Fx Copy
LaTeX Copy
Sensible Cooling Load is the heat added or removed from conditioned space by means of roof, ceiling, floor or windows. Check FAQs
Qper hour=UoverallSACLTD
Qper hour - Sensible Cooling Load?Uoverall - Overall Heat Transfer Coefficient?SA - Surface Area?CLTD - Cooling Load Temperature Difference?

Sensible Cooling Load Heat Gain through Structure Example

With values
With units
Only example

Here is how the Sensible Cooling Load Heat Gain through Structure equation looks like with Values.

Here is how the Sensible Cooling Load Heat Gain through Structure equation looks like with Units.

Here is how the Sensible Cooling Load Heat Gain through Structure equation looks like.

1228.2216Edit=0.25Edit5.3Edit29Edit
You are here -
HomeIcon Home » Category Physics » Category Mechanical » Category Refrigeration and Air Conditioning » fx Sensible Cooling Load Heat Gain through Structure

Sensible Cooling Load Heat Gain through Structure Solution

Follow our step by step solution on how to calculate Sensible Cooling Load Heat Gain through Structure?

FIRST Step Consider the formula
Qper hour=UoverallSACLTD
Next Step Substitute values of Variables
Qper hour=0.25W/m²*K5.329°F
Next Step Convert Units
Qper hour=0.25W/m²*K5.3271.4833K
Next Step Prepare to Evaluate
Qper hour=0.255.3271.4833
Next Step Evaluate
Qper hour=359.715408474207W
Next Step Convert to Output's Unit
Qper hour=1228.22162520846Btu/h
LAST Step Rounding Answer
Qper hour=1228.2216Btu/h

Sensible Cooling Load Heat Gain through Structure Formula Elements

Variables
Sensible Cooling Load
Sensible Cooling Load is the heat added or removed from conditioned space by means of roof, ceiling, floor or windows.
Symbol: Qper hour
Measurement: PowerUnit: Btu/h
Note: Value can be positive or negative.
Overall Heat Transfer Coefficient
The Overall Heat Transfer Coefficient is a measure of the overall ability of a series of conductive and convective barriers to transfer heat.
Symbol: Uoverall
Measurement: Heat Transfer CoefficientUnit: W/m²*K
Note: Value should be greater than 0.
Surface Area
The Surface Area of a three-dimensional shape is the sum of all of the surface areas of each of the sides.
Symbol: SA
Measurement: AreaUnit:
Note: Value can be positive or negative.
Cooling Load Temperature Difference
Cooling Load Temperature Difference is an equivalent temperature difference used for calculating the instantaneous external cooling load across a wall or roof.
Symbol: CLTD
Measurement: TemperatureUnit: °F
Note: Value can be positive or negative.

Other Formulas to find Sensible Cooling Load

​Go Cooling load Heat Gain through windows
Qper hour=AglassGLF

Other formulas in Heat Gain category

​Go Latent Heat Gain from people
Ql=qln
​Go Latent Heat Gain per person using Latent Heat Gain from people
ql=Qln
​Go Latent cooling load from ventilation air
QL=0.68CFM(W'o-W'i)
​Go Sensible Heat Gain from people
QS=qsnCLF

How to Evaluate Sensible Cooling Load Heat Gain through Structure?

Sensible Cooling Load Heat Gain through Structure evaluator uses Sensible Cooling Load = Overall Heat Transfer Coefficient*Surface Area*Cooling Load Temperature Difference to evaluate the Sensible Cooling Load, Sensible Cooling Load Heat Gain through Structure formula is defined as the total heat gain that occurs through the building structure, including walls, roofs, and floors, due to temperature differences between the interior and exterior of the building, which affects the cooling load requirements. Sensible Cooling Load is denoted by Qper hour symbol.

How to evaluate Sensible Cooling Load Heat Gain through Structure using this online evaluator? To use this online evaluator for Sensible Cooling Load Heat Gain through Structure, enter Overall Heat Transfer Coefficient (Uoverall), Surface Area (SA) & Cooling Load Temperature Difference (CLTD) and hit the calculate button.

FAQs on Sensible Cooling Load Heat Gain through Structure

What is the formula to find Sensible Cooling Load Heat Gain through Structure?
The formula of Sensible Cooling Load Heat Gain through Structure is expressed as Sensible Cooling Load = Overall Heat Transfer Coefficient*Surface Area*Cooling Load Temperature Difference. Here is an example- 14242.66 = 0.25*5.3*271.483327150345.
How to calculate Sensible Cooling Load Heat Gain through Structure?
With Overall Heat Transfer Coefficient (Uoverall), Surface Area (SA) & Cooling Load Temperature Difference (CLTD) we can find Sensible Cooling Load Heat Gain through Structure using the formula - Sensible Cooling Load = Overall Heat Transfer Coefficient*Surface Area*Cooling Load Temperature Difference.
What are the other ways to Calculate Sensible Cooling Load?
Here are the different ways to Calculate Sensible Cooling Load-
  • Sensible Cooling Load=Area of Glass*Glass Load FactorOpenImg
Can the Sensible Cooling Load Heat Gain through Structure be negative?
Yes, the Sensible Cooling Load Heat Gain through Structure, measured in Power can be negative.
Which unit is used to measure Sensible Cooling Load Heat Gain through Structure?
Sensible Cooling Load Heat Gain through Structure is usually measured using the Btu (th) per Hour[Btu/h] for Power. Watt[Btu/h], Kilowatt[Btu/h], Milliwatt[Btu/h] are the few other units in which Sensible Cooling Load Heat Gain through Structure can be measured.
Copied!