US666387A - Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam. - Google Patents

Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam. Download PDF

Info

Publication number
US666387A
US666387A US73924499A US1899739244A US666387A US 666387 A US666387 A US 666387A US 73924499 A US73924499 A US 73924499A US 1899739244 A US1899739244 A US 1899739244A US 666387 A US666387 A US 666387A
Authority
US
United States
Prior art keywords
alkali
amalgam
shelves
electricity
hydrogen
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
US73924499A
Inventor
Josiah W Kynaston
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to US73924499A priority Critical patent/US666387A/en
Application granted granted Critical
Publication of US666387A publication Critical patent/US666387A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J19/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J19/08Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor
    • B01J19/10Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor employing sonic or ultrasonic vibrations
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S204/00Chemistry: electrical and wave energy
    • Y10S204/03Auxiliary internally generated electrical energy

Definitions

  • My improved form of denuding apparatus is designed to overcome these difficulties and impediments and to permit of the perfect den udation of large quantities of amalgam in a comparatively limited space and to use an amalgam much richer in alkali metal than has been heretofore treated and to obtain hydrogen and electricity at the same time.
  • the cuter inclosnre of the apparatus a tank or cistern built up of Wrought or cast iron plates iirmly riveted or bolted together to form a water-tight vessel.
  • the approximate internal dimensions of the inclosure will be as follows: the height about half the length and the breadth about one-sixth of the length. For instance, in an inclosure of which the length is ten feet I make the height tive to six feet and the breadth one foot nine inches to two feet. I do not, of course, bind myself to these dimensions.
  • Figure l is a transverse vertical section of a simple form of my denuder with one cathode or range of cathodes;
  • Fig. 2 a similar view of a denuding apparatus, showing two ranges of cathodes, also a dynamo and parts of gasometer and amalgam -producer in diagram form;
  • Figs. 3 and 4 horizontal sections of the denuders shown in Figs. l and 2, respectively.
  • iron other conducting material could be employed for these shelves, provided it be not soluble in mercury or caustic liquor, or a non-conductor, such as glass, could be used if the various layers of amalgam be electrically connected with the tank or conducting-Wire.
  • the shelves are hollowed out on the upper surface to the depth of about onehalf inch, the depression reaching to about one-quarter inch of the outer edges ot' the shelves.
  • a narrow ridge C At the alternate ends of each of adjacent shelves andabout three inches from the ends a narrow ridge C, one-eighth of an inch lower than the outer upper edge of the shelf, runs across it, and in the depression beyond the ridg a hole D about one inch in diameter is bored through the shelf.
  • Holes E are also provied through each of the sides or ends of the inclosure at a short distance above the level of the uppermost of the shelves, and pipes F, for the conveyance of amalgam to the shelves, are firmly fixed in the apertures.
  • a hole G is also provided in IOO the bottom plate of the inclosure, and to this a pipe Il is firmly and tightly iitted. This pipe serves for the withdrawal of the den uded mercury from the inclosure.
  • Pipes or tubes I are also provided for passing water into the inclosure, and others, J, for drawing off the solution of caustic alkali when sufficiently concentrated, the feed-pipe being iixed in the cover or in the side near to the cover of the inclosure and the run-off pipe in the bottom of the inclosure (when it must protrude one or two inches over the surface of the bottom plate) or in the side near to the bottom.
  • An orifice K in the cover of the inclosure permits of the escape of the hydrogen gas produced du ring the oxidation of the alkali metal in the amalgam through pipe L to the gasometer M.
  • I suspend through apertures in the cover of the inclosure in the central space between tle shelves a series of plates or sheets of iron N, which may be perforated or in the form of grids cast or bent so as to form hollow rectangular plates or boxes, or I use for this purpose sheets of stout iron gauze bent to shape, as above described.
  • These hollow boxes, sheets, or plates are of such depth that they extend from about the level of the uppermost of the shelves B to within a short distance from the bottom of the tank A, and the suspenders Q must be carefully insulated by insulators R where they pass through the metal cover of the tank.
  • the tank A is iirst filled with wtfer to a little over the level of the uppermost Uf the shelves
  • the liquid amalgam is then passed in and falling upon the uppermost shelf of each series it fills the depression and then falls through the opening D at the farther end to the next shelf, and so on until all the shelves are charged,when the stream being continued it falls to and covers the bottom of the vessel, and the mercury is completely, or almost completely, denuded of alkali metal and allowed to flow out of the vessel.
  • a tap V attached to the outlet-pipe, is opened and the liquor drawn off in a continuous stream, the supply of water being continued through the inlet-pipe I, so as to maintain a constant depth of liquor in the vessel.
  • the hydrogen gas liberated passes away by the aperture K, provided for the purpose, and is utilized either as fuel for driving gas-engines or otherwise.
  • the electric current is led away by wires R and T, attached to the ou ter casing of the tank A and to the suspended cathodes N, to perform any useful work.
  • An apparatus for denuding alkali-metal amalgam of its alkali, and at the same time producing electricity which consists of an iron cathode a series of superposed trays surrounding the same, a thin quiescent horizontal layer of alkali-metal amalgam on each of these trays, and electric conductors connected respectively with the amalgam and the iron cathode, forming when combined an electric circuit.
  • An apparatus for denuding alkali-metal amalgam of its alkali and at the same time forming a primar;7 battery having a cathode of iron an anode of alkali-metal amalgam, shelves carrying the latter arranged around the anode, an iron tank carrying the shelves and an electrolyte of dilute caustic alkali, substantially as described.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)

