US1995979A - Gas calorimeter - Google Patents

Gas calorimeter Download PDF

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Publication number
US1995979A
US1995979A US717700A US71770034A US1995979A US 1995979 A US1995979 A US 1995979A US 717700 A US717700 A US 717700A US 71770034 A US71770034 A US 71770034A US 1995979 A US1995979 A US 1995979A
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gas
disc
spindle
funnel
air
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US717700A
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Gray Charles
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N31/00Investigating or analysing non-biological materials by the use of the chemical methods specified in the subgroup; Apparatus specially adapted for such methods
    • G01N31/12Investigating or analysing non-biological materials by the use of the chemical methods specified in the subgroup; Apparatus specially adapted for such methods using combustion

Definitions

  • the subject of this invention is a gas calorimeter.fora'determining-the heating value of combustible gases obtained from retorts, coke ovens or other gas generators the heating power of which gases is substantially in inverse ratio to the proportion of inert gases contained therein, 7
  • a calorimeter according to the invention is arranged to receive a constant regulated supply of combustible gas, and a proportion of air ad-.
  • the device may comprise a base, a fixed pointer thereon, an externally screw threaded spindle' bored for the passage of gas, a disc bearing calibrated indications and rotatable on the said spindle to ascend and descend within set limits, a cone or inverted funnel secured on the said spindle and provided with air inlet openings adjacent its periphery, a pilot jet, and a pressure gauge.
  • the disc can be set at zero, when it entirely excludes air from the funnel, and whenan arcuate movement is given to the disc, air is admitted between the disc and the funnel and passes along with the gas coming from the bored spindle up the vertical barrel or cylindrical part of the funnel, which thus acts as a Bunsen burner;
  • Figure 1 is a perspective view of a device ex-,- emplifying the invention
  • Figure 2 is an elevationof the spindleandassd-v ciated-parts
  • Figure 3 is a plan nel.
  • FIG. e is a plan of theunderside of the fun- A indicates the base board andB, the back 1 base, on which'is fixed a pillar D terminating in a pointer E.
  • a spine dle F (see Figure 2) bored for the passage of gas, and screw-threaded at G for the attachment of a funnelH ( Figures 1 and 4).
  • spindle has a collar or enlargement J on which is a micrometer screw thread, onwhich is fitted the boss K of a disc M.
  • a nut NJon the spindle F forms a stop to. limit the downward movement of the disc M, and the funnelI-Iis screwed down on to the spindle F until the loweredge of the said funnel touchesthe boss K, and thus prevents upward movement of the disc from its zero position.
  • Combustible gas entering the pipe P (Figurel). controlled by the tap Q is connected with a pressure gauge R, and with a pipe S entering the base C, within which'it communicates with the bore of the spindle F.
  • a pilot jet 'I' supplied from the pipe P is arranged tojprovide a permanent flame adjacent the open top or nozzle of the funnel H.
  • the disc M which may have a milled edge, is turned to the left on thescrew threaded part J of the spindle and is thus caused to descend slightly, air being thus admitted betweenthe periphery of the funnel H and the upper surface of the boss K of the disc, until the V gas and air mixture begins to pop at the top of the funnel H. If popping ceases owing toan in.- crease inthe quality of the gas, the disc M must be turned further towards the left, increasing the amount of air admitted to the funnel, and
  • the disc then represents the a t 5 increased heating value of the gas. 4 If the qualityof the gas is reduced, the disc is turned baclr .to
  • thermo-couple I ( Figure 1) may be located in the flame, and connected with a suitable recording instrument L of known typecalibrated in actual- Bunsen burner causesan electrictcurrent to pass through the wires, which actuates the recording instrument.
  • the burner is set in the first place so that it pops at the correct calorific value of theg'as passing through the burner; the thermocouple will instantaneously cause the recording instrument toindicate and register the calorific value.
  • the record- 1 ing apparatus will indicate and register a higher calorificwalue; Should 'thequality of the gas become poorer, the burner willpop more'frequently'and cause a lower reading of the record- 'ing apparatus.v

