the water in the air to hit it's dew point, causing condensation. This makes sense to me since I know that is a design consideration for radiant systems. Is this correct?

The design temperature for the cooling loop is 59 F with an 8 degree Delta T. I've tried changing this around a bit (with the associated radiant cooling temperature schedule), but have had little luck on getting rid of the unmet cooling hours due to the same error (assumption). Anyone have any advice on getting rid of the condensation? It's also totally possible (probable?) that I could be missing something else that is causing the unmet cooling hours.

Edit:
I looked into the issues that @rsunnam suggested. I checked the constructions and the internal construction source and it appears to have no issues. The materials material layers 2 and 3 indicate that it is 3 2 inches of concrete followed by the radiant tubes and then 2 more inches of concrete, which appears to be satisfactory according to this post. See image below for screenshots of the internal construction:

After checking that, I decided to graph the model that I initially posted about in order to prove that the pump was shutting off when the dew point temperature hit the floor temperature. This model had 1940 unmet cooling hours. See diagram below for a typical week:

Seeing that the pump was turning off due to the dew point temperature, I put in dehumidifier and set a humidistat to turn on when there is a relative humidity of more than 50%. This worked to eliminate the condensation shut off, but actually increased the unmet cooling hours to 2200! See diagram below for a typical week:

I then decided to change the cold water temperature schedule to activate earlier in the night and lowered the exit water temperature to 10 degrees C. This significantly lowered the unmet cooling hours to 900, but I'm still having issues getting it under my target number of 300. See diagram below for a typical week:

I'm still unsure if i have an error in my model causing these issues or if the location I have chosen (Houston) just can't handle radiant cooling systems.

Thanks!

I'm using OpenStudio Version 2.1.

I applied the 'AEDG Office HVAC Radiant with DOAS' measure to a small office building and ran the model. The model came back with over 2,000 unmet cooling hours. See below for an image of the Unmet Hours Troubleshoot for one of the zones:

I then noticed that I am receiving the following an error such as the one below for each thermal zone:

*** * Warning * ZoneHVAC:LowTemperatureRadiant:VariableFlow [ZONE HVAC LOW TEMPERATURE RADIANT VARIABLE FLOW 3] condensation shut-off occurrence continues. *** * ~~~ * This error occurred 3260 total times; *** * ~~~ * during Warmup 0 times; *** * ~~~ * during Sizing 0 times. *** * ~~~ * Max=24.454547 C Min=19.09359 C

Reading the input/output reference seems to indicate that the system is turning off because the panel was cool enough to cause the water in the air to hit it's dew point, causing condensation. This makes sense to me since I know that is a design consideration for radiant systems. Is this correct?

The design temperature for the cooling loop is 59 F with an 8 degree Delta T. I've tried changing this around a bit (with the associated radiant cooling temperature schedule), but have had little luck on getting rid of the unmet cooling hours due to the same error (assumption). Anyone have any advice on getting rid of the condensation? It's also totally possible (probable?) that I could be missing something else that is causing the unmet cooling hours.

Edit:
I looked into the issues that @rsunnam suggested. I checked the constructions and the internal construction source and it appears to have no issues. The material layers 2 and 3 indicate that it is 2 inches of concrete followed by the radiant tubes and then 2 more inches of concrete, which appears to be satisfactory according to this post. See image below for screenshots of the internal construction:

After checking that, I decided to graph the model that I initially posted about in order to prove that the pump was shutting off when the dew point temperature hit the floor temperature. This model had 1940 unmet cooling hours. See diagram below for a typical week:

Seeing that the pump was turning off due to the dew point temperature, I put in dehumidifier and set a humidistat to turn on when there is a relative humidity of more than 50%. This worked to eliminate the condensation shut off, but actually increased the unmet cooling hours to 2200! See diagram below for a typical week:

I then decided to change the cold water temperature schedule to activate earlier in the night and lowered the exit water temperature to 10 degrees C. This significantly lowered the unmet cooling hours to 900, but I'm still having issues getting it under my target number of 300. See diagram below for a typical week:

I'm still unsure if i have an error in my model causing these issues or if the location I have chosen (Houston) just can't handle radiant cooling systems.

Thanks!