Specifications

ManualsBrandsWilliamson ManualsFurnaceTMP-105

TMP Oil Furnaces – Furnace Manual

8 670-000-004/1010

3 Connect supply and return ducts

Duct sizing

Determine airflow CFM

The temperature rise through the furnace must not exceed 85

F and

should be at least 55

F for comfort. When calculating airflow,

assume a temperature rise of 70

The noticeable temperature change for cooling would be

approximately 27-30

F. Actual temperature change will be

approximately 18-21

F due to humidity of the air.

To calculate the noticeable heat temperature change (ΔT), you can

use the formula:

ΔT = BTU/h/(1.1 x CFM) Eq. 3-1

To calculate airflow when you know temperature change (ΔT), you

can use:

CFM = BTU/h/(1.1 x ΔT) Eq. 3-2

You can estimate airflow using the following rules of thumb:

Heating: 14 CFM per 1,000 BTU/h output Eq. 3-3

Cooling: 400 CFM per ton air conditioning Eq. 3-4

Determine the required airflow based on whichever is larger –

heating mode or air conditioning mode.

Examples:

1. What would the temperature rise be for a 100,000 BTU/h output

furnace with an airflow rate of 1200 CFM?

Use Equation 3-1 since you know CFM and BTU/h:

ΔT = 100,000/(1.1 x 1200) = 76

• The temperature rise would be 76

• If the air enters the furnace at 70

F, it would leave the

furnace at 70

F + 76

F = 146

2. What would the airflow be to obtain a 70

F rise through a

120,000 BTU/h output furnace?

Use equation 3-2 since you know ΔT and BTU/h:

CFM = 120,000/(1.1 x 70) = 1,558 CFM

• The airflow would have to be 1,558 CFM to obtain a

temperature rise of 70

3. Estimate the required airflow for a 75,000 BTU/h output furnace

installed with a 2-ton air conditioning evaporator coil.

Heating mode airflow (use Equation 3-3):

CFM = 75 x 14 = 1,050 CFM

Cooling mode airflow (use Equation 3-4):

CFM = 2 x 400 = 800 CFM

• The larger number is 1,050 CFM (heating), so the duct

system should be sized for 1,050 CFM.

• The supply duct would need to be 16” round or a rectangular

equivalent such as 8” x 25” or 12” x 16”, using Table 4,

page 8.

4. Estimate the required airflow for the same furnace installed with

a 4-ton air conditioning evaporator coil.

Heating mode airflow is still 1,050 CFM.

Cooling mode airflow (use Equation 3-4):

CFM = 4 x 400 = 1,600 CFM

• The larger number is 1,600 CFM (cooling), so the duct

system should be sized for 1,600 CFM.

• The supply duct would need to be 18” round or a rectangular

equivalent such as 8” x 36” or 12” x 21”, using Table 4,

page 9.

Always check the size of existing ducts, particularly

if you are adding air conditioning. The air pressure

loss through the cooling evaporator coil reduces

available airflow. If the ducts are too small as well,

the system may not work satisfactorily on either

heating or cooling.

Determine duct dimensions

Table 4, page 9, and Table 5, page 10, provide typical round and

rectangular duct sizes for rectangular and flat oval galvanized ducts.

Do not apply these tables to size ductwork if the total equivalent

length of the duct exceeds approximately 100 feet. For longer

systems or for ductboard, fiberglass-lined or flexible duct sizing, use

the ACCA Manual D or the ACCA duct sizing slide rule. These

tables are based on pressure loss of approximately 0.10” water

column per 100 feet equivalent length of duct.

Use Table 3 below to size or check sizing of take-offs to supply

registers or return grills.

Verify the size and type of registers, diffusers and grills from the

manufacturer’s ratings. Do not exceed the recommended flow rate.

The pressure drop allowance for each should not exceed

approximately 0.05” water column.

Install a return air filter, sized per specifications in Section 12.

Use only a return air filter mounted to the furnace. Do not add

additional filters unless the duct system is carefully sized to allow for

the additional pressure drop.

Table 3 Suggested maximum flow to runouts

TAKE-OFF SIZE

(Inches)

SUPPLY RETURN

5 Round 60 45

6 Round 100 75

7 Round 140 110

8 Round 210 160

3 ¼ x 8 Stack 70 55

3 ¼ x 10 Stack 100 75

3 ¼ x 14 Stack 140 110

2 ¼ x 12 Stack 70 55

2 ¼ x 14 Stack 90 70

6 Round 55 40

8 Round 120 90

10 Round 200 160

12 Round 320 250

14 Round 480 375

16 Round 660 530

18 Round 880 680

20 Round 1200 900

CFM

Sheet metal or ductboard

Flexible duct (keep bends to minimum)