US2229884A - Oil and gas detector apparatus - Google Patents

Oil and gas detector apparatus Download PDF

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US2229884A
US2229884A US190347A US19034738A US2229884A US 2229884 A US2229884 A US 2229884A US 190347 A US190347 A US 190347A US 19034738 A US19034738 A US 19034738A US 2229884 A US2229884 A US 2229884A
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sludge
chamber
gas
oil
well
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Curtis R Chalkley
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B49/00Testing the nature of borehole walls; Formation testing; Methods or apparatus for obtaining samples of soil or well fluids, specially adapted to earth drilling or wells
    • E21B49/005Testing the nature of borehole walls or the formation by using drilling mud or cutting data

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  • This invention relates to a method and apparatus for detecting the presence of oil and gas in the sludge, as removed from a drill hole in the process of boring a well.
  • the improvement is primarily directed to the rotary system of drilling or boring, in which a tubular drill rod is employed through which liquid is supplied under pressure, or otherwise, to the base of the hole and mixed with the cuttings,
  • the improvement primarily consists in either continuously, intermittently, or periodically withdrawing or draining a small quantity of the circulating sludge or mud from the drill hole of a well during the process oi. drilling and depositing the same upon a belt or conveyor, as a traveling or movable base for one or a plurality of consecutively arranged chambers, and in heating the mud upon the belt to a predetermined temperature while sustained in relation to a chamber, to liberate the gas or vaporizing hydrocarbon product occluded in the mud for collection into the chamber, so that its presence can be readily and denitely determined or indicated.
  • the travel of the conveyor may be either continuous or intermittent and under automatic control, governed by the temperature of the material when within a chamber, or internal temperature oi the chamber receiving the gas or vapor, to insure that the mud is heated to a suiilcient degree to liberate the gas or vapor therefrom, so that a definite and satisfactory test can be made.
  • An object or the invention is to provide a method and means for rdetermining when the bit of a rotary well drilling device has penetrated a deposit oi oil or gas, or a mixture of these hydrocarbon substances or strata bearing the same, by continuously withdrawing or draining a small quantity of the circulating mud or sludge from the well hole and heating the same within a chamber for liberating the gas or hydrocarbon vapors and lgniting the liberated gas or vapor in said chamber.
  • Another object of the invention is to pass the mud or sludge withdrawn or taken from the circulating mud stream o! a well in the process of boring successively into several chambers, with the mud heated to a dverent degree of temperature for each chamber, in which it is successively disposed, to separately and distinguishably determine whether gas or other hydrocarbon products are occluded therein.
  • Another object of the invention is to provide means for continuously indicating and measuring the products of combustion, or other chemical reactions of hydrocarbons in the circulating mud fluid, instituted in the drilling of a well by a rotary lbit drilling method.
  • Another object of the. invention is to provide a simple and effective means for readily determining the presence of an oil or gas bearing strata or deposit, when penetrated by the bit of a rotary well drilling apparatus, by withdrawing or draining a small quantity of the circulating sludge or mud developed in the process of drilling into a chamber and heating the same to a determined degree of temperature to drive oil. the gas or vapor from the product and into the chamber, wherein the iiow or any function of the flow of the gas or vapor can be ascertained and measured.
  • the drawing in diagram, illustrates only such fundamentals of a convention rotary well boring system, or appliances, as is of aid to the explanation of the present improvement, or as it is effectively combined or associated therewith.
  • No change in the conventional boring system or equipment is made or acquired, except that provision is made for a take-off, continuously or periodically, of a small quantity of the circulating or ilowing sludge, preferably at the head end of the well, at which the take-oli can be more conveniently made, necessary for a continuous or periodical determination of the presence of any oil or gas in the sludge. Therefore.
  • I indicates a bore or well 55 detector chambers.
  • a tubular drill rod 5 extends centrally through the head 3 and guidingly sustained thereby, the rod at its lower end carrying a bit of any preferred type most suitable for the strata penetrated.
