US1338698A - Apparatus for making catalyzers - Google Patents

Apparatus for making catalyzers Download PDF

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Publication number
US1338698A
US1338698A US63550A US6355015A US1338698A US 1338698 A US1338698 A US 1338698A US 63550 A US63550 A US 63550A US 6355015 A US6355015 A US 6355015A US 1338698 A US1338698 A US 1338698A
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chamber
reduction
catalyzers
making
valve
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US63550A
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William D Richardson
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JBS USA LLC
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Swift and Co Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts

Definitions

  • My invention relates to the art of making metallic catalyzers such as those used for the purpose of hydrogenizing oils and the like.
  • it has for its object the production of metallic catalyzers suspended in an oily medium from the class of metallic compounds which are reduced to the metallic state or to the catalytic condition by the application of heat with or withoutthe addition of a reducing agent such as hydrogen.
  • the compounds above referred to may be termed potential catalyzers in so far that by the mere application of heat, with or without the addition of a reducing agent, they are converted to the catalytic condition.
  • the main objects of my invention are to provide an improved apparatus for making catalyzers and to provide such an apparatus whereby the production of metallic catalyzers from such compounds as those mentioned above may be effected principally by the application of heat in a simple, cheap and expeditious manner.
  • Fig. 2 is a reduced section taken on the line A--A of Fig. 1.
  • the apparatus is composed mainly of two principal parts, a heating chamber 1 and a baflie chamber or catch-all 2.
  • the charge consisting of the potential catalyzer mixed with or ground in a suitable oily medium may be admitted to the chamber 1 through an inlet pipe 3 controlled by a valve 4, and may be removed therefrom through an outlet 5 when the process is completed.
  • Heat may be su plied for treating the charge by means 0 a suitable heating coil 6, peripherally disposed about the interior of the chamber 1 and provided with an inlet 7 and an outlet 8.
  • the supply of heatmg medium for the coil 6 is controlled by valve 9.
  • the upper end of the shaft 10 ex tends through the bearing 11 and carries a pulley wheel 1 keyed thereto.
  • the lower en of the chamber 1 is provided with a perforated spiral pipe 15 through which a reducing agent such as hy,- drogen may be introduced into the charge, and which is controlled by a valve 16 located outside of the chamber.
  • a reducing agent such as hy,- drogen
  • the baflie chamber or catch-all 2 is preferably located adjacent to and somewhat above the chamber 1. Communication is secured between the two chambers by means of gas conducting pipe. 17 and a return drain pipe 18 entering the chamber 1 below the normal liquid level therein.
  • the top of the catch-all 2 is provided with a vacuum pipe 19 controlled by a valve 28 for exhausting the air from the apparatus and having a depending baflie plate 20 located so as to intercept the gases entering through the pipe 17 and remove any liquid which may be carried thereby.
  • a blow-off pipe 21 controlled by a valve 22 may also be provided when it is desired to have the gases of reduction pass directly into the open air.
  • the tanks may be supported by flanged brackets 23 attached thereto and adapted to rest on a suitable supporting structure.
  • the temperature of the reduction and baflie chambers may be ascertained by thermometers inserted through openings 24 and 25 respectively.
  • a pressure age and safety pop valve may be connected at 26 and 27 to the chamber 1.
  • the entire apparatus is constructed of copper or so far as possible all parts in contact with liquid or gas are made of this materiaL-
  • the inlet valve 4, outlet valve 5, and blow-off valve '22 are closed, making the apparatus airtight.
  • the valve 23 is then opened and by means of a suitable vacuum pump the air is exhausted from the chambers.
  • he valve 4 is then opened and the charge, consisting of the potential catal zer mlxed with or round in a suitable oi y medium, is sucked into the machine through the inlet pipe 3.
  • the chamber 1 is filled about half full, or until the heating coil 6 is covered.
  • the agitator is started and steam which may or may not be superheated is introduced into and through the coil 6 by openin the valve 9. Heating may be controlled y observation of the thermometers which are inserted through the openings 24 and 25.
  • the gases resulting from the decomposition of the potential catalyzer pass out of the heating chamber 1 through the pipe 17 and into the baffle chamber-2 and vacuum line 19. If the liquid in the heating chamber 1 tends to foam or spray over and to follow the source of the ases such liquid is caught in the catcha l or bafile chamber 2 and returned automatically and continuousl to the heating chamber 1 through the pipes 18, entering such chamber below the normal liquid level therein. It may happen that under some conditions considerable foaming of this sort occurs, and in such cases the bafile chamber 2 serves to effectually retain any liquid material while allowing the ases disen aged in the operation to pass 0 through t e vacupors from the liquid.
  • the two upper arms 13 may be downwardly acting propellers and also assist in the disengagement of gases and va-
  • a moderate current of a reducing agent such as hydrogen
  • This current. of reducing agent serves more than one purpose. It assists in the agitation of the liquid mass and prevents sedimentation at the bottom of the reduction chamber and also assists in breaking up bubbles formed by the gases of decomposition and tends to prevent the carryin over of liquid into the baflie chamber 2.
  • t also assists in the reduction of potential catalyzer compounds even in cases where these are decomposable by heat alone.
  • An apparatus for makin catalyzers comprising a reduction chamie --ousreducing agent into the lower part of said reduction chamber.
  • a reduction chamber a bafile chamber communicating therewith, a heating coil peripherally disposed about the interior of said reduction chamber,- a vertical shaft journaled in saidreduction chamber, downwardly actin propeller blades on said shaft, a perforate coillocated in the lower part of said reduction chamber for su plymg as thereto, a bafile in said bafile chamber ooated so as to separate liquid from gases entering from the reduction chamber and a vacuum line communicating with saicl baflie chamber.
  • bafile chamber communicating therewith for eliminating liquid from gases passing therethrough, a connection for returning 10 such liquid to the reduction chamber, a
  • heating coil peripherally disposed about the interior of sald reduction chamber, 'a rotatable shaft journaled in said reduction chamber, downwardly actinfg pro eller blades on said shaft, and a per orate coil located inlthe lower part of'said reduction chamber for supplying gas thereto.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Physical Or Chemical Processes And Apparatus (AREA)

