Line B Combustion quiz Flashcards
When dealing with the combustion of hydro carbon gases, why is stoichiometric combustion of fuel and air not a viable option for most burners?
1) This will produce an unacceptable luminous flame
2) Burners are not capable of perfectly mixing air and fuel
3) This type of combustion produces unacceptable flue gas components
4) Stoichiometric combustion is unstable and unsuitable for heating applications
2) Burners are not capable of perfectly mixing air and fuel
It is important to add excess air to the combustion chamber to:
1) Provide cooling for the heat exchanger
2) To ensure perfect combustion occurs
3) To provide an adequate amount of dilution air
4) To ensure complete combustion occurs
4) To ensure complete combustion occurs
Which of the air to fuel ratios shown below is for natural gas?
1) 20 ft3 to 1 ft3
2) 20 ft3 to 100 Btu’s
3) 10 ft3 to 1000 Btu’s
4) 2 ft3 to 100 Btu’s
3) 10 ft3 to 1000 Btu’s
Why do air requirements differ for appliances with and without draft control?
1) All units require air to be supplied at a ratio of 30:1
2) Units with draft control require more combustion air
3) Units with no draft control require more excess air
4) Units with draft control require dilution air
4) Units with draft control require dilution air
In theory, which gas appliance will require more air per hour to operate?
1) 1000 MBH appliance with a draft hood and atmospheric burner
2) 500 kW appliance operating on 50% excess air and no draft control device
3) 1000 MBH power burner using 30% excess air and a barometric damper
4) 2200 MBH power burner using 25% excess air and no draft control
1) 1000 MBH appliance with a draft hood and atmospheric burner
At what point on the venting system should an analysis of the flue products be taken?
1) Downstream of the draft control device
2) Downstream of the flue collar
3) Upstream of the draft control device
4) Upstream of the fan assist burner
3) Upstream of the draft control device
If a natural gas appliance and a propane appliance were firing at the same rate and under the same conditions, which would have the greater air requirements and which would have the greater % of CO2 in the flue products?
1) Natural gas has higher air requirements and lower CO2
2) Propane has higher air requirements and higher CO2
3) Both have the same air requirements but natural gas has a higher CO2
4) Both have the same air requirements but propane has a higher CO2
4) Both have the same air requirements but propane has a higher CO2
How much excess air is added to the combustion process in order to achieve the ultimate percentage of CO2?
1) 1/3 the volume of combustion air
2) 2/3 the volume of combustion air
3) 50% of combustion air
4) None is required
4) None is required
What percentage of excess air will produce equal percentages of O2 and CO2 in the flue products?
1) 25%
2) 33%
3) 50%
4) 100%
3) 50%
Analyzing the flue products after servicing a burner shows acceptable levels of CO2 and O2 but unacceptable levels of CO. What type of circumstances could cause this to happen?
1) Lack of combustion air
2) Lack of excess air
3) Excessive dirt on fan blades
4) Poor mixing ability of burner system
4) Poor mixing ability of burner system
If a gas hot water tank was 100% efficient, what would the temperature of the flue products be?
1) Same as ambient
2) 100°F above ambient temperature
3) 100°F below ambient temperature
4) Minimum 127°F to maintain draft
1) Same as ambient
A gas appliance is firing at 1000 Mbh on natural gas. Calculate the volume of CO2
produced each hour.
1) 100 CFH
2) 1000 CFH
3) 2000 CFH
4) 10000CFH
2) 1000 CFH
A gas appliance is firing at 3000 Mbh on propane. Calculate the volume of CO2 produced each hour.
1) 1200 CFH
2) 3000 CFH
3) 3600 CFH
4) 4800 CFH
3) 3600 CFH
A gas appliance is firing at 5000 Mbh on propane gas and condensing all water vapour to a liquid state. Calculate the volume of water produced each hour (note: the expansion ratio for water from liquid to vapour is 1700:1).
1) 30 imperial gallons
2) 60 imperial gallons
3) 90 imperial gallons
4) 120 imperial gallons
1) 30 imperial gallons
The theoretical perfect combustion of natural gas requires an air/gas ratio of:
1) 10:1
2) 15:1
3) 25:1
4) 30:1
1) 10:1