  • the tubular drill rod is rotated by power driven transmission means, not shown, and being tubular, provides a conduit for the conduction and circulation of a fluid, as water, to the base of the bore, to aid in cutting the earth material and for the removal of the cuttings.
  • a small quantity or portion of the circulating sludge is delivered or conveyed to an oil and gas detector through an oiftake pipe 6, connecting either as shown with the lateral sludge discharge branch I or directly to the head 3.
  • the detector in diagram, comprises an enclosure 1, subdivided to provide two independent adjoining compartments or chambers I and 9, one for detecting gas, and the other for oil.
  • 'I'he chamber 3 primarily is employed for detecting gas in the sludge, deposited therein, while the chamber 3 is utilized for detecting oil.
  • the takeoff pipe 6, at its outlet end, is arranged to discharge or deposit the sludge upon a belt, and, as illustrated, upon the upper forward run of an endless metal belt or conveyor In, traversing the bottom of the chambers 8 and 9, providing a movable base therefor.
  • the belt I0 engages over a drive pulley I I and an idler pulley I2, the pulleys are suitably journalled and supported exterior of the
  • the drive pulley II is propelled by a suitable transmission mechanism, preferably through the medium of an electric motor I3, in transmission connection with the drive pulley, by a worm I4, xed to the armature shaft I5 of the motor and in mesh with the worm-wheel I6, iixed upon the shaft I 'I, carrying the drive pulley II.
  • the forward run of the belt which traverses the chambers 8 and 9 of the detector, is heated by heater elements I8 and I9, respective for the chambers l and 9 for heating the sludge deposited upon the belt to a degree required to expand the hydrocarbon gas and oil occluded in the sludge deposit, the heating being relatively at different degrees for the several detector chambers employed. Electric heating is preferably employed for the reason that provision for automatic control and regulation can be more conveniently made.
  • the heating element I8 for heating the sludge deposit upon the belt while conveyed and for the period that it is translated through the gas chamber at 8, is set or regulated for the lowest degree of temperature required to expand the gas occluded in the sludge, and cause it to leave the deposit and iiow from the gas holder chamber 8 into a combustion chamber 20 located immediately above the gas or vapor collecting chamber 8.
  • 'Ihe upper end of the collecting chamber l is shown as contracted or tapering, for leading the gas into the lower end of the combustion chamber 2B.
  • the upper end of the combustion chamber is provided with a vent or draft ilow ZI, to aid in the circulation and combustion of, the gas products and provide for an escape thereof.
  • the gas in the combustion chamber 20 is ignited by an electric arc or spark issued by an electric igniter or spark gap 22 installed Within the combustion chamber, and in suitable electric circuit connection with an electric service supply, as indicated by the electric circuit lines 23 and 2l.
  • Igniting the gas in the combustion chamber eilects a change in the temperature thereof, so that the resulting temperature change may be measured by means of a carbon dioxide detector, thermo couple or by the thermo-electric means indicated at 25 having a circuit junction within the combustion chamber.
  • a supply of oxygen may be forced into the chamber through an air intake 28 represented by a length of pipe or' tubing extending through the upper conical or tapering top of the gas collecting chamber, and bent at an angle to provide a vertically extended end or nozzle, centrally and axially of the collecting chamber for an upward discharge into the combustion chamber.
  • the exterior end of the air line 26 is provided with a valve 21 in connection with a supply line or pipe 28.
  • the structures of the several detectors employed are the duplicate of one another which similarly follows for the various metering and recording instruments and electric control devices either mounted directly upon the unit or upon a switch board and in circuit connection with the terminals or elements within the chambers of a unit, and this also applies for the circuit control of the heaters and other electrically operated apparatus located exterior of the unit.
  • the equipment of each unit may include a recording thermometer or other suitable instruments for indicating the passage of hydrocarbon gases through the combustion chamber and from .their record when platted with reference to the depth correction for the progress of the bore hole during the time the hydrocarbons were in circulation from the bit to the combustion chamber of the detector, the source of the hydrocarbon in the bore hole can be very accurately determined.