Description

March 26, 1935. c. GRAY GAS CALORIMETER Filed Mar ch 28, 1934 INVENTOR CHARLES GRAV- mw flwfi ATTORNEYS Patented Mar. 26, 1 935 1,995,919 GAS GALORIMETER Charles Gray,'Lei'gh-on-Sea, England Application- March; 28', 1934,, Serial.No..717,700- vInGreat Britain March 15,1933,
roams-(01. 73-184) The subject of this invention is a gas calorimeter.fora'determining-the heating value of combustible gases obtained from retorts, coke ovens or other gas generators the heating power of which gases is substantially in inverse ratio to the proportion of inert gases contained therein, 7
or to the proportion of water gas or other-inferior gas admixed with coal gas.
A calorimeter according to the invention is arranged to receive a constant regulated supply of combustible gas, and a proportion of air ad-.
justed in accordance with a calibrated indicator, in order to keep the mixture in such proportions as to maintain its explosive character, more air being required with a, rich gas than with a gas of poor quality, so that the heating power of the gas can be ascertained by noting from the indicator the extent of admission of air necessary to maintain a series of small explosions, in other words to cause the mixture to pop continually when brought into contact with a flame.
The device may comprise a base, a fixed pointer thereon, an externally screw threaded spindle' bored for the passage of gas, a disc bearing calibrated indications and rotatable on the said spindle to ascend and descend within set limits, a cone or inverted funnel secured on the said spindle and provided with air inlet openings adjacent its periphery, a pilot jet, and a pressure gauge. The disc can be set at zero, when it entirely excludes air from the funnel, and whenan arcuate movement is given to the disc, air is admitted between the disc and the funnel and passes along with the gas coming from the bored spindle up the vertical barrel or cylindrical part of the funnel, which thus acts as a Bunsen burner;
' On the disc being turned to increase the admission of air until the gas and air mixture issuing from thev top of the funnel, where the pilot jet is situated, begins to pop,'the figures on the disc opposite the pointer indicate the thermal units in the gas. If popping ceases, showing an increase in the heating value of thegas, the disc is turned to increase the proportion of air'when the difierence between the previous reading and that of the figure thus brought opposite the,
pointer indicates the extent of the increase in heating value. v
In order that the said invention may be clearly understood and readily carried intov effect, the
same will now be more fully described with reference to the accompanying drawing in which:
Figure 1 is a perspective view of a device ex-,- emplifying the invention;
Figure 2 is an elevationof the spindleandassd-v ciated-parts;
Figure 3 is a plan nel.
wall on which the device is mounted, C the metal of the disc detachedi I Figure e is a plan of theunderside of the fun- A indicates the base board andB, the back 1 base, on which'is fixed a pillar D terminating in a pointer E. In the base C is secured a spine dle F (see Figure 2) bored for the passage of gas, and screw-threaded at G for the attachment of a funnelH (Figures 1 and 4).
The
spindle has a collar or enlargement J on which is a micrometer screw thread, onwhich is fitted the boss K of a disc M. A nut NJon the spindle F forms a stop to. limit the downward movement of the disc M, and the funnelI-Iis screwed down on to the spindle F until the loweredge of the said funnel touchesthe boss K, and thus prevents upward movement of the disc from its zero position. y 1
Combustible gas entering the pipe P (Figurel). controlled by the tap Q is connected with a pressure gauge R, and with a pipe S entering the base C, within which'it communicates with the bore of the spindle F. A pilot jet 'I' supplied from the pipe P is arranged tojprovide a permanent flame adjacent the open top or nozzle of the funnel H.
Thetop Q being adjustedto allow a predeter mined pressure of gas as indicated by the pressure gauge R, the disc M, which may have a milled edge, is turned to the left on thescrew threaded part J of the spindle and is thus caused to descend slightly, air being thus admitted betweenthe periphery of the funnel H and the upper surface of the boss K of the disc, until the V gas and air mixture begins to pop at the top of the funnel H. If popping ceases owing toan in.- crease inthe quality of the gas, the disc M must be turned further towards the left, increasing the amount of air admitted to the funnel, and
the difference between the previous reading and that of the figure on. the disc then represents the a t 5 increased heating value of the gas. 4 If the qualityof the gas is reduced, the disc is turned baclr .to
the right.
In order to make an automatic record of the heat of the gas atthe nozzle of the funnel H, a thermo-couple I (Figure 1) may be located in the flame, and connected with a suitable recording instrument L of known typecalibrated in actual- Bunsen burner causesan electrictcurrent to pass through the wires, which actuates the recording instrument. The burner is set in the first place so that it pops at the correct calorific value of theg'as passing through the burner; the thermocouple will instantaneously cause the recording instrument toindicate and register the calorific value. If the burner stops popping, the record- 1 ing apparatus will indicate and register a higher calorificwalue; Should 'thequality of the gas become poorer, the burner willpop more'frequently'and cause a lower reading of the record- 'ing apparatus.v
What I claim and desire to secure by Letters" .Patent of the United States :is:
A gas calorimeter arranged to indicator, in order to keep the mixture in such proportions as to maintain its explosive char-i acter, sothat the heating powerof the gas can. be ascertained by noting from the indicator the receive a con- .stantregulated supply' ofgas and a-propo'rtion of air adjusted in accordance with a"calibr'ated' extent of admission of necessary to maintain a series of small explosions when the mixture is brought into contact with a flame, comprising a base, a' fixed pointer thereon, an externally screw threaded spindle bored for the-passage of gas, meansto supply a constant regulated supply of gas to said spindle, a disc bearing calibrated indications and threaded on said spindle to f ascend and descend Within'set limits,- an inverted funnel secured on said spindle, a pilot *jet, and a pressure gauge, the arrangement being such that when the disc is set with the calibrations opposite the pointer at zero, the. upper surface of the disc touches theedge ofthe funnel and prevents the admission of any .air to the funnel, and as the disc descends the air admission opening is promaintaina series of small explosions when the mixture is brought into contact with the flame issuing from the pilot jet at the top of said spindle. 20
CHARLES GRAY;
gressively-increased to the extent necessary to I
US717700A 1933-03-15 1934-03-28 Gas calorimeter Expired - Lifetime US1995979A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437720A (en) * 1943-06-14 1948-03-16 Republic Flow Meters Co Method of and apparatus for measuring the composition of gas
US2818246A (en) * 1955-09-30 1957-12-31 Connecticut Metal Treating Co Method and apparatus for determining and/or controlling constituent potentials
US3072468A (en) * 1957-12-18 1963-01-08 Ralph B Stitzer Method and apparatus for detecting changes in the heating quality of fuel gas-air mixtures and for precise control thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437720A (en) * 1943-06-14 1948-03-16 Republic Flow Meters Co Method of and apparatus for measuring the composition of gas
US2818246A (en) * 1955-09-30 1957-12-31 Connecticut Metal Treating Co Method and apparatus for determining and/or controlling constituent potentials
US3072468A (en) * 1957-12-18 1963-01-08 Ralph B Stitzer Method and apparatus for detecting changes in the heating quality of fuel gas-air mixtures and for precise control thereof

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