US1089390A - Gas-analysis apparatus. - Google Patents

Gas-analysis apparatus. Download PDF

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Publication number
US1089390A
US1089390A US72754712A US1912727547A US1089390A US 1089390 A US1089390 A US 1089390A US 72754712 A US72754712 A US 72754712A US 1912727547 A US1912727547 A US 1912727547A US 1089390 A US1089390 A US 1089390A
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tube
gas
sampling
overflow
pipette
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US72754712A
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Edward J Billings
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Arthur D Little Inc
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Arthur D Little Inc
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N1/00Sampling; Preparing specimens for investigation
    • G01N1/02Devices for withdrawing samples
    • G01N1/10Devices for withdrawing samples in the liquid or fluent state
    • G01N1/12Dippers; Dredgers

Definitions

  • LITTLE LITTLE, mconronn'rnn, or nosron massncnusn'rrs, A CORPORATION or MASSACHUSETTS.
  • My invention relates to a gasanalysis apparatus, and consists of means for automatically collecting a sample of gas during a predetermined length of time, and for analyzing the same.
  • the object of my invention is to provide an automatic apparatus that willcontinuously and uniformly collect a sample of gas to be analyzed, during a definite time, which may be varied at will, and to provide means for its measurement and analysis, in a compact and portable form.
  • FIG. 1 is a front view of the complete apparatus, showing the connections between the several parts;
  • Fig. 2 is a sectional view of the same along the line bb in Fig. 1;
  • Fig. 3 is an end view of the same, along the line 0-0 in Fig. 1, showing also the covers for the apparatus case;
  • Fig. 4 is a view of the three-Way stop-cock;
  • Fig. 5 is a view of a mercury-overflow device;
  • Fig. 6 is a view of a filter, showing its location in the gas-circuit.
  • the apparatus consists of a casing 100, having lids 100 and provided with the usual Orsat apparatus combined with improved means for collecting the sample of gas.
  • a sampling tube 1 is filled with mercury, and is connected, through stop-cock 2, rubber tube 3, mercury-overflow devicea, and rubber tube 5, to the movable mercury container 6.
  • the upper end of the sampling tube 1 is connected through the stop-cock 7 and main conducting tube 8, through stopcock 9, to the sampling pipette 10.
  • a threeway stop-cock 11 in the main conducting tube connects the sampling tube and pipette with the measuring burette and the gasabsorption bulbs as in the well-known Orsat apparatus. This cock also connects the measuring burette and gas-absorption bulbs with the atmosphere.
  • a tube- 12 having an enlarged upper end 13, and
  • a smaller tube 14 communicating with the space in the pipette at its upper end: as shown; the lower end of tube 14 be mg contracted to a small orifice.
  • the enlarged part of tube 12 is sealed into the upper end of tube 10, and is connected by a rubber tube to the main conducting tube through stop-cock 9.
  • the lower part of tube 12 passes through the wall of pipette 10, and connects to a supply of water in a collapsible rubber receptacle 18, through rubber tube 16, and valve 17 this valve is a short glass cylinder or rod within the rubber tube, closing it off, but afi'ording a passage-way on pinching the surrounding tube.
  • This valve is opened and receptacle 18 is squeezed to press the water up within tube 12 until'it reaches the small orifice of tube 14, formin an adjustable seal through which the gas ubbles when passing into the sampling tube.
  • On the side of pipette 10 are an inlet tube 19 and an outlet tube 20, the inlet connected to gas-supply tube 22, through the filtering tube-48 by means of the rubber nipple 51, glass extension 50, and rubber tube 21; and the outlet connected by rubber tube 23 and Y-tube 27 to exhausttube 2 1. Any water condensing from the gas to be analyzed collects at the bottom of tube 10, and may be removed by opening stop-cock 47.
  • the overflow device 4 is an inverted U- shaped tube, see Fig. 5, connected at its bend to a stop-cock 25, which is connected through a tube 26 and Y-tube 27 to the ex 'haust tube 24.