  • the detection and measurement of the hydrocarbon gases in the combustion chamber may alternately be accomplished by other chemical and physical means than those heretofore described, f such a choice is desirable, but, in either case the result will be to measure the flow or presence of hydrocarbon gases in the combustion chamber, or to measure any function of the flow of hydrocarbon gases passing through said combustion chamber.
  • the mud sample After the mud sample has been tested in the rst detector unit, it is by the translation of the belt conveyed or transferred to a second unit wherein it will be heated to a temperature sumciently high to volitize the petroleum and effect of the bore hole, after making 55 described for the rst unit is duplicated in all fundamental respects, and the recorded data of the second unit will indicate the presence and the source of petroleum in the bore hole.
  • the process may be continued or carried on in a third or additional number of units depending upon the distillation characteristics of thepetroleum or oil in the region under exploitation.
  • the mud after it has passed from within the last detector unit of the series, is removed from the belt.
  • the removal is preferably accomplished by some type of mechanical means as indicated by an inclined scraper 29 contacting against the belt preferably along a horizontal line in the return are of travel of the belt about the pulley.
  • the electric motor is shown as in transmission connecting with motor control switch 30, and the control switch may be interconnected with thermostats 3
  • an apparatus for detecting and determining the presence of oil, gas and other distillable products when penetrated by the rotary well drilling apparatus the drillings being converted into a sludge by a continuous stream of liquid
  • a gas collecting and combustion chamber an endless conveyor providing a movable base for said chamber, means for delivering a small quantity of circulating sludge from awell bore for deposit upon said conveyor, and means for heating the sludge upon the conveyor and while within said chamber to eiect a fractional distillation of the sludge and collect in said chamber the volatile parts thereby liberated from the sludge for a detection thereof.
  • an apparatus for detecting and determining the presence of oil, gas and other distillable products when penetrated by the rotary well drilling apparatus the drillingsbeing converted into a sludge by a continuous stream of liquid, a plurality of gas collecting and combustion chambers, an endless conveyor providing a movable base for said kchambers respectively, means for delivering a small quantity of circulating sludge from a well bore for deposit upon said conveyor, and means for heating the sludge upon the conveyor and while within each chamber respectively, for liberation into the chamber the gas or vapor from the oil occluded in said sludge.
  • a gas collecting and combustion chamber means for continuously delivering a small quantity of circulating sludge from the well bore for into a sludge by a continuous stream of liquid, a gas collecting and combustion chamber, an endless conveyor providing a movable base for said chamber, means for draining a small quantity of circulating sludge from the well bore for deposit upon said conveyor, means at the base of the chamber and beneath the conveyor for heating the sludge upon the conveyor and while within said chamber to effect a fractional distillation of the sludge and collect in said chamber the volatile parts separated from the sludge, and gas lgniting means within said chamber for igniting the volatile parts liberated from the sludge.
  • a gas collecting and combustion chamber means for delivering a small quantity of circulating sludge from the Well bore for deposit within said chamber, means at the base of the chamber for heating the sludge for effecting la fractional distillation of the sludge within said chamber and therein collect the volatile parts separated from the sludge for ignition thereof, and gas igniting means within said chamber.
  • the method of detecting and determining the presence of oil, gas and other distillable products present while penetrating the earth in the drilling of a well with the bit of a rotary drilling apparatus which consists in converting the drillings with the aid of a continuous supply of fluid, administered to the bottom of the well bore and agitation by the drill bit into an upwardly circulating sludge, continuously conducting a small quantity of circulating sludge into and through a chamber, heating, While transporting the same through the chamber, to a determined temperature to effect a fractional distillation of the sludge, collecting in said chamber the volatile parts separated therefrom for ignition, and igniting the volatile parts liberated in said chamber by a constantly active ignition means for the detection thereof.