Description

w. n. RICHARDSON.
- APPARATUS FOR MAKING CATALYZERS.
APPLIQAHON FILED NOV-26. 1915.
1,338,698. Patented May 4,1920.
UNITED STATES PATENT. OFFICE. WILLIAM D. RICHARDSOM, OF CHICAGO, ILLINOIS, ASSIGNOR TO SWIFT A ND COMPANY,
' OF CHICAGO, ILLINCIS, A CORPORATION OE ILLINOIS.
APIABATUS FOB MAHNG CATALYZERS.
Specification of Letters Patent.
Patented May4, 1920.
Application filed November 26, 1915. Serial No. 63,550.
ica, and a resident of Chicago, county of Cook, and State of Illinois, have invented,
certain new and useful Improvements in Apparatus for Making Catalyzers, of which the following is a specification.
My invention relates to the art of making metallic catalyzers such as those used for the purpose of hydrogenizing oils and the like. In particular it has for its object the production of metallic catalyzers suspended in an oily medium from the class of metallic compounds which are reduced to the metallic state or to the catalytic condition by the application of heat with or withoutthe addition of a reducing agent such as hydrogen.
It is now well known that such compounds as nickel carbonyl, nickel formate, nickel state or to the catalytic condition by the application of heat, aided if necessary by the addition of a reducing substance such as hydrogen.
The compounds above referred to may be termed potential catalyzers in so far that by the mere application of heat, with or without the addition of a reducing agent, they are converted to the catalytic condition.
.The main objects of my invention are to provide an improved apparatus for making catalyzers and to provide such an apparatus whereby the production of metallic catalyzers from such compounds as those mentioned above may be effected principally by the application of heat in a simple, cheap and expeditious manner.
An illustrative embodiment of this invention is shown in the accompanying drawings, in which Figure 1 is a sectional elevation of the apparatus.
Fig. 2 is a reduced section taken on the line A--A of Fig. 1.
In the construction shown in the drawings the apparatus is composed mainly of two principal parts, a heating chamber 1 and a baflie chamber or catch-all 2.
The charge consisting of the potential catalyzer mixed with or ground in a suitable oily medium may be admitted to the chamber 1 through an inlet pipe 3 controlled by a valve 4, and may be removed therefrom through an outlet 5 when the process is completed.
Heat may be su plied for treating the charge by means 0 a suitable heating coil 6, peripherally disposed about the interior of the chamber 1 and provided with an inlet 7 and an outlet 8. The supply of heatmg medium for the coil 6 is controlled by valve 9.
blades. The upper end of the shaft 10 ex tends through the bearing 11 and carries a pulley wheel 1 keyed thereto.
The lower en of the chamber 1 is provided with a perforated spiral pipe 15 through which a reducing agent such as hy,- drogen may be introduced into the charge, and which is controlled by a valve 16 located outside of the chamber.
The baflie chamber or catch-all 2 is preferably located adjacent to and somewhat above the chamber 1. Communication is secured between the two chambers by means of gas conducting pipe. 17 and a return drain pipe 18 entering the chamber 1 below the normal liquid level therein.
The top of the catch-all 2 is provided with a vacuum pipe 19 controlled by a valve 28 for exhausting the air from the apparatus and having a depending baflie plate 20 located so as to intercept the gases entering through the pipe 17 and remove any liquid which may be carried thereby. A blow-off pipe 21 controlled by a valve 22 may also be provided when it is desired to have the gases of reduction pass directly into the open air.
