Things You'll Need:
- Calculator
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Step 1
Define the HHV. The HHV is the amount of heat that a given quantity of fuel releases during combustion. Note that the units of measure for HHV will be in the form of energy/quantity. Common units of measure for HHV include British Thermal Units (BTU) per cubic foot or megajoules per cubic meter.
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Step 2
Define specific gravity. Specific gravity is the ratio of the density of a given substance with the density of water under specific conditions, typically a temperature of 4 degrees C and a pressure of 1 atmosphere. The specific gravity is therefore expressed as SG = P/H where P is the density of the substance and H is the density of water. Specific gravity is a unit-less measure since it is a ratio of densities.
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Step 3
Express the Wobbe index mathematically. The Wobbe index may be defined as Iw = Vc/(Gs)^1/2 where Iw is the Wobbe index, Vc is the HHV value for the fuel and Gs is its specific gravity.
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Step 4
Calculate the Wobbe index for a typical fuel. The HHV of natural gas is typically 1,050 Btu / cubic foot and its specific gravity is about 0.59. The Wobbe index for natural gas is therefore about 1,367 Btu / cubic foot.
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Step 5
Classify fuel gasses according to their Wobbe index. The Wobbe index is used internationally to create 3 families of gasses. Family 1 consists of manufactured gasses, Family 2 is natural gasses and Family 3 includes liquid petroleum.
Comments
jdhailey said
on 9/14/2009 Wobbe Index equation of state is the HHV or LHV, divided by the square root or Specific Gravity or Relative Density of the gas being measured (HHV/√S.G.) or (LHV/√S.G.)