  • the method oi detecting and determining the presence of oil and other distillatie Fwducts present in the earth while penetrated in drilling a well, and in which a cmtinuom circulation of sludge is maintained for ma] of the cuttings, which consists in withdrawing a testing quantity of dnulating sludge, passing the sludge continuously through a chamber, heating the advancing sludge to a determined degree of temperature for fractional distillation to liberate the more volatile products into the chamber and igniting the volatile matter by a constantly active ignition means, thereby increasing the chamber temperature and iniluenclng thermo-electro means for signal indi cation.

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Geology (AREA)
  • Mining & Mineral Resources (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
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  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
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Description

Jan- 28, 1941- c. R. CHALKLEY OIL AND GAS DETECTOR APPARATUS Filed Feb. 12. 1938 illOl R O T. N E V BY WMZ/(y ATTc'DRNEYS.
Patented Jan. 28, 1941 UNITED STATES PATENT OFFICE 11 Claims.
This invention relates to a method and apparatus for detecting the presence of oil and gas in the sludge, as removed from a drill hole in the process of boring a well.
6 The improvement is primarily directed to the rotary system of drilling or boring, in which a tubular drill rod is employed through which liquid is supplied under pressure, or otherwise, to the base of the hole and mixed with the cuttings,
la the mass agitated by the revolving cutter or boring bit, into a sludge, and elevated in the well bore and casing for discharge at the earths surface.
It frequently occurs, in oil eld exploration or exploitation drilling, that an oil or gas bearing strata is unknowingly penetrated by 'the boring bit, and the casing, with the progress of the boring, advanced through such strata, so that knowledge of its value is lost.
Various direct methods have been attempted for indicating or disclosing the presence of gas and oil without undue delay in boring, as is occasioned by periodically taking samples from the sludge and making an analytical test thereof, which, however, have not been reliable or satisfactory because of failure to distinguish between oil and gas, nor to indicate the presence of either when actually present in the bore hole.
The improvement primarily consists in either continuously, intermittently, or periodically withdrawing or draining a small quantity of the circulating sludge or mud from the drill hole of a well during the process oi. drilling and depositing the same upon a belt or conveyor, as a traveling or movable base for one or a plurality of consecutively arranged chambers, and in heating the mud upon the belt to a predetermined temperature while sustained in relation to a chamber, to liberate the gas or vaporizing hydrocarbon product occluded in the mud for collection into the chamber, so that its presence can be readily and denitely determined or indicated.
The travel of the conveyor may be either continuous or intermittent and under automatic control, governed by the temperature of the material when within a chamber, or internal temperature oi the chamber receiving the gas or vapor, to insure that the mud is heated to a suiilcient degree to liberate the gas or vapor therefrom, so that a definite and satisfactory test can be made.
An object or the invention is to provide a method and means for rdetermining when the bit of a rotary well drilling device has penetrated a deposit oi oil or gas, or a mixture of these hydrocarbon substances or strata bearing the same, by continuously withdrawing or draining a small quantity of the circulating mud or sludge from the well hole and heating the same within a chamber for liberating the gas or hydrocarbon vapors and lgniting the liberated gas or vapor in said chamber.
Another object of the invention is to pass the mud or sludge withdrawn or taken from the circulating mud stream o! a well in the process of boring successively into several chambers, with the mud heated to a diilerent degree of temperature for each chamber, in which it is successively disposed, to separately and distinguishably determine whether gas or other hydrocarbon products are occluded therein.
Another object of the invention is to provide means for continuously indicating and measuring the products of combustion, or other chemical reactions of hydrocarbons in the circulating mud fluid, instituted in the drilling of a well by a rotary lbit drilling method.
Another object of the. invention is to provide a simple and effective means for readily determining the presence of an oil or gas bearing strata or deposit, when penetrated by the bit of a rotary well drilling apparatus, by withdrawing or draining a small quantity of the circulating sludge or mud developed in the process of drilling into a chamber and heating the same to a determined degree of temperature to drive oil. the gas or vapor from the product and into the chamber, wherein the iiow or any function of the flow of the gas or vapor can be ascertained and measured.