Description

Patentad Ia'n. 27 IQOI. J. W.KYNASTON. v APPARATUS FUR PRODUCING ALKALI, ELECTRICITY, AND HYDRUGEN FROM ALKALI METAL AMALGAM.
(Application Bled Dec. 5, 1899.)
2 Sheets-Sheet I.
Ql/Llfvessles No. 666,387. Patnted'lan. 22, I90I.
J. W. KYNASTON. APPARATUS FUR PRODUGING ALKAL'I, ELECTRICITY, AND HYDROGEN FROM ALKALI METAL AMALGAM.
(Application filed Dac. 5, 1899.) (No Model.) I 2 Sheets-Sheet 2.
EWE /M Lg s O \||s l Q 7@ IHM E s Va lUiviTnn RTaTns RaTnNT Prion.
JOSIAH W. KYNASTON, OF LIVERPOOL, ENGLAND.
APPARATUS FOR PRODUCING ALKALI, ELECTRICITY, AND HYDROGEN FROM ALKALI-METAL AMALGAM.
.SEEGIFICATION forming; part of Letters Patent No. 666,387', dated January 22, 1901.
Application filed December 5, 1899x Serial No. 739,244. @lo model.)
To @ZZ whom it may concern:
Be it k nown that I, JosIAH WYCKLIFFE KY- NASTON, a subject of the Queen of Great Britain, residing at Liverpool, in the county of Lancaster, England, (whose post-oflice address is Oak TerraceJSeech street, Liverpool,) have invented certain new and useful Improvements in Apparatus for the Production of Alkali, Electricity, and Hydrogen from Alkali- Metal Amalgam, of which the following is a specification.
The manufacture of caustic alkalies by the medium of alkalinemetal amalgam obtained by the electrolytic decomposition of solutions of alkaline chlorids with a mercury cathode is carried out on an extensive scale, and manj,v and varied forms of apparatus have been designed for this purpose. In most of these arrangements the alkali-metal amalgam is caused To pass from the compartment in which it has been produced to asecond or more compartments of the same piece of apparatus. These second compartments are supplied with water, and in them the amalgam is partially den uded of alkali metal and then returned to the first compartment to receive a fresh charge of alkali metal. The construct-ion of plants of this kind, in which two distinct and essentially varying operations are to be performed, is very difficult, and the second operationw-the denuding of the amalgam of alkali metalis never completely effected, and only very minute quantities of alkali are obtained at each circulation of the amalgam through the denudingcompartment, and by reason of the complications involved in the construction of this combined apparatus it has not been found possible to build it of suiiiciently large size to obtain from one instalment of apparatus more than a very small quantity of caustic alkali in proportion to the size of the apparatus. My improved form of denuding apparatus is designed to overcome these difficulties and impediments and to permit of the perfect den udation of large quantities of amalgam in a comparatively limited space and to use an amalgam much richer in alkali metal than has been heretofore treated and to obtain hydrogen and electricity at the same time.
I use as the cuter inclosnre of the apparatus a tank or cistern built up of Wrought or cast iron plates iirmly riveted or bolted together to form a water-tight vessel. In the simplest form of the apparatus which I have designed the approximate internal dimensions of the inclosure will be as follows: the height about half the length and the breadth about one-sixth of the length. For instance, in an inclosure of which the length is ten feet I make the height tive to six feet and the breadth one foot nine inches to two feet. I do not, of course, bind myself to these dimensions.
Referring to the drawings, Figure l is a transverse vertical section of a simple form of my denuder with one cathode or range of cathodes; Fig. 2, a similar view of a denuding apparatus, showing two ranges of cathodes, also a dynamo and parts of gasometer and amalgam -producer in diagram form; Figs. 3 and 4, horizontal sections of the denuders shown in Figs. l and 2, respectively.
Referring first to Figs. l and 2, upon each of the sides of the wrought or cast iron inclosu re A and running the entire length I arrange a series of narrow horizontal shelves B, of iron, ata dist-ance of a few inches from each other, the uppermost shelf being about one foot from the top of the inclosure and the lowest three or four inches from the bottom. In place of iron other conducting material could be employed for these shelves, provided it be not soluble in mercury or caustic liquor, or a non-conductor, such as glass, could be used if the various layers of amalgam be electrically connected with the tank or conducting-Wire. The shelves are hollowed out on the upper surface to the depth of about onehalf inch, the depression reaching to about one-quarter inch of the outer edges ot' the shelves. At the alternate ends of each of adjacent shelves andabout three inches from the ends a narrow ridge C, one-eighth of an inch lower than the outer upper edge of the shelf, runs across it, and in the depression beyond the ridg a hole D about one inch in diameter is bored through the shelf. Holes E are also provied through each of the sides or ends of the inclosure at a short distance above the level of the uppermost of the shelves, and pipes F, for the conveyance of amalgam to the shelves, are firmly fixed in the apertures. A hole G is also provided in IOO the bottom plate of the inclosure, and to this a pipe Il is firmly and tightly iitted. This pipe serves for the withdrawal of the den uded mercury from the inclosure. Pipes or tubes I are also provided for passing water into the inclosure, and others, J, for drawing off the solution of caustic alkali when sufficiently concentrated, the feed-pipe being iixed in the cover or in the side near to the cover of the inclosure and the run-off pipe in the bottom of the inclosure (when it must protrude one or two inches over the surface of the bottom plate) or in the side near to the bottom. An orifice K in the cover of the inclosure permits of the escape of the hydrogen gas produced du ring the oxidation of the alkali metal in the amalgam through pipe L to the gasometer M.