The tanks may be supported by flanged brackets 23 attached thereto and adapted to rest on a suitable supporting structure. The temperature of the reduction and baflie chambers may be ascertained by thermometers inserted through openings 24 and 25 respectively. A pressure age and safety pop valve may be connected at 26 and 27 to the chamber 1.
By preference the entire apparatus is constructed of copper or so far as possible all parts in contact with liquid or gas are made of this materiaL- In the operation of the apparatus, the inlet valve 4, outlet valve 5, and blow-off valve '22 are closed, making the apparatus airtight. The valve 23 is then opened and by means of a suitable vacuum pump the air is exhausted from the chambers. he valve 4 is then opened and the charge, consisting of the potential catal zer mlxed with or round in a suitable oi y medium, is sucked into the machine through the inlet pipe 3. Ordinarily the chamber 1 is filled about half full, or until the heating coil 6 is covered. With the vacuum still on, the agitator is started and steam which may or may not be superheated is introduced into and through the coil 6 by openin the valve 9. Heating may be controlled y observation of the thermometers which are inserted through the openings 24 and 25.
As the gases resulting from the decomposition of the potential catalyzer are formed, they pass out of the heating chamber 1 through the pipe 17 and into the baffle chamber-2 and vacuum line 19. If the liquid in the heating chamber 1 tends to foam or spray over and to follow the source of the ases such liquid is caught in the catcha l or bafile chamber 2 and returned automatically and continuousl to the heating chamber 1 through the pipes 18, entering such chamber below the normal liquid level therein. It may happen that under some conditions considerable foaming of this sort occurs, and in such cases the bafile chamber 2 serves to effectually retain any liquid material while allowing the ases disen aged in the operation to pass 0 through t e vacupors from the liquid.
um line. The two upper arms 13 may be downwardly acting propellers and also assist in the disengagement of gases and va- During the reduction I usually follow the practice of allowing a moderate current of a reducing agent such as hydrogen to pass up through the charge in the reduction chamber by means of the perforated coil 15 controlled by valve 16. This current. of reducing agent serves more than one purpose. It assists in the agitation of the liquid mass and prevents sedimentation at the bottom of the reduction chamber and also assists in breaking up bubbles formed by the gases of decomposition and tends to prevent the carryin over of liquid into the baflie chamber 2. t also assists in the reduction of potential catalyzer compounds even in cases where these are decomposable by heat alone. As a rule the introduction of hydrogen as in this apparatus tends to lower the tempera-v ture of decomposition' When the reaction is com leted and the potential catalyzer com oun is completely reduced to the catalytlc 'state, the charge masses may be drawn off through the outlet pipe 5, the vacuum being broken to allow the charge todrop.
By preference I maintain the vacuum on the apparatus throughout the operation of reduction; but it is also possib e to effect the reduction in a reasonably satisfactory manner by simpl allowing the gases of decomposition to b ow off into the atmosphere through the outlet pipe 22.
In starting up my apparatus it is always desirable to remove any air from the apparatus by means of a suitable vacuum pump for the pur ose of avoiding any combustible or exp osive mixture of gases within 1. An apparatus for makin catalyzers,