Various other features and advantages of the invention will be more fully apparent from a description of the accompanying drawing, which diagrammatically illustrates apparatus adapted to the practice of the invention.
The drawing, in diagram, illustrates only such fundamentals of a convention rotary well boring system, or appliances, as is of aid to the explanation of the present improvement, or as it is effectively combined or associated therewith. No change in the conventional boring system or equipment is made or acquired, except that provision is made for a take-off, continuously or periodically, of a small quantity of the circulating or ilowing sludge, preferably at the head end of the well, at which the take-oli can be more conveniently made, necessary for a continuous or periodical determination of the presence of any oil or gas in the sludge. Therefore. referring to the drawing, in which I indicates a bore or well 55 detector chambers.
hole, protected with a casing 2 in the usual manner to a required depth, which is increased in length and descended as necessary as the boring depth progresses. The upper end of the casing, usually above the earths surface, has a head 3 representative of a T-pipe fitting, to which a lateral pipe connection 4 is made, as a discharge outlet connection. A tubular drill rod 5 extends centrally through the head 3 and guidingly sustained thereby, the rod at its lower end carrying a bit of any preferred type most suitable for the strata penetrated. The tubular drill rod is rotated by power driven transmission means, not shown, and being tubular, provides a conduit for the conduction and circulation of a fluid, as water, to the base of the bore, to aid in cutting the earth material and for the removal of the cuttings.
'I'he cuttings are mixed with the liquid under the agitation of the drill bit, into a sludge which is circulated upwardly in the Well bore, about the tubular drill rod under the pressure of the descending liquid supplied within the tubular drill rod, to the head 3, thence through the lateral branch or pipe l to discharge the sludge upon the earths surface or into a mud pit, in the latter instance for settling out the mud, if it is desired to reclaim the liquid for reuse.
A small quantity or portion of the circulating sludge is delivered or conveyed to an oil and gas detector through an oiftake pipe 6, connecting either as shown with the lateral sludge discharge branch I or directly to the head 3. In this manner, a continuous or periodic sampling quantity of the sludge is delivered to the detector for immediate testing. The detector, in diagram, comprises an enclosure 1, subdivided to provide two independent adjoining compartments or chambers I and 9, one for detecting gas, and the other for oil. 'I'he chamber 3 primarily is employed for detecting gas in the sludge, deposited therein, while the chamber 3 is utilized for detecting oil.
The takeoff pipe 6, at its outlet end, is arranged to discharge or deposit the sludge upon a belt, and, as illustrated, upon the upper forward run of an endless metal belt or conveyor In, traversing the bottom of the chambers 8 and 9, providing a movable base therefor. The belt I0, as its opposite end loops respectively, engages over a drive pulley I I and an idler pulley I2, the pulleys are suitably journalled and supported exterior of the The drive pulley II is propelled by a suitable transmission mechanism, preferably through the medium of an electric motor I3, in transmission connection with the drive pulley, by a worm I4, xed to the armature shaft I5 of the motor and in mesh with the worm-wheel I6, iixed upon the shaft I 'I, carrying the drive pulley II.
The forward run of the belt, which traverses the chambers 8 and 9 of the detector, is heated by heater elements I8 and I9, respective for the chambers l and 9 for heating the sludge deposited upon the belt to a degree required to expand the hydrocarbon gas and oil occluded in the sludge deposit, the heating being relatively at different degrees for the several detector chambers employed. Electric heating is preferably employed for the reason that provision for automatic control and regulation can be more conveniently made. The heating element I8, for heating the sludge deposit upon the belt while conveyed and for the period that it is translated through the gas chamber at 8, is set or regulated for the lowest degree of temperature required to expand the gas occluded in the sludge, and cause it to leave the deposit and iiow from the gas holder chamber 8 into a combustion chamber 20 located immediately above the gas or vapor collecting chamber 8. 'Ihe upper end of the collecting chamber l is shown as contracted or tapering, for leading the gas into the lower end of the combustion chamber 2B. The upper end of the combustion chamber is provided with a vent or draft ilow ZI, to aid in the circulation and combustion of, the gas products and provide for an escape thereof. The gas in the combustion chamber 20 is ignited by an electric arc or spark issued by an electric igniter or spark gap 22 installed Within the combustion chamber, and in suitable electric circuit connection with an electric service supply, as indicated by the electric circuit lines 23 and 2l.