I suspend through apertures in the cover of the inclosure in the central space between tle shelves a series of plates or sheets of iron N, which may be perforated or in the form of grids cast or bent so as to form hollow rectangular plates or boxes, or I use for this purpose sheets of stout iron gauze bent to shape, as above described. These hollow boxes, sheets, or plates are of such depth that they extend from about the level of the uppermost of the shelves B to within a short distance from the bottom of the tank A, and the suspenders Q must be carefully insulated by insulators R where they pass through the metal cover of the tank. .These iron sheet or gauze boxes form the cathode element, in relation to which the amalgam upon the shelves is the anode, and the arrangement constitutes a powerful voltaic battery. The Suspenders Q are connected with conductor R with a dynamo S or other device for utilization of the electricity generated, a conducting-wire T also connecting with the tank, and thus with the anodetrays B.
I extend the denuding capacity of the apparatus, if desired, exactly upon the same principles as above described. The width of the inclosure is increased to the requisite extent, and in addition to the two series of side shelves I fix in the center of the space between the side shelves a third series of shelves U, Fig. 2, the breadth of each of which is the sum of the width of two of the side shelves. In this duplicate arrangement two sets of cathode-plates are employed and are suspended in the spaces between each of the series of side shelves and the central series of shelves. It is evident that in the same way the power of the apparatus may be still further augmented.
In starting the manufacture of solution of caustic alkali by means ofthis apparatus the tank A is iirst filled with wtfer to a little over the level of the uppermost Uf the shelves The liquid amalgam is then passed in and falling upon the uppermost shelf of each series it fills the depression and then falls through the opening D at the farther end to the next shelf, and so on until all the shelves are charged,when the stream being continued it falls to and covers the bottom of the vessel, and the mercury is completely, or almost completely, denuded of alkali metal and allowed to flow out of the vessel. Then the solution of caustic alkali has attained a sufficiently high degree of concentration, a tap V, attached to the outlet-pipe, is opened and the liquor drawn off in a continuous stream, the supply of water being continued through the inlet-pipe I, so as to maintain a constant depth of liquor in the vessel. The hydrogen gas liberated passes away by the aperture K, provided for the purpose, and is utilized either as fuel for driving gas-engines or otherwise. The electric current is led away by wires R and T, attached to the ou ter casing of the tank A and to the suspended cathodes N, to perform any useful work.
I declare that what I claim is l. An apparatus for denuding alkali-metal amalgam of its alkali, and at the same time producing electricity, which consists of an iron cathode a series of superposed trays surrounding the same, a thin quiescent horizontal layer of alkali-metal amalgam on each of these trays, and electric conductors connected respectively with the amalgam and the iron cathode, forming when combined an electric circuit.
2. An apparatus for denuding alkali-metal amalgam of its alkali and at the same time forming a primar;7 battery, having a cathode of iron an anode of alkali-metal amalgam, shelves carrying the latter arranged around the anode, an iron tank carrying the shelves and an electrolyte of dilute caustic alkali, substantially as described.
3. The combination in an apparatus for denuding alkali-metal amalgam of its alkali, of the iron tank A, superposed shelves B in said iron tank carrying thin layers of alkali-metal amalgam, iron cathodes N in close proximity to the said shelves, the device for utilizing the electricity, and electrical connections connecting the alkalimetal amalgam on the shelves and cathode with said device, substantially as described.
In witness whereof I have hereunto signed my name, this 20th day of November, 1899, in the presence of two subscribing witnesses.
Y J. W. KYNASTON.
Witnesses:
Wn. P. THOMPSON, W. H. BEEsToN.
IOO
IOS
IIO
IIS
US73924499A 1899-12-05 1899-12-05 Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam. Expired - Lifetime US666387A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US73924499A US666387A (en) 1899-12-05 1899-12-05 Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US73924499A US666387A (en) 1899-12-05 1899-12-05 Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam.