  • the connection 25, 26 and 27 is called the pressure equalizer, and establishes a uniform gas-pressure on both sides of the body of mercury in sampling tube 1, rubber tube 3 and overflow-device 4, thereby preventing the siphoning out of the mercury from the sampling tube, and serving to maintain a uniform back-flow of mercury from the sampling tube through the overflow-device, independent of the gaspressure in the sampling tube.
  • the overflow-device t is supported in a bracket 28, slidable in vertical guides 29, and is suspended from a cord 30, which passes.over pulleys 31, 32, to a counterbalancing weight 33, slidable in a vertical channel 34. From a clock-movement 35, suitably supported within the casing 100, there projects a spindle 36, which rotates at a fixed rate.
  • the spindle 36 may be such as 37, around which passes the cor placed one of several different-sized pulclleyg,
  • the rotation of the pul ey by the clock movement raises the weight 33 and lowers the overflow-device 4, the latter draining mercury from the sampling tube 1, on its descent, and drawing the gas to be analyzed from the sampling pipette 10 into the tube 1 through the connections 7, 8, 9, 15 and 14.
  • the size ofthe pulley 37 determines the rate of descent of overflow-device 4, a large pulley lowering it rapidly and a small one slowly, redetermined sizes of pulleys givin pre etermined rates of descent, thereby ing the sampling tube 1 with gas at a predetermined rate, as in one-half hour, one hour, four hours, twenty-four hours, etc.
  • the filtering tube 48 shown in Fig. 6, has an inlet extension 52 connected to rubber tube 21, and an outlet extension 50 connected by the nipple 51 to the inlet 19 of the samplin pipette 10.
  • the tube 48 contains a suita le filter 15, such as glass wool, which removes any soot or other solids in the gas to be analyzed.
  • the rubber stopper 49 in the end of tube 48 ermits the removal of the filter when desire
  • the gas-absorption bulbs 38, 39 and 40 are connected through stop-cocks to the main conducting tube 8, and through this tube to the measuring burette 41, which is suitably water-jacketed by the tube 42.
  • the burette is connected to the hand-leveling bottle 43 by the tube 44.
  • liquid-reservoir-bulbs 38, 39*, 40* Respectively connected to the absorption-bulbs 38, 39, 40, are liquid-reservoir-bulbs 38, 39*, 40*, see Figs. 2 and 3, the upper ends of the reservoir-bulbs being connected through tube 45 to a bellows or gas-bag, not shown.
  • the apparatus is operated as follows:-- The sampling tube 1 is filled with mercury by raising the mercury container 6 in the.
  • the overflow-device 4 is now raised to the upper part of the case, a suitable sized pulley is placed on the spindle 36, and all stop-cocks are closed.
  • a suitable aspirator such as a water-filter pump or other suction means, is connected to the exhaust tube 24, and supply-tube 22 is-connected to the source of gas to be analyzed.
  • the gas passes through supply-tube 22, rubber tube 21, filtering tube 48 containing the glass wool filter 15, glass extension 50, ruber nipple 51, and inlet 19 into sampling pipette 10, wherein any moisture in the gas condenses and collects at 46.
  • stop-cocks 2, 7, 9 and 25 are opened and the overflow-device is caused to descend at a regulated rate by means of the clock-movement 35 and pulley 37.
  • the descent of the overflow-device will slowly drain the mercury from the sampling tube 1, thereby drawing in gas from the sampling pipette 10 through passages 14, 13, 9, 8 and 7.
  • the gas in passing through the tube 14 will bubble through the water seal, which latter may be adjusted as explained above.
  • the glass-wool filter 15 removes any soot, etc., from the gas before it passes to the sampling pipette 10.
  • stop-cock 9 When a sufiicient quantity of gas has been collected, stop-cock 9 is closed and mercury container 6 elevated slowly until the mercury columns join at the overflow point 4. Stop-cock 25 is then closed and the mercury container 6 raised still further and set on top of the case 100.
  • the gas in the sampling tube 1 is now under pressure and it may be drawn through the three-way cock 11 into the measuring burette of the Orsat apparatus in the usual manner, after which it is transferred to the absorption-bulbs 38, 39 and 40. r
  • stop-cock 7 In order to take instantaneous or grab samples while a continuous sample is being collected, stop-cock 7 is closed and the gas drawn through stop-cock 9 and three-way cock 11 into the measuring burette 41 of the Orsat apparatus by means of the handleveling bottle 43 in the usual manner. After the proper volume of gas has been obtained in the measuring burette 41, the three-way cock 11 is closed and stop-cock 7 opened; thereby resuming the continuous sampling operation.
