 | 1 | initial version |
I am using ideal air loads in my model. When i changed the heating sizing factor and cooling sizing factor to 1.00, the results for heating and cooling energy did not change (End Uses).
Does this mean that no system energy losess are taken into account for the heating and cooling system when using ideal air loads ?
Because in the end results the total site and net site energy are equal (also total an net source energy).
Tnx in advance
| | 2 | No.2 Revision |
I am using ideal air loads in my model. When i changed the heating sizing factor and cooling sizing factor to 1.00, the results for heating and cooling energy did not change (End Uses).
Does this mean that no system energy losess losses are taken into account for the heating and cooling system when using ideal air loads ?
Because in the end results the total site and net site energy are equal (also total an net source energy).
Tnx in advance
| | 3 | retagged |
I am using ideal air loads in my model. When i changed the heating sizing factor and cooling sizing factor to 1.00, the results for heating and cooling energy did not change (End Uses).
Does this mean that no system energy losses are taken into account for the heating and cooling system when using ideal air loads ?
Because in the end results the total site and net site energy are equal (also total an net source energy).
| | 4 | retagged |
I am using ideal air loads in my model. When i changed the heating sizing factor and cooling sizing factor to 1.00, the results for heating and cooling energy did not change (End Uses).
Does this mean that no system energy losses are taken into account for the heating and cooling system when using ideal air loads ?
Because in the end results the total site and net site energy are equal (also total an net source energy).
