US1213796A - Process of compressing, purifying, drying, and cooling gases. - Google Patents

Process of compressing, purifying, drying, and cooling gases. Download PDF

Info

Publication number
US1213796A
US1213796A US9567316A US9567316A US1213796A US 1213796 A US1213796 A US 1213796A US 9567316 A US9567316 A US 9567316A US 9567316 A US9567316 A US 9567316A US 1213796 A US1213796 A US 1213796A
Authority
US
United States
Prior art keywords
gas
compression
oil
turkey
compressing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US9567316A
Inventor
Willard Oliver Felt
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
PETROLEUM PRODUCTS Co
Original Assignee
PETROLEUM PRODUCTS Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by PETROLEUM PRODUCTS Co filed Critical PETROLEUM PRODUCTS Co
Priority to US9567316A priority Critical patent/US1213796A/en
Application granted granted Critical
Publication of US1213796A publication Critical patent/US1213796A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C7/00Purification; Separation; Use of additives
    • C07C7/11Purification; Separation; Use of additives by absorption, i.e. purification or separation of gaseous hydrocarbons with the aid of liquids
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D53/00Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
    • B01D53/14Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols by absorption
    • B01D53/1493Selection of liquid materials for use as absorbents

Definitions

  • the objects of my invention are to remove the tarry vapors, the ammonia, the carbonic acid, the sulfur compounds, the sulfureted hydrogen, the aqueous vapor, and the heat of compression from natural gas, or illuminating gas, or from air or other gases, during the process of compression or after, whether the treated air or other gas is used under pressure or otherwise.
  • the figure is a view of a compressor cylinder, showing the valve gear for injecting oil into the cylinder While compressing, a supply tank under pressure, which is also a cooler and condenser, a separator, connecting pipes, and valves.
  • B is the supply tank under pressure, con ⁇ taining Pliurkey-red oil under pressure. to which is piped the compressed gas above the liquid, and from which is piped the Turkey-red oil to the compression cylinder, and it is provided with a cooling coil.
  • (l is a separator, of any form, in which by means of baille plates, for example, or centrifugal -force or otherwise, the Turkey-red oil is separated from the compressed gas.
  • D and D are iniection nozzles for the introduction of the Turkey-red oil in a spray
  • G is a pipe connection between the compressed gas main and the supply tank, maintaining a constant pressure of the gas above the surface of the Turkey-red oil to work the injection of the rlurkey-red oil into the cylinder, which pressure is always greater than that in the cylinder at any point of the compression stroke except at the end of the stroke.
  • l-l is a pipe from the compression cylinder to the separator, through which is conveyed the gas and the Turkey-red oil associated with all the tarry purities and with the moisture, and carrying nearly all the heat of compression.
  • the injection of oil would be about 1000 grains per stroke, the compression cylinder being about 12 inches in diameter and :24-inch stroke, running about sixty revolutions a minute.
  • the Turkey-red oil by means of a spray is difused through the gas during the compression stroke, and I have discovered that it has the property of taking up nearlv all the heat of compression, nearly all the aqueous vapor, the amsmonia, the tarry vapors, and all the other impurities of natural gas, When both the gas and the oil are under pressure, preferably of not less than 150 pounds per square inch or upward, provided the gas is cool all the time.
  • the inlet port for the Turkeyred oil is closed by the three-Way cock d, operated by an eccentric on the main shaft, not shown, of the driving engine, or otherwise.
  • the compressed gas, intimately commingled with the oil, associated with the aqueous vapor and the impurities, and carrying the heat of compression, is led to the top of the separating tank, Where by passing over the baffle plates, if the separator 1s of that construction, the oil, associated vapor and impurities warmed by the heat of compression drips down to the bottom, and the purified, cooled, compressed gas is drawn off higher up andconveyed to the outgoing main and the operation is complete.
  • the oil after compression is led hack through a cooler or through condensing plpes, or other device for abstracting the heat on its return to the supply tank,'and is used over and over again, and is not flissipated by the treatment, although some is consumed in lubricating the compressor piston. but thereby dispenses with all other lubrication.y It is readily separated from the impurities by gravity, or in other wellknown Ways, or by concentration in a vacuum.
  • I/Vhile I prefer to inject the oil into the compression cylinder during the first of the ⁇ compression stroke, I do not confine myself to this point of introduction, but may introduce the oil into the air or gas to be compressed in any manner and at any stage, so that the oil and gas or air may be intimately mixed, either concurrently with the compression or while the gas is under pressure; and if during compression the operation of absorbing the heat, vapors, and impurities takes placeat each stroke almost instantaneously.
  • the natural gas for example, is treated While under 4its original pressure, it may be forced up through a body of Turkey-red oil in a tank inserted in the gas main which contains the body of the Turkey-red oil in the bottom of the tank, into which the gas is introduced by a section of the gas main leading nearly to the bottom of the tank,
  • mimo@ 5 The process of purifying gases which county Iendl State of New York, this 15th consists in refrigerating Turkey-red oil to day of September, 1908.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Analytical Chemistry (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • General Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Water Supply & Treatment (AREA)
  • Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
  • Separation By Low-Temperature Treatments (AREA)
  • Drying Of Gases (AREA)