  • a sampling tube In a gas-analysis apparatus, a sampling tube, a draining conduit comprising a Y-overflow tub connected thereto, and means for lowering said Y-overflow tube and collecting a sample of gas during a predetermined time.
  • a sampling pipette In a gas-analysis apparatus, a sampling pipette, an exhaust tube connected thereto, a sampling tube connected to said pipette, a conduit leading from said sampling tube, and a gas connection between said conduit and exhaust tube.
  • a sampling pipette In a gas-analysis apparatus, a sampling pipette, an exhaust tube connected thereto, a sampling tube connected to said pipette, a conduit leading from said sampling tube, said conduit having a valved connection to said exhausttube, and means for draining said sampling tube through said conduit.
  • a sampling tube In a gas-analysis apparatus, a sampling tube, a conduit leading therefrom, a clock-movement, and means operated by said clock-movement for lowering a part of said conduit at a predetermined rate.
  • a sampling tube In a gas-analysis apparatus, a sampling tube, a conduit comprising a Y-overflow tube leading therefrom, a, clock-movement, and changeable means for imparting lpredetermined velocities attachable to said clock-movement to lower said Y-overflow and means for establishing a connection b'etube at difi'erent predetermined rates. tween said overflow device and said exhaust 6.

Description

Patented Mar. 10, 1914.
E. J. BILLINGS.
GAS ANALYSIS APPARATUS. APPLICATION TILED OUT. 24, 1912.
ENMNN NN .mN N6 WITNESSES UNITED STATES PATENT orsion.
EDWARD J. BILLINGS, or BOSTON, mnssncnusn'rrsnssrenon To ARTHURD.
LITTLE, mconronn'rnn, or nosron massncnusn'rrs, A CORPORATION or MASSACHUSETTS.
GAS-ANALYSIS nrrane'r'us rosaseo.
Specification of Letters Patent.
, Patented Mar. 10,1914.
To all whom it may concern:
Be it known that I, EDWARD JJBILLINGS, a citizen of the United States, residing at Boston, in the county of Suffolk and State of Massachusetts, have invented certain new and useful Improvements in Gas-Analysis Apparatus, of which the following is a specification.
My invention relates to a gasanalysis apparatus, and consists of means for automatically collecting a sample of gas during a predetermined length of time, and for analyzing the same.
The object of my invention is to provide an automatic apparatus that willcontinuously and uniformly collect a sample of gas to be analyzed, during a definite time, which may be varied at will, and to provide means for its measurement and analysis, in a compact and portable form.
In the accompanying drawing-Figure 1 is a front view of the complete apparatus, showing the connections between the several parts; Fig. 2 is a sectional view of the same along the line bb in Fig. 1; Fig. 3 is an end view of the same, along the line 0-0 in Fig. 1, showing also the covers for the apparatus case; Fig. 4 is a view of the three-Way stop-cock; Fig. 5 is a view of a mercury-overflow device; and Fig. 6 is a view of a filter, showing its location in the gas-circuit.
Similar reference characters indicate similar parts. I
The apparatus consists of a casing 100, having lids 100 and provided with the usual Orsat apparatus combined with improved means for collecting the sample of gas. A sampling tube 1 is filled with mercury, and is connected, through stop-cock 2, rubber tube 3, mercury-overflow devicea, and rubber tube 5, to the movable mercury container 6. The upper end of the sampling tube 1 is connected through the stop-cock 7 and main conducting tube 8, through stopcock 9, to the sampling pipette 10. A threeway stop-cock 11 in the main conducting tube connects the sampling tube and pipette with the measuring burette and the gasabsorption bulbs as in the well-known Orsat apparatus. This cock also connects the measuring burette and gas-absorption bulbs with the atmosphere.
