Friedrich EQ08N11, SQ10N10 manual Heat Load Form, Following is an example using the heat load form

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HEAT LOAD FORM

The heat load form on the following page may be used by servicing personnel to determine the heat loss of aconditioned space and the ambient winter design temperatures in which the unit will heat the calculated space.

The upper half of the form is for computing the heat loss of the space to be conditioned. It is necessary only to insert the proper measurements on the lines provided and multiply by the given factors, then add this result for the total heat loss in BTU/Hr./°F.

The BTU/Hr. per °F temperature difference is the 70°F inside winter designed temperature minus the lowest outdoor ambient winter temperature of the area where the unit is installed. This temperature difference is used as the multiplier when calculating the heat loss.

The graph shows the following:

Left Hand Scale	Unit capacity BTU/Hr. or heat loss
	BTU/Hr.
Bottom Scale	Outdoor ambient temperature, base
	point.
Heat Pump Model	BTU/Hr. capacity heat pump will
	deliver at outdoor temperatures.
Balance Point	Maximum BTU/Hr. heat pump
	will deliver at indicated ambient
	temperature.

Following is an example using the heat load form:

A space to be conditioned is part of a house geographically located in an area where the lowest outdoor ambient winter temperature is 40°F. The calculated heat loss is 184 BTU/ Hr./°F.

Subtract 40°F (lowest outdoor ambient temperature for the geographical location) from 70°F (inside design temperature of the unit) for a difference of 30°F. Multiply 184 by 30 for a 5500 BTU/Hr. total heat loss for the calculated space.

On the graph, plot the base point (70°) and a point on the 40°F line where it intersects with the 5500 BTU/Hr. line on the left scale. Draw a straight line from the base point 70 through the point plotted at 40°F. This is the total heat loss line.

Knowing that we have a 5500 BTU/Hr. heat loss, and we expect that our heat pump will maintain a 70°F inside temperature at 40°F outdoor ambient, we plot the selected unit capacity BTU/Hr. of the unit between 35° and 60° on the graph and draw a straight line between these points. Where the total heat loss line and the unit capacity line intersect, read down to the outdoor ambient temperature scale and ¿nd that this unit will deliver the required BTU/Hr. capacity to approximately 30°F.

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Contents Room Air Conditioners Table Of Contents Your safety and the safety of others are very important Important Safety InformationRefrigeration System Hazards Register your air conditioner IntroductionUnit Identification 08 N 1 0 a aSQ05N10-A 115 146 Performance DataFire Hazard Electrical DataElectric Shock Hazard Proper installation of chassis seal gasket Make sure the wiring is adequate for your unitTest the power cord Keep the filter cleanKuhl Q Control Panel Operation Kühl Control Options Control Panel Operation Instructions ºF ºC Select Timer Schedule ButtonControl Panel Lock DIM FunctionAlerts Wait IconTimer or Schedule Options 1 or 2 Selection To Turn On the Timer or Schedule SelectedTimer Settings Timer Start TimeTimer on Scenarios Set theTimer Stop TimeTimer Schedule Control Block Timer OFF ScenariosRemote Control Operation Auto FAN Continuous Electronic Control Sequence of Operation Cooling ModeCompressor Lock Out Time Relay Board Test Components TestingIf the user interface does not turn on User Interface TestsTesting the Relay Board Components Testing CON’TBLOWER/FAN Motor Test Capacitor Check with Capacitor AnalyzerCapacitor Connections FAN MotorDrain PAN Valve Testing the Heating Element Electric Shock HazardHeating Element Refrigeration Sequence of Operation Refrigeration system under high pressure 410A Sealed System Repair ConsiderationsRefrigerant Charging 410A Sealed Refrigeration System RepairsRefrigeration Sequence of Operation 410A Sealed Refrigeration System Repairs Freeze Hazard Method Of Charging / RepairsBurn Hazard Overcharged Refrigerant Systems Undercharged Refrigerant SystemsRestricted Refrigerant System Compressor Checks Ground Test Single Phase Resistance TestExplosion Hazard Recommended procedure for compressor replacementHigh Temperatures Rotary Compressor Special Troubleshooting and Service Available AccessoriesStandard Filter Cleaning / Installation Instructions Routine Maintenance Routine Maintenance Noises This is a warm weather applianceCondensation is normal FrostingPage See codes chart on next Problem Control Boards Action Error CodesTest Mode Page Page Cooling only Room AIR Conditioners Troubleshooting Tips Cooling only Room AIR Conditioners Troubleshooting Tips Cooling only Room AIR Conditioners Troubleshooting Tips Cooling only Room AIR Conditioners Troubleshooting Tips Heat / Cool only Room AIR Conditioners Troubleshooting Tips Electronic Controls Wiring Diagram THERMISTORS’ Resistance Values Page Page Heat Load Form Following is an example using the heat load formInfiltration Windows & Doors AVG Heating Load Form Friedrich Room Unit Heat PumpsKühl-Q Kühl-Q Units’ 2012 Parts List Kühl Q-Chassis Service Parts List Schedule Table with Energy Saving Values AddendumRoom AIR Conditioners Limited Warranty Technical Support Contact Information Friedrich AIR Conditioning CO