Description

` 1W. O. FELT. PROCESS OF COMPRESSINGQPURIFYING, DRYING, AND COOLING GASES.
APPLlcATloN FILED senza. |908. RENEWED MAY 5. 1916.
I l I JJJJJJJJJJJJM inn satana armi oriana.
'WILLAJRD OLIVER FELT, OF BRADFORD, PENNSYLVANIA, ASSIGNOR TO PETROLEUM PRODUCTS COMPANY, A CORPORATION OF NEW JERSEY.
PROCESS OF COMPRESSIN G, PURIFYING,
DRYING, AND COOLING GASES.
Application led September 26, 1908, Serial N o. 454,925. Renewed May 5, 1916.
To all wiz om it may concern.:
Be it known that l, VVILLARD OLIVER FELT, a citizen of the United States, and a resident of the city of Bradford, in the county of McKean and State of Pennsylvania, have invented certain new and useful Improvements in the Processes of Compressing, Purifying, Drying, and Cooling Air and other Gases, of which the following is a specification.
The objects of my invention are to remove the tarry vapors, the ammonia, the carbonic acid, the sulfur compounds, the sulfureted hydrogen, the aqueous vapor, and the heat of compression from natural gas, or illuminating gas, or from air or other gases, during the process of compression or after, whether the treated air or other gas is used under pressure or otherwise.
Other objects will appear from the hereinafter description. 1
l have illustrated one type of apparatus for carrying out my invention, during compression, but the process may be worked afterward at any stage so long as the gas remains under pressure, or on natural gas under its original pressure.
Referring to the drawing, the figure is a view of a compressor cylinder, showing the valve gear for injecting oil into the cylinder While compressing, a supply tank under pressure, which is also a cooler and condenser, a separator, connecting pipes, and valves.
"ll` he part marked A on the drawing represents a compression cylinder driven in the usual way, by power not shown, in Which the gas may be compressed upy to 1500 pounds to the square inch, or to any conyenient lower pressure not less than about 150 pounds, in one stage without the use of water-jackets or inter-coolers.
B is the supply tank under pressure, con` taining Pliurkey-red oil under pressure. to which is piped the compressed gas above the liquid, and from which is piped the Turkey-red oil to the compression cylinder, and it is provided with a cooling coil.
(l is a separator, of any form, in which by means of baille plates, for example, or centrifugal -force or otherwise, the Turkey-red oil is separated from the compressed gas.
D and D are iniection nozzles for the introduction of the Turkey-red oil in a spray,
Specification of Letters Patent.
cylinder, to
Paten ted Jan. 23, lltlllll.
Serial No. 95,673.
controlled by a three-way cock d moved by an eccentric rod E., adjusted to open the injection ports alternately on the compression side of the stroke, each valve opening as soon as the piston begins to compress, and remaining open during compression or some part of it.
G is a pipe connection between the compressed gas main and the supply tank, maintaining a constant pressure of the gas above the surface of the Turkey-red oil to work the injection of the rlurkey-red oil into the cylinder, which pressure is always greater than that in the cylinder at any point of the compression stroke except at the end of the stroke.
l-l is a pipe from the compression cylinder to the separator, through which is conveyed the gas and the Turkey-red oil associated with all the tarry purities and with the moisture, and carrying nearly all the heat of compression.
For simplicity ll have shown this apparatus in diagrammatic form. without encumbering the drawing with the inlet ports for the gas to be compressed, the outlet valves. the stop-cocks and other details, all
of which are well-known to those con- Versant with the art. and all of which may be varied according to the preference of those working the process.
The operation of the apparatus'and the working of the process will be Well understood by the illustration. wherein natural gas, as an example, is to be compressed for the purpose of liquefying the gas or for conveying it through `mains for long or short distances, and the liquid employed in this illustration is the ordinary Turkeyred oil of commerce, the best of which is made from castoroil with sulfuric acid in a Well-known manner, but ll may use Turkey-red oil formed from olive oil. cottonseed oil and arachis oil, or otherwise. For example, 'I charge the supply tank with about 2,000 pounds of the ordinary Turkeyred oil of commerce, lling the tank about a quarter full, if it feet in diameter, and start the compression the inlet ports of which are led the supply pipe from a well of natural gas, such, for example, as is found in the Bradford fields in Pennsylvania. As soon as the pressure rises in the pressure main, that is 10 feet high and '4 Y pressure is communicated through the pipe G to the gas above the surface of the Turkey-red oil in the supply tank B and furnishes the means for injecting a small quantity of .the Turkey-red oil into the compression side of thecompressor at each stroke and during that part of the stroke wherein the cylinder pressure is lower than the supply tank pressure. If the compressor is of the capacity, say, of 600 cubic feet of free ai'r per minute, the injection of oil would be about 1000 grains per stroke, the compression cylinder being about 12 inches in diameter and :24-inch stroke, running about sixty revolutions a minute. The Turkey-red oil by means of a spray is