Igniting the gas in the combustion chamber eilects a change in the temperature thereof, so that the resulting temperature change may be measured by means of a carbon dioxide detector, thermo couple or by the thermo-electric means indicated at 25 having a circuit junction within the combustion chamber.
If the drilling fluid or sludge does not yield enough oxygen to support combustion of the hydrocarbon gases in the combustion chamber, a supply of oxygen may be forced into the chamber through an air intake 28 represented by a length of pipe or' tubing extending through the upper conical or tapering top of the gas collecting chamber, and bent at an angle to provide a vertically extended end or nozzle, centrally and axially of the collecting chamber for an upward discharge into the combustion chamber.
The exterior end of the air line 26 is provided with a valve 21 in connection with a supply line or pipe 28.
The structures of the several detectors employed are the duplicate of one another which similarly follows for the various metering and recording instruments and electric control devices either mounted directly upon the unit or upon a switch board and in circuit connection with the terminals or elements within the chambers of a unit, and this also applies for the circuit control of the heaters and other electrically operated apparatus located exterior of the unit.
In addition, the equipment of each unit may include a recording thermometer or other suitable instruments for indicating the passage of hydrocarbon gases through the combustion chamber and from .their record when platted with reference to the depth correction for the progress of the bore hole during the time the hydrocarbons were in circulation from the bit to the combustion chamber of the detector, the source of the hydrocarbon in the bore hole can be very accurately determined.
The detection and measurement of the hydrocarbon gases in the combustion chamber may alternately be accomplished by other chemical and physical means than those heretofore described, f such a choice is desirable, but, in either case the result will be to measure the flow or presence of hydrocarbon gases in the combustion chamber, or to measure any function of the flow of hydrocarbon gases passing through said combustion chamber.
After the mud sample has been tested in the rst detector unit, it is by the translation of the belt conveyed or transferred to a second unit wherein it will be heated to a temperature sumciently high to volitize the petroleum and effect of the bore hole, after making 55 described for the rst unit is duplicated in all fundamental respects, and the recorded data of the second unit will indicate the presence and the source of petroleum in the bore hole.
The process may be continued or carried on in a third or additional number of units depending upon the distillation characteristics of thepetroleum or oil in the region under exploitation.
The mud, after it has passed from within the last detector unit of the series, is removed from the belt. The removal is preferably accomplished by some type of mechanical means as indicated by an inclined scraper 29 contacting against the belt preferably along a horizontal line in the return are of travel of the belt about the pulley.
In the drawing, the electric motor is shown as in transmission connecting with motor control switch 30, and the control switch may be interconnected with thermostats 3| respectively, for the heater of each unit for regulating and governing the transmitting'speed of the belt.
Having described my invention, I claim:
1. In an apparatus for detecting and determining the presence of oil, gas and other distillable products when penetrated by the rotary well drilling apparatus, the drillings being converted into a sludge by a continuous stream of liquid, a gas collecting and combustion chamber, an endless conveyor providing a movable base for said chamber, means for delivering a small quantity of circulating sludge from awell bore for deposit upon said conveyor, and means for heating the sludge upon the conveyor and while within said chamber to eiect a fractional distillation of the sludge and collect in said chamber the volatile parts thereby liberated from the sludge for a detection thereof.