comprising a reduction cham er, a baflle chamber communicating therewith, means for heating the reduction chamber, means located in said reduction chamber for agitating the charge placed therein, and means for continuously introducing a gaseous reducing agent into said reduction chamber.
2. An apparatus for makin catalyzers, comprising a reduction chamie --ousreducing agent into the lower part of said reduction chamber.
r, a baflie, chamber communicating therewith, a heat- 3. An apparatus for making catalyzers, u
comprising a, reduction chamber, a baflie chamber communicating therewith, a heating coil peri herally disposed about the interior of sai reduction chamber, a vertical shaft journaled in said reduction chamber, downwardly actin propeller blades on said shaft, a perforate coil located in the lower part of said reduction chamber for su'ppl ing gas thereto, and a baffle-in :said be e chamber located so as to separatelliquid from gases entering from the reduction chamber. 4. An apparatus for making -:ca.talyzers comprising! a reduction chamber, a bafile chamber communicating therewith, a heating coil peripherally disposed about the interior of said reduction chamber,- a vertical shaft journaled in saidreduction chamber, downwardly actin propeller blades on said shaft, a perforate coillocated in the lower part of said reduction chamber for su plymg as thereto, a bafile in said bafile chamber ooated so as to separate liquid from gases entering from the reduction chamber and a vacuum line communicating with saicl baflie chamber.
5. An apparatus for making catalyzers,
5 adapted to contain a pressure ess than atmospheric, comprising a reduction chamber,
a bafile chamber communicating therewith for eliminating liquid from gases passing therethrough, a connection for returning 10 such liquid to the reduction chamber, a
heating coil peripherally disposed about the interior of sald reduction chamber, 'a rotatable shaft journaled in said reduction chamber, downwardly actinfg pro eller blades on said shaft, and a per orate coil located inlthe lower part of'said reduction chamber for supplying gas thereto.
' Signed at Chlcago this 24th day of Nov.,
WILLIAM D. RICHARDSON.
US63550A 1915-11-26 1915-11-26 Apparatus for making catalyzers Expired - Lifetime US1338698A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2461300A (en) * 1943-10-13 1949-02-08 Gen Biochemicals Inc Method of conditioning a hard soap for solvent extraction
US2504488A (en) * 1945-10-12 1950-04-18 Standard Oil Dev Co Reactor
US2943111A (en) * 1956-09-18 1960-06-28 American Cyanamid Co Safety valve venting system for diphenylamine process
US5009796A (en) * 1986-03-24 1991-04-23 Robert Adler Methods and apparatus for treating a mixture of particles and fluids
DE4339006A1 (en) * 1993-11-11 1995-05-18 Alfred Dr Ing Schymalla Packed reactor for transfer from gases or fluids to solids
US5728893A (en) * 1995-12-06 1998-03-17 Union Carbide Chemicals & Plastics Technology Corporation Process using multistaged reactors

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2461300A (en) * 1943-10-13 1949-02-08 Gen Biochemicals Inc Method of conditioning a hard soap for solvent extraction
US2504488A (en) * 1945-10-12 1950-04-18 Standard Oil Dev Co Reactor
US2943111A (en) * 1956-09-18 1960-06-28 American Cyanamid Co Safety valve venting system for diphenylamine process
US5009796A (en) * 1986-03-24 1991-04-23 Robert Adler Methods and apparatus for treating a mixture of particles and fluids
DE4339006A1 (en) * 1993-11-11 1995-05-18 Alfred Dr Ing Schymalla Packed reactor for transfer from gases or fluids to solids
DE4339006C2 (en) * 1993-11-11 2002-10-24 Alfred Schymalla Device for converting liquids and gases to solids
US5728893A (en) * 1995-12-06 1998-03-17 Union Carbide Chemicals & Plastics Technology Corporation Process using multistaged reactors

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