difused through the gas during the compression stroke, and I have discovered that it has the property of taking up nearlv all the heat of compression, nearly all the aqueous vapor, the amsmonia, the tarry vapors, and all the other impurities of natural gas, When both the gas and the oil are under pressure, preferably of not less than 150 pounds per square inch or upward, provided the gas is cool all the time. Before the end of the compression stroke and about the time the pressure in the cylinder equals the pressure in the supply tank, the inlet port for the Turkeyred oil is closed by the three-Way cock d, operated by an eccentric on the main shaft, not shown, of the driving engine, or otherwise. The compressed gas, intimately commingled with the oil, associated with the aqueous vapor and the impurities, and carrying the heat of compression, is led to the top of the separating tank, Where by passing over the baffle plates, if the separator 1s of that construction, the oil, associated vapor and impurities warmed by the heat of compression drips down to the bottom, and the purified, cooled, compressed gas is drawn off higher up andconveyed to the outgoing main and the operation is complete. l
I have described but one stroke, but Whether double acting or single the operation is substantiallyv identical with each str oke, and I have found that all the foregoing objects are thus attained. The operation would be substantially similar in the case of the compression of air, Whether for refrigeration, liquefaction or metallurgical operations. such as for the blast of furnaces or converters, and for compression systems for'power. It would lloe similar for illuminating gas, producer gas, and the like.
I have found that no water-jackets or inter-coolers are necessary even for high pressures conducted in one stage compressors.
The oil after compression is led hack through a cooler or through condensing plpes, or other device for abstracting the heat on its return to the supply tank,'and is used over and over again, and is not flissipated by the treatment, although some is consumed in lubricating the compressor piston. but thereby dispenses with all other lubrication.y It is readily separated from the impurities by gravity, or in other wellknown Ways, or by concentration in a vacuum.
I/Vhile I prefer to inject the oil into the compression cylinder during the first of the `compression stroke, I do not confine myself to this point of introduction, but may introduce the oil into the air or gas to be compressed in any manner and at any stage, so that the oil and gas or air may be intimately mixed, either concurrently with the compression or while the gas is under pressure; and if during compression the operation of absorbing the heat, vapors, and impurities takes placeat each stroke almost instantaneously.
If the natural gas, for example, is treated While under 4its original pressure, it may be forced up through a body of Turkey-red oil in a tank inserted in the gas main which contains the body of the Turkey-red oil in the bottom of the tank, into which the gas is introduced by a section of the gas main leading nearly to the bottom of the tank,
the upper part of which tank is filled with coke or staggered plates supported on a screen on which the treated gas, oil, impurities, and vapor impinge, and from which theyvdrip back into the bottom of the tank. The dried, purified and cooled air is led olf from the top of the tank to the main.
When air is treated by my process it is likely to be for the removal of moisture, and in that case the treatment should be conducted in the compressor cylinder, in order to escape the expansion of the air in the c vlinder due to the heat of compression, and the consequent lessening of the volumetric capacity of the compressor. The example given is by Way of illustration only and not as a limitation.
Having now described my invention, what I claim as new and desire to secure by Letters Patent is 1. The process of purifying gases which consists in compressing them in the presence of Turkey-red oil.
2. The process of purifying gases which consists in compressing them in the presence of Turkey-red oil in the form of a mist or fine spray.
3. The process of purifying gases which consists in compressing them in the presence l of Turkey-red oil which has been reduced in temperature considerably below that of the gas to be treated.
4. The process of purifying` gases which consists in compressing them in the presence of Turkey-red oil in the form of a mist or fine spray, and subsequently recovering the Turkey-red oil for reuse.
mimo@ 5. The process of purifying gases which county Iendl State of New York, this 15th consists in refrigerating Turkey-red oil to day of September, 1908.
a temperature below that of the gas to be U l I treated, commingling the said oil endl gas LLRD ULIVERXELT [LS'] 5 and then compressing the mixture. 1n presence oir- Jln testimony whereof, I have hereunto set JOHN J. Reimann, my hand and. affixed my seal, at the city, I. R. RIC t w
US9567316A 1916-05-05 1916-05-05 Process of compressing, purifying, drying, and cooling gases. Expired - Lifetime US1213796A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US9567316A US1213796A (en) 1916-05-05 1916-05-05 Process of compressing, purifying, drying, and cooling gases.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US9567316A US1213796A (en) 1916-05-05 1916-05-05 Process of compressing, purifying, drying, and cooling gases.