Within the sampling pipettelO, is a tube- 12 having an enlarged upper end 13, and
containing a smaller tube 14: communicating with the space in the pipette at its upper end: as shown; the lower end of tube 14 be mg contracted to a small orifice. The enlarged part of tube 12 is sealed into the upper end of tube 10, and is connected by a rubber tube to the main conducting tube through stop-cock 9. The lower part of tube 12 passes through the wall of pipette 10, and connects to a supply of water in a collapsible rubber receptacle 18, through rubber tube 16, and valve 17 this valve is a short glass cylinder or rod within the rubber tube, closing it off, but afi'ording a passage-way on pinching the surrounding tube. This valve is opened and receptacle 18 is squeezed to press the water up within tube 12 until'it reaches the small orifice of tube 14, formin an adjustable seal through which the gas ubbles when passing into the sampling tube. On the side of pipette 10 are an inlet tube 19 and an outlet tube 20, the inlet connected to gas-supply tube 22, through the filtering tube-48 by means of the rubber nipple 51, glass extension 50, and rubber tube 21; and the outlet connected by rubber tube 23 and Y-tube 27 to exhausttube 2 1. Any water condensing from the gas to be analyzed collects at the bottom of tube 10, and may be removed by opening stop-cock 47.
The overflow device 4 is an inverted U- shaped tube, see Fig. 5, connected at its bend to a stop-cock 25, which is connected through a tube 26 and Y-tube 27 to the ex 'haust tube 24. The connection 25, 26 and 27 is called the pressure equalizer, and establishes a uniform gas-pressure on both sides of the body of mercury in sampling tube 1, rubber tube 3 and overflow-device 4, thereby preventing the siphoning out of the mercury from the sampling tube, and serving to maintain a uniform back-flow of mercury from the sampling tube through the overflow-device, independent of the gaspressure in the sampling tube.
The overflow-device t is supported in a bracket 28, slidable in vertical guides 29, and is suspended from a cord 30, which passes.over pulleys 31, 32, to a counterbalancing weight 33, slidable in a vertical channel 34. From a clock-movement 35, suitably supported within the casing 100, there projects a spindle 36, which rotates at a fixed rate. Upon the spindle 36 may be such as 37, around which passes the cor placed one of several different-sized pulclleyg, The rotation of the pul ey by the clock movement raises the weight 33 and lowers the overflow-device 4, the latter draining mercury from the sampling tube 1, on its descent, and drawing the gas to be analyzed from the sampling pipette 10 into the tube 1 through the connections 7, 8, 9, 15 and 14. The size ofthe pulley 37 determines the rate of descent of overflow-device 4, a large pulley lowering it rapidly and a small one slowly, redetermined sizes of pulleys givin pre etermined rates of descent, thereby ing the sampling tube 1 with gas at a predetermined rate, as in one-half hour, one hour, four hours, twenty-four hours, etc.
The filtering tube 48, shown in Fig. 6, has an inlet extension 52 connected to rubber tube 21, and an outlet extension 50 connected by the nipple 51 to the inlet 19 of the samplin pipette 10. The tube 48 contains a suita le filter 15, such as glass wool, which removes any soot or other solids in the gas to be analyzed. The rubber stopper 49 in the end of tube 48 ermits the removal of the filter when desire The gas- absorption bulbs 38, 39 and 40, are connected through stop-cocks to the main conducting tube 8, and through this tube to the measuring burette 41, which is suitably water-jacketed by the tube 42. The burette is connected to the hand-leveling bottle 43 by the tube 44. Respectively connected to the absorption- bulbs 38, 39, 40, are liquid-reservoir-bulbs 38, 39*, 40*, see Figs. 2 and 3, the upper ends of the reservoir-bulbs being connected through tube 45 to a bellows or gas-bag, not shown.
The apparatus is operated as follows:-- The sampling tube 1 is filled with mercury by raising the mercury container 6 in the.