2. In an apparatus for detecting and determining the presence of oil, gas and other distillable products when penetrated by the rotary well drilling apparatus, the drillingsbeing converted into a sludge by a continuous stream of liquid, a plurality of gas collecting and combustion chambers, an endless conveyor providing a movable base for said kchambers respectively, means for delivering a small quantity of circulating sludge from a well bore for deposit upon said conveyor, and means for heating the sludge upon the conveyor and while within each chamber respectively, for liberation into the chamber the gas or vapor from the oil occluded in said sludge.
3. In an apparatus for detecting and determining the presence of oil, gas and other distillable products when 'penetrated by the rotary well drilling apparatus, the drillings being converted into a sludge by a continuous stream of liquid, a gas collecting and combustion chamber, means for continuously delivering a small quantity of circulating sludge from the well bore for into a sludge by a continuous stream of liquid, a gas collecting and combustion chamber, an endless conveyor providing a movable base for said chamber, means for draining a small quantity of circulating sludge from the well bore for deposit upon said conveyor, means at the base of the chamber and beneath the conveyor for heating the sludge upon the conveyor and while within said chamber to effect a fractional distillation of the sludge and collect in said chamber the volatile parts separated from the sludge, and gas lgniting means within said chamber for igniting the volatile parts liberated from the sludge.
5. In an apparatus for detecting and determining the presence of oil, gas and other distillable products when penetrated by the rotary well drilling apparatus, the drillings being converted into a sludge by a continuous stream of liquid, a gas collecting and combustion chamber, means for delivering a small quantity of circulating sludge from the Well bore for deposit Within said chamber, means at the base of the chamber for heating the sludge for effecting la fractional distillation of the sludge within said chamber and therein collect the volatile parts separated from the sludge for ignition thereof, and gas igniting means within said chamber.
6. The method of detecting and determining the presence of oil, gas and other distillable products present While penetrating the earth in the drilling of a Well with the bit of a rotary drilling apparatus, which consists in converting the drillings with the aid of a continuous supply of fluid, administered to the bottom of the well bore, and agitation by the drill bit into an upwardly circulating sludge, continuously conducting a small quantity thereof into and through a chamber, and therein heating the same to a determined temperature to effect a fractional distillation thereof, collecting in said chamber the volatile parts liberated from the sludge, and igniting the volatile parts liberated in said chamber by a constantly active ignition means for thedetection thereof. A
7. The method of detecting and determining the presence of oil, gas and other distillable products present while penetrating the earth in the drilling of a well with the bit of a rotary drilling apparatus, which consists in converting the drillings with the aid of a continuous supply of fluid, administered to the bottom of the well bore and agitation by the drill bit into an upwardly circulating sludge, continuously conducting a small quantity of circulating sludge into and through a chamber, heating, While transporting the same through the chamber, to a determined temperature to effect a fractional distillation of the sludge, collecting in said chamber the volatile parts separated therefrom for ignition, and igniting the volatile parts liberated in said chamber by a constantly active ignition means for the detection thereof.
8. The method of detecting and determining the presence of oil, gas and other distillable products present While penetrating the earth in the drilling of a well with the bit of a rotary drilling apparatus, which consists in converting the drillings with the aid of a continuous supply of uid, administered to the bottom of the well bore and agitation by the drill bit into an upwardly circulating sludge, continuously conducting a small quantity of the circulating sludge through a chamber, heating the sludge in said chamber to a determined temperature for effecting a fractional distillation, collecting the volatile constituents, and thence causing ignition thereof by a constantly active ignition means disposed in the chamber.
9. The method of detecting and determining the presence of oil, gas and other distillable products present while penetrating the earth in the drilling of a well with the bit of a rotary drilling apparatus, which consists in converting the drillings with the aid of a continuous supply of fluid administered to the bottom of the wdl bore and agitation by the drill bit, into an upwardly circulating sludge, continuously conducting a small quantity of the circulating sludge into and through a chamber, heating the same while within the chamber to a determined temperature for effecting a fractional distillation ot the sludge within said chamber, collecting the volatile constituents, causing the ignition of said volatile constituents by a constantly active ignition means disposed in the chamber, thence conducting the heated sludge from the rst chamber to a second chamber and heating the same to a higher degree of temperature for a successive fractional distillation corresponding to the rst, for liberation o! gaseous products not liberated by a lower temperature and igniting the gases liberated in said second chamber by a constantly active ignition means.