Publications (1)

Publication Number Publication Date
US1213796A true US1213796A (en) 1917-01-23

Family

ID=3281688

Family Applications (1)

Application Number Title Priority Date Filing Date
US9567316A Expired - Lifetime US1213796A (en) 1916-05-05 1916-05-05 Process of compressing, purifying, drying, and cooling gases.

Country Status (1)

Country Link
US (1) US1213796A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2557682A (en) * 1945-02-21 1951-06-19 Standard Oil Dev Co Condensing vapor streams
US2627318A (en) * 1949-08-08 1953-02-03 Socony Vacuum Oil Co Inc Refrigeration method of recovering hydrocarbons from gas mixtures

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2557682A (en) * 1945-02-21 1951-06-19 Standard Oil Dev Co Condensing vapor streams
US2627318A (en) * 1949-08-08 1953-02-03 Socony Vacuum Oil Co Inc Refrigeration method of recovering hydrocarbons from gas mixtures

Similar Documents

Publication Publication Date Title
US2337474A (en) Process of and apparatus for separating gas mixtures
RU2721347C1 (en) Plant for reduction of natural gas and production of gas motor fuel
GB899171A (en) Fractionation of gaseous mixtures
US2011551A (en) Method of manufacturing solid carbon dioxide
US1213796A (en) Process of compressing, purifying, drying, and cooling gases.
US2433604A (en) Separation of the constituents of gaseous mixtures
US2709348A (en) Process of and apparatus for separating gas mixtures
US3057167A (en) Process and apparatus for separating helium from helium-air mixtures
US1810312A (en) Pro ess of separating gases
KR101938174B1 (en) Three Phase Separator and Boil-Off Gas Re-liquefaction System
US2213338A (en) Method and apparatus for fractionating gaseous mixtures
US1073843A (en) Illuminating liquefied gas and method of treating gases.
US1864585A (en) Art of rectifying mixed gases
US1213795A (en) Process of separating hydrocarbons from natural or other gas.
US1142525A (en) Apparatus for obtaining liquid hydrocarbons.
US2561720A (en) Method and apparatus for removing condensables from gases
US1979682A (en) Process for separating vapors from gaseous mixtures
US1728947A (en) Art of separation by liquefaction
RU2723654C1 (en) Low-temperature fractionation unit for main gas deethanization (versions)
RU2758362C1 (en) Installation for complex gas treatment with increased extraction of gas condensate and production of liquefied natural gas
RU2750864C2 (en) Installation for reducing natural gas to produce gas-engine fuels (options)
US1445973A (en) Oxygenated blast for metallurgical furnaces
US1521138A (en) Liquefaction of gases
US1609450A (en) Liquefaction and rectification of gases
RU2578246C1 (en) Natural gas liquefaction method