-usual manner. The overflow-device 4 is now raised to the upper part of the case, a suitable sized pulley is placed on the spindle 36, and all stop-cocks are closed. A suitable aspirator, such as a water-filter pump or other suction means, is connected to the exhaust tube 24, and supply-tube 22 is-connected to the source of gas to be analyzed. The gas passes through supply-tube 22, rubber tube 21, filtering tube 48 containing the glass wool filter 15, glass extension 50, ruber nipple 51, and inlet 19 into sampling pipette 10, wherein any moisture in the gas condenses and collects at 46. The gas thence passes throu h outlet 20, rubber tube 23, the vertical ranch of Y-tube 27 and exhaust 24 to the aspirator, After the gas has been flowing long enough to remove any air in the apparatus, stop-cocks 2, 7, 9 and 25 are opened and the overflow-device is caused to descend at a regulated rate by means of the clock-movement 35 and pulley 37. The descent of the overflow-device will slowly drain the mercury from the sampling tube 1, thereby drawing in gas from the sampling pipette 10 through passages 14, 13, 9, 8 and 7. The gas in passing through the tube 14 will bubble through the water seal, which latter may be adjusted as explained above. The glass-wool filter 15 removes any soot, etc., from the gas before it passes to the sampling pipette 10. When a sufiicient quantity of gas has been collected, stop-cock 9 is closed and mercury container 6 elevated slowly until the mercury columns join at the overflow point 4. Stop-cock 25 is then closed and the mercury container 6 raised still further and set on top of the case 100. The gas in the sampling tube 1 is now under pressure and it may be drawn through the three-way cock 11 into the measuring burette of the Orsat apparatus in the usual manner, after which it is transferred to the absorption- bulbs 38, 39 and 40. r
In order to take instantaneous or grab samples while a continuous sample is being collected, stop-cock 7 is closed and the gas drawn through stop-cock 9 and three-way cock 11 into the measuring burette 41 of the Orsat apparatus by means of the handleveling bottle 43 in the usual manner. After the proper volume of gas has been obtained in the measuring burette 41, the three-way cock 11 is closed and stop-cock 7 opened; thereby resuming the continuous sampling operation.
I claim:
1. In a gas-analysis apparatus, a sampling tube, a draining conduit comprising a Y-overflow tub connected thereto, and means for lowering said Y-overflow tube and collecting a sample of gas during a predetermined time.
2. In a gas-analysis apparatus, a sampling pipette, an exhaust tube connected thereto, a sampling tube connected to said pipette, a conduit leading from said sampling tube, and a gas connection between said conduit and exhaust tube.
3. In a gas-analysis apparatus, a sampling pipette, an exhaust tube connected thereto, a sampling tube connected to said pipette, a conduit leading from said sampling tube, said conduit having a valved connection to said exhausttube, and means for draining said sampling tube through said conduit.
4. In a gas-analysis apparatus, a sampling tube, a conduit leading therefrom, a clock-movement, and means operated by said clock-movement for lowering a part of said conduit at a predetermined rate.
5. In a gas-analysis apparatus, a sampling tube, a conduit comprising a Y-overflow tube leading therefrom, a, clock-movement, and changeable means for imparting lpredetermined velocities attachable to said clock-movement to lower said Y-overflow and means for establishing a connection b'etube at difi'erent predetermined rates. tween said overflow device and said exhaust 6. In a gas-analysis apparatus, a samtube. pling pipette, an exhaust tube connected In testlmony whereof I afiix my signature 5 thereto, a sampling tube, a valved passage 1n pres n e of tWO Witnesses.
between said pipette and said sampling EDWARD J BILLINGS tube, a conduit including an overflow device communicating with said sampling Witnesses: tube, means for draining said sampling tube LEIGH S. KEITH, 10 through said conduit and overflow device, WM. KILKENNY.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2545900A (en) * 1947-01-24 1951-03-20 Socony Vacuum Oil Co Inc Apparatus for collecting soil gas samples
US2767064A (en) * 1952-12-19 1956-10-16 E H Sargent & Company Apparatus for igniting combustible fuel gases
US2786355A (en) * 1953-04-16 1957-03-26 Crown Cork & Seal Co Fluid analyzing system and sampling device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2545900A (en) * 1947-01-24 1951-03-20 Socony Vacuum Oil Co Inc Apparatus for collecting soil gas samples
US2767064A (en) * 1952-12-19 1956-10-16 E H Sargent & Company Apparatus for igniting combustible fuel gases
US2786355A (en) * 1953-04-16 1957-03-26 Crown Cork & Seal Co Fluid analyzing system and sampling device

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