Line B Draft

Question 1

What would be the calculated theoretical draft developed by a stack 55 feet in height with an average temperature of 310°F, and the ambient temperature is 70°F?

Answer 1

0.246” w.c.

Question 2

A boiler is firing natural gas at 4,000 Mbh with 30% excess air. What would be the calculated the volume in cubic feet per minute of flue gases leaving the flue outlet if the temperature is 450°F, and the outside air temperature is 70°F?

Answer 2

1603 cfm

Question 3

A natural gas boiler is firing at 3 million Btu/h with 40% excess air. The ambient air temperature is 66°F and the stack temperature is 410°F. What would be the calculated velocity of the flue gas if the boiler is equipped with a 16-inch diameter stack?

Answer 3

889 fpm

Question 4

If a stack has a velocity of 1000 fpm, what would be the calculated draft produced?

Answer 4

0.06 w.c.

Question 5

A boiler equipped with a power burner is firing at 11 million Btu/h with 35% excess air. The combustion air duct is sized to meet the Gas Code requirements. What would be the calculated velocity through the combustion air duct if the boiler is operating at full input, the ambient air temperature is 70°F, and the stack temperature is 460°F?

Answer 5

972 fpm

Question 6

You are called on to commission an installation of a 4,750,000 Btu/h natural gas boiler.

• Excess air set at 30%
• Stack diameter 18 inch
• Combustion chamber and heat exchanger pass volume 188 ft3
• Gross stack temperature 485 deg. F
• Ambient temperature 76 deg. F

Based on this information what is the expected draft in the stack?

Answer 6

0.0762” w.c.

Question 7

What factors would achieve the highest draft in a chimney?

Answer 7

Tall chimney, hot combustion products, hot ambient (outside) air

Question 8

A mechanical draft produced by a device upstream from the combustion zone of an appliance is a definition of what type of draft?

Answer 8

Forced draft

Question 9

A mechanical draft produced by a device downstream from the combustion zone of an appliance is the definition of what type of draft?

Answer 9

Induced draft

Question 10

What reading would the draft pressure gauge indicate when measuring in the combustion chamber of a gas fired appliance using a force draft burner?

Answer 10

Positive pressure

Question 11

What reading would the draft pressure gauge indicate when measuring in the combustion chamber of a gas fired appliance using a fan-assisted burner?

Answer 11

Non-positive pressure (Negative over-fire pressure)

Question 12

What does a balanced draft system incorporate?

Answer 12

A forced draft burner and an induced draft fan

Question 13

What type of draft control does a gas-fired appliance incorporate when using a forced draft burner?

Answer 13

Internal damper

Question 14

Why is the draft reduced when using flue gas recirculation to control NOx?

Answer 14

Lower flame temperatures

Question 15

Why is the draft reduced when using a scrubber (air pre-heater)?

Answer 15

Heat is removed from the flue gases

Question 16

Calculate Draft Loss

Referring to the figure below, to maintain a draft of 0.08” w.c. at E what will the draft pressure need to be across the damper B?
The draft at A should be 0.6’ w.c. and the draft losses through the appliance are as follows:

• C = 0.12” w.c.
• D = 0.11” w.c.
• Elbow = 0.05” w.c. each

Answer 16

Across damper B = 0.19 “w.c.
- calculation: 0.6 – (0.08 + 0.12 + 0.11 + 0.10) = 0.19