RANGES &
& R
RANGETOPS
Theory of Operation
2-2
THEORY OF OPERATION
A service technician should understand how a gas appliance operates before attempting to service the appliance.
This section provides descriptions of the different types of fuel gases and explains gas heating values. A definition
of specific gravity of gas is given along with its characteristics and effects. Gas combustion principals are explained
and gas burner components are described and illustrated. The end of this section contains illustrations which
demonstrate basic cooking appliance theory of operation.
Types of Fuel Gas:
Gases used to supply heat energy are called fuel gases. Common fuel gases are not simply one kind of hydrocar-
bon, they are mixtures of hydrocarbon gases. They contain other gases as well, such as free hydrogen, carbon
dioxide and nitrogen. As an example natural gas might contain 85% methane, 12% ethane and 3% of other gases.
The presence of each of these gases in the fuel gas has some effect on the nature of the gas.
Some common fuel gasses are methane [CH
4
], ethane [C
2
H
6
], Propane [C
3
H
8
] and butane [C
4
H
10
]. Propane and
butane are nearly odorless. Natural gas that is processed to remove condensables and moisture, has little or no
odor and no color. Odorants are added to natural gas before distribution to aid in leak detection. A common odorant
used is a colorless liquid containing sulfur compounds.
Heating Value of Gas:
Heat energy produced when burning a fuel gas is commonly expressed in British Thermal Units (BTU). One BTU of
heat will raise the temperature of one pound of water one degree Fahrenheit.
The more carbon and hydrogen atoms in each molecule of a fuel gas, the higher its heating value. Natural gas
which is high in methane has a heating value of about 950 to 1150 BTU per cubic foot. The variance is due to the
various other substances found in natural gases. The more ethane, propane or butane in the gas raises the heating
value. Propane, or LP gas, has a heating value of about 2500 BTU per cubic foot, and butane about 3200 BTU per
cubic foot.
Specific Gravity of Gas:
The specific gravity of a gas is the weight of one cubic foot, or the gas compared to one cubic foot of dry air. When
stating the specific gravity of a gas, a pressure and temperature must be clearly stated. In the gas industry, the
standard conditions of pressure and temperature are 30.0 inches of mercury and 60° F. A pressure of 30.0 inches of
mercury will sustain a column of mercury 30 inches high in a tube with a vacuum on top of the column. Since air is
used as the reference, its specific gravity is always 1.0. This value of 1.0 has no direct physical meaning with
regard to air, such as its density. It is only a relative number or ratio used to express specific gravity of other gases.
The specific gravity of a gas will determine if the gas will rise or fall when released into the air. Natural gas will rise
since its specific gravity is less than 1.0 at 0.4 to 0.8. Propane has a specific gravity of 1.5 and butane 2.0. These
gases will fall when released into the air. They sometimes collect in low spots into pools which become a hazard if
open flames are present.
In addition, specific gravity has two other characteristics. It has an important effect on the flow of gases through ori-
fices, and hence the rating of the burners. Gas flow through an orifice is dependent upon the orifice size and the
gas pressure upstream of the orifice. More of a lighter gas will flow through a given orifice size than a heavier gas
at the same gas pressure. This effect is taken into account in tables and calculators used to select orifice sizes for
burners.
The gas flow in pipes is also affected by specific gravity. At a given pressure at a pipe inlet, more lighter gas will
flow through a pipe than a heavier gas.
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Страница 3: ...General Information RANGES R RANGETOPS 1 1 SECTION 1 GENERAL INFORMATION ...
Страница 13: ...Theory of Operation 2 1 RANGES R RANGETOPS SECTION 2 THEORY OF OPERATION ...
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Страница 21: ...Installation Information RANGES R RANGETOPS 3 1 SECTION 3 INSTALLATION INFORMATION ...
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Страница 27: ...Component Access Removal 4 1 RANGES R RANGETOPS SECTION 4 COMPONENT ACCESS AND REMOVAL ...
Страница 43: ...Troubleshooting Guide 5 1 RANGES R RANGETOPS SECTION 5 TROUBLESHOOTING GUIDE ...
Страница 53: ...Technical Data 6 1 RANGES R RANGETOPS SECTION 6 TECHNICAL DATA ...
Страница 56: ...RANGES R RANGETOPS Technical Data 6 4 ...
Страница 57: ...R RA AN NG GE ES S R RA AN NG GE ET TO OP PS S Wiring Diagrams 7 1 WIRING DIAGRAMS SECTIO N 7 ...
Страница 88: ...R RA AN NG GE ES S R RA AN NG GE ET TO OP PS S 7 32 Wiring Diagrams ...