Publications (1)

Publication Number Publication Date
US666387A true US666387A (en) 1901-01-22

Family

ID=2734943

Family Applications (1)

Application Number Title Priority Date Filing Date
US73924499A Expired - Lifetime US666387A (en) 1899-12-05 1899-12-05 Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam.

Country Status (1)

Country Link
US (1) US666387A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3161546A (en) * 1959-12-14 1964-12-15 Ernest B Yeager Continuous feed primary battery
US3234116A (en) * 1962-01-02 1966-02-08 Exxon Research Engineering Co Method of operating a fuel cell to produce ketones and electric current
US3325382A (en) * 1962-03-01 1967-06-13 Pullman Inc Process for electrolysis of alkaline earth metal compounds in a mercury cell
US4310396A (en) * 1978-12-01 1982-01-12 Societe D'etudes Et De Recherches En Sources D'energie Nouvelles (Sersen) Method for desalination of water, in particular sea water

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3161546A (en) * 1959-12-14 1964-12-15 Ernest B Yeager Continuous feed primary battery
US3234116A (en) * 1962-01-02 1966-02-08 Exxon Research Engineering Co Method of operating a fuel cell to produce ketones and electric current
US3325382A (en) * 1962-03-01 1967-06-13 Pullman Inc Process for electrolysis of alkaline earth metal compounds in a mercury cell
US4310396A (en) * 1978-12-01 1982-01-12 Societe D'etudes Et De Recherches En Sources D'energie Nouvelles (Sersen) Method for desalination of water, in particular sea water

Similar Documents

Publication Publication Date Title
US666387A (en) Apparatus for producing alkali, electricity, and hydrogen from alkali-metal amalgam.
US1117185A (en) Electrolytic cell.
US587437A (en) Ferdinand hurter
US1239443A (en) Apparatus for electrolytic deposition.
US651247A (en) Chemical electric generator.
US1485461A (en) Electrolytic cell
NO141759B (en) ANALOGY PROCEDURE FOR THE PREPARATION OF THERAPEUTICALLY EFFECTIVE PENICILLINES
US755247A (en) Manufacture of sulfuric acid.
US984905A (en) Process and apparatus for the electrolytic decomposition of alkaline salts.
US1167705A (en) Cathode for electrolytic cells.
GB191216475A (en) Improvements in Anodes for use in Electrolytic Apparatus.
US1214934A (en) Electrolytic gas-generator.
US1797376A (en) Electrolytic apparatus
US1306151A (en) kboil
US598180A (en) hoepfneb
US629070A (en) Apparatus for producing oxygen and hydrogen.
US705264A (en) Electrolytic apparatus for the production of chlorin and alkali.
US512266A (en) Emile andreoli
GB1387794A (en) Electrolytic cell comprising bipolar elements
US659655A (en) Apparatus for the electrolytic decomposition of alkaline salts.
US665427A (en) Electrolytic apparatus.
GB434542A (en) Improved electrolytic apparatus
US906104A (en) Electrolytic apparatus.
US467350A (en) Electrolytical plant
US857880A (en) Primary battery.