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Standard cubic foot

February 18, 2024

A standard cubic foot (scf) is a unit representing the amount of gas (such as natural gas) contained in a volume of one cubic foot at reference temperature and pressure conditions. It is the unit commonly used when following the customary system, a collection of standards set by the National Institute of Standards and Technology. Another unit used for the same purpose is the standard cubic metre (Sm3), derived from SI units, representing the amount of gas contained in a volume of one cubic meter at different reference conditions.[1] The reference conditions depend on the type of gas and differ from other standard temperature and pressure conditions.

Usage edit

The scf and the scm are units of molecular quantity for gases can be used with the ideal gas law to compute the quantity per unit of volume for other pressures and temperatures. In spite of the label "standard", there is a variety of definitions, mainly depending on the type of gas. Since, for a given volume, the quantity is proportional to the pressure and temperature, each definition fixes base values for pressure and temperature.

Natural gas edit

Since natural gas is an imprecise mix of various molecular species, chiefly methane but with varying proportions of other gases, a standard cubic foot of natural gas does not represent a precise unit of mass, but a molecular quantity, expressed in moles.

For petroleum gases, the standard cubic foot (scf) is defined as one cubic foot of gas at 60 °F (288.7 K; 15.56 °C) and at normal sea level air pressure. The pressure definition differs between sources, but are all close to normal sea level air pressure.

  • A pressure of 14.696 pounds per square inch (1.00000 atm; 101.325 kPa).[2] This is the same pressure as the SI system standard pressure. Gives 1.1953 moles per scf.
  • A pressure of 101.35 kilopascals (1.0002 atm; 14.700 psi).[2] Gives 1.1956 moles per scf.
  • A pressure of 14.73 pounds per square inch (1.0023 atm; 101.56 kPa).[1] This value is very close to 30 inches of mercury. Gives 1.1981 moles per scf or 0.002641 pound moles per scf.

The standard cubic meter of gas (scm) is used in the context of the SI system. It is similarly defined as the quantity of gas contained in a cubic meter at a temperature of 15 °C (288.150 K; 59.000 °F) and a pressure of 101.325 kilopascals (1.0000 atm; 14.696 psi).[1]

Converting volume units between the standard cubic foot and the standard cubic meter is not exact, as the base temperature and pressure used are different, but for most practical situations the difference can be ignored. Comparing the same volume between the 15 °C (288.15 K) and 101.325 kPa standard cubic meter versus the 60 °F (288.71 K) and 14.73 psi (101.56 kPa) standard cubic foot gives an error of 0.04%. A standard cubic foot in the US Customary System is approximately equivalent to 0.02833 standard cubic meters in the SI system.

In the natural gas industry, where quantities are often expressed in standard cubic feet, large multiples of standard cubic feet are generally not expressed with metric prefixes, but rather with prefixes based on roman numerals, where the s for "standard" is often omitted. Common units of gas volumes include ccf (hundred standard cubic feet), Mcf (thousand standard cubic feet), and MMcf (million standard cubic feet).[3] The "M" refers to the Roman numeral for thousand, while a double "M" ("MM") represent one thousand thousands, or one million. Bcf (billion standard cubic feet), Tcf (trillion standard cubic feet), Qcf (quadrillion standard cubic feet), etc., are also used.

Compressed or liquefied gases in refillable cylinders edit

The National Conference on Weights and Measures, a US-based non-profit organization working in cooperation with the US National Institute of Standards and Technology, has defined a set of standards in a regulation entitled the "Uniform Regulation for the Method of Sale of Commodities".[4] This regulation defines a standard cubic foot, for compressed or liquefied gases in refillable cylinders other than LPG by, "A standard cubic foot of gas is defined as a cubic foot at a temperature of 21 °C (70 °F) and a pressure of 101.325 kilopascals [kPa] (14.696 psia)".[4]

Industrial gases edit

Yet other definitions are in use for industrial gas,[5] where, in the US, a standard cubic foot for industrial gas use is defined at 70 °F (21.1 °C) and 14.696 psia (101.325 kPa), while in Canada, a standard cubic meter for industrial gas use is defined at 15 °C (59 °F) and 101.325 kPa (14.696 psia).