10. The method of detecting and determining the presence of oil and other distillable products present in the earth while penetrated in drilling a well, and in which a continuous circulation of sludge is maintained for removal oi. the cuttings, which consists in continuously withdrawing a testing quantity of circulating sludge. passing the sludge continuously through a chamber, heating the advancing sludge to a determined degree of temperature for fractional dktlllation to liberate the more volatile products into the chamber, and igniting the liberated volatile )loducts within said chamber by a constantly' active igiition means for detection thereof when presen l1. The method oi detecting and determining the presence of oil and other distillatie Fwducts present in the earth while penetrated in drilling a well, and in which a cmtinuom circulation of sludge is maintained for ma] of the cuttings, which consists in withdrawing a testing quantity of dnulating sludge, passing the sludge continuously through a chamber, heating the advancing sludge to a determined degree of temperature for fractional distillation to liberate the more volatile products into the chamber and igniting the volatile matter by a constantly active ignition means, thereby increasing the chamber temperature and iniluenclng thermo-electro means for signal indi cation.
CURTIS R. CHALKLEY.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2489180A (en) * 1939-04-01 1949-11-22 John T Hayward Method of detecting gas in well drilling fluids
US2514690A (en) * 1946-08-26 1950-07-11 Rotary Engineering And Mfg Com Gas detection
US2533430A (en) * 1945-01-13 1950-12-12 Carnegie Illinois Steel Corp Method and apparatus for analyzing flue gas
US2591737A (en) * 1950-11-28 1952-04-08 Nat Lead Co Detection of oil in mud-laden well drilling fluids
US2749748A (en) * 1951-07-16 1956-06-12 Atlantic Refining Co Apparatus for continuously logging drill cuttings
US2955922A (en) * 1957-07-22 1960-10-11 White Eagle International Inc Gas detection apparatus
US3233453A (en) * 1962-06-25 1966-02-08 Schlumberger Well Surv Corp Drill stem testing methods
US4833915A (en) * 1987-12-03 1989-05-30 Conoco Inc. Method and apparatus for detecting formation hydrocarbons in mud returns, and the like
US20220317001A1 (en) * 2021-03-31 2022-10-06 Halliburton Energy Services, Inc. Methods to use chemo-resistive sensors for wellbore production

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2489180A (en) * 1939-04-01 1949-11-22 John T Hayward Method of detecting gas in well drilling fluids
US2533430A (en) * 1945-01-13 1950-12-12 Carnegie Illinois Steel Corp Method and apparatus for analyzing flue gas
US2514690A (en) * 1946-08-26 1950-07-11 Rotary Engineering And Mfg Com Gas detection
US2591737A (en) * 1950-11-28 1952-04-08 Nat Lead Co Detection of oil in mud-laden well drilling fluids
US2749748A (en) * 1951-07-16 1956-06-12 Atlantic Refining Co Apparatus for continuously logging drill cuttings
US2955922A (en) * 1957-07-22 1960-10-11 White Eagle International Inc Gas detection apparatus
US3233453A (en) * 1962-06-25 1966-02-08 Schlumberger Well Surv Corp Drill stem testing methods
US4833915A (en) * 1987-12-03 1989-05-30 Conoco Inc. Method and apparatus for detecting formation hydrocarbons in mud returns, and the like
US20220317001A1 (en) * 2021-03-31 2022-10-06 Halliburton Energy Services, Inc. Methods to use chemo-resistive sensors for wellbore production
US11768138B2 (en) * 2021-03-31 2023-09-26 Halliburton Energy Services, Inc. Methods to use chemo-resistive sensors for wellbore production

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