Converting actual volumes to standard volumes edit

An actual volume can be converted to a standard volume using the following equation:[6][7]

Vs = Va × Fp × Ft × (Fpv)2

Where,

Vs: standard volume
Va: actual volume (sometimes shown as Vr for registered volume)
Fp: pressure factor (sometimes shown as Pm for pressure multiplier)
Fp: absolute pressure / standard pressure = (line gauge pressure + atmospheric pressure)/base pressure
Ft: temperature factor (sometimes shown as Tm for temperature multiplier)
Ft: absolute standard temperature / absolute line temperature = [273.15 + standard temperature (°C)] / [273.15 + line temperature (°C)] or [459.67 + standard temperature (°F)] / [459.67 + line temperature (°F)]
Fpv: super compressibility factor (often omitted or shown as equaling 1)

Example: How many standard cubic feet are in 1 cubic foot of gas at 80 °F and gauge pressure 50 psi? (assuming that there is 13.6 psi atmospheric pressure and ignoring super compressibility)

Vs = 1 cu ft × [(13.6 psi + 50 psi) / 14.73 psi] × [(60 °F + 459.67 °F) / (80 °F + 459.67 °F)]
Vs = 4.16 scf

See also edit

References edit

  1. ^ a b c James E. Gallagher (2013). Natural Gas Measurement Handbook. Elsevier. p. 10. ISBN 978-0-12-800000-7.
  2. ^ a b "Uniform Laws and Regulation" (PDF). National Institute of Standards and Technology. 2019. pp. 129, 132. Retrieved 8 December 2019.
  3. ^ "Category:Glossary". PetroWiki. SPE International. Retrieved 21 November 2017.
  4. ^ a b Crown, Linda D.; Sefcik, David A.; Warfield, Lisa (November 2016). "Uniform Regulation for the Method of Sale of Commodities" (PDF). Uniform Laws and Regulations in the Areas of Legal Metrology and Engine Fuel Quality (2017 ed.). National Institute of Standards and Technology. p. 120. doi:10.6028/NIST.HB.130-2017. Retrieved 21 November 2017.
  5. ^ Compressed Gas Association (1990). Handbook of Compressed Gases (3rd ed.). Chapman & Hall. pp. 12–13. ISBN 9781461306733. Retrieved 17 Nov 2017.
  6. ^ "PART VIII: Provisions Specific to Gas". Electricity and Gas Inspection Regulations. Government of Canada. Retrieved 18 July 2014. {{cite book}}: |website= ignored (help)
  7. ^ "Introduction to Gas Metering" (PDF). Introduction to Gas Measurement. Barchard Engineering. Retrieved 18 July 2014.

February 18, 2024
standard, cubic, foot, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, sept. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Standard cubic foot news newspapers books scholar JSTOR September 2009 Learn how and when to remove this template message A standard cubic foot scf is a unit representing the amount of gas such as natural gas contained in a volume of one cubic foot at reference temperature and pressure conditions It is the unit commonly used when following the customary system a collection of standards set by the National Institute of Standards and Technology Another unit used for the same purpose is the standard cubic metre Sm3 derived from SI units representing the amount of gas contained in a volume of one cubic meter at different reference conditions 1 The reference conditions depend on the type of gas and differ from other standard temperature and pressure conditions Contents 1 Usage 1 1 Natural gas 1 2 Compressed or liquefied gases in refillable cylinders 1 3 Industrial gases 2 Converting actual volumes to standard volumes 3 See also 4 ReferencesUsage editThe scf and the scm are units of molecular quantity for gases can be used with the ideal gas law to compute the quantity per unit of volume for other pressures and temperatures In spite of the label standard there is a variety of definitions mainly depending on the type of gas Since for a given volume the quantity is proportional to the pressure and temperature each definition fixes base values for pressure and temperature Natural gas edit Since natural gas is an imprecise mix of various molecular species chiefly methane but with varying proportions of other gases a standard cubic foot of natural gas does not represent a precise unit of mass but a molecular quantity expressed in moles For petroleum gases the standard cubic foot scf is defined as one cubic foot of gas at 60 F 288 7 K 15 56 C and at normal sea level air pressure The pressure definition differs between sources but are all close to normal sea level air pressure A pressure of 14 696 pounds per square inch 1 00000 atm 101 325 kPa 2 This is the same pressure as the SI system standard pressure Gives 1 1953 moles per scf A pressure of 101 35 kilopascals 1 0002 atm 14 700 psi 2 Gives 1 1956 moles per scf A pressure of 14 73 pounds per square inch 1 0023 atm 101 56 kPa 1 This value is very close to 30 inches of mercury Gives 1 1981 moles per scf or 0 002641 pound moles per scf The standard cubic meter of gas scm is used in the context of the SI system It is similarly defined as the quantity of gas contained in a cubic meter at a temperature of 15 C 288 150 K 59 000 F and a pressure of 101 325 kilopascals 1 0000 atm 14 696 psi 1 Converting volume units between the standard cubic foot and the standard cubic meter is not exact as the base temperature and pressure used are different but for most practical situations the difference can be ignored Comparing the same volume between the 15 C 288 15 K and 101 325 kPa standard cubic meter versus the 60 F 288 71 K and 14 73 psi 101 56 kPa standard cubic foot gives an error of 0 04 A standard cubic foot in the US Customary System is approximately equivalent to 0 02833 standard cubic meters in the SI system In the natural gas industry where quantities are often expressed in standard cubic feet large multiples of standard cubic feet are generally not expressed with metric prefixes but rather with prefixes based on roman numerals where the s for standard is often omitted Common units of gas volumes include ccf hundred standard cubic feet Mcf thousand standard cubic feet and MMcf million standard cubic feet 3 The M refers to the Roman numeral for thousand while a double M MM represent one thousand thousands or one million Bcf billion standard cubic feet Tcf trillion standard cubic feet Qcf quadrillion standard cubic feet etc are also used Compressed or liquefied gases in refillable cylinders edit The National Conference on Weights and Measures a US based non profit organization working in cooperation with the US National Institute of Standards and Technology has defined a set of standards in a regulation entitled the Uniform Regulation for the Method of Sale of Commodities 4 This regulation defines a standard cubic foot for compressed or liquefied gases in refillable cylinders other than LPG by A standard cubic foot of gas is defined as a cubic foot at a temperature of 21 C 70 F and a pressure of 101 325 kilopascals kPa 14 696 psia 4 Industrial gases edit Yet other definitions are in use for industrial gas 5 where in the US a standard cubic foot for industrial gas use is defined at 70 F 21 1 C and 14 696 psia 101 325 kPa while in Canada a standard cubic meter for industrial gas use is defined at 15 C 59 F and 101 325 kPa 14 696 psia Converting actual volumes to standard volumes editAn actual volume can be converted to a standard volume using the following equation 6 7 Vs Va Fp Ft Fpv 2Where Vs standard volume Va actual volume sometimes shown as Vr for registered volume Fp pressure factor sometimes shown as Pm for pressure multiplier Fp absolute pressure standard pressure line gauge pressure atmospheric pressure base pressure dd Ft temperature factor sometimes shown as Tm for temperature multiplier Ft absolute standard temperature absolute line temperature 273 15 standard temperature C 273 15 line temperature C or 459 67 standard temperature F 459 67 line temperature F dd Fpv super compressibility factor often omitted or shown as equaling 1 Example How many standard cubic feet are in 1 cubic foot of gas at 80 F and gauge pressure 50 psi assuming that there is 13 6 psi atmospheric pressure and ignoring super compressibility Vs 1 cu ft 13 6 psi 50 psi 14 73 psi 60 F 459 67 F 80 F 459 67 F Vs 4 16 scfSee also editStandard cubic feet per minuteReferences edit a b c James E Gallagher 2013 Natural Gas Measurement Handbook Elsevier p 10 ISBN 978 0 12 800000 7 a b Uniform Laws and Regulation PDF National Institute of Standards and Technology 2019 pp 129 132 Retrieved 8 December 2019 Category Glossary PetroWiki SPE International Retrieved 21 November 2017 a b Crown Linda D Sefcik David A Warfield Lisa November 2016 Uniform Regulation for the Method of Sale of Commodities PDF Uniform Laws and Regulations in the Areas of Legal Metrology and Engine Fuel Quality 2017 ed National Institute of Standards and Technology p 120 doi 10 6028 NIST HB 130 2017 Retrieved 21 November 2017 Compressed Gas Association 1990 Handbook of Compressed Gases 3rd ed Chapman amp Hall pp 12 13 ISBN 9781461306733 Retrieved 17 Nov 2017 PART VIII Provisions Specific to Gas Electricity and Gas Inspection Regulations Government of Canada Retrieved 18 July 2014 a href Template Cite book html title Template Cite book cite book a website ignored help Introduction to Gas Metering PDF Introduction to Gas Measurement Barchard Engineering Retrieved 18 July 2014 Retrieved from https en wikipedia org w index php title Standard cubic foot amp oldid 1173661367, wikipedia, wiki, book, books, library,

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