AT27174B - Method and device for separating metallic minerals from the duct by means of gas bubbles developed in the bath. - Google Patents

Method and device for separating metallic minerals from the duct by means of gas bubbles developed in the bath.

Info

Publication number
AT27174B
AT27174B AT27174DA AT27174B AT 27174 B AT27174 B AT 27174B AT 27174D A AT27174D A AT 27174DA AT 27174 B AT27174 B AT 27174B
Authority
AT
Austria
Prior art keywords
gas bubbles
bath
duct
metallic minerals
separating metallic
Prior art date
Application number
Other languages
German (de)
Inventor
Henry Livingstone Sulman
Hugh Fitzalis Kirkpatri Picard
John Ballot
Original Assignee
Henry Livingstone Sulman
Hugh Fitzalis Kirkpatri Picard
John Ballot
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 Henry Livingstone Sulman, Hugh Fitzalis Kirkpatri Picard, John Ballot filed Critical Henry Livingstone Sulman
Application granted granted Critical
Publication of AT27174B publication Critical patent/AT27174B/en

Links

Landscapes

  • Degasification And Air Bubble Elimination (AREA)

Description

  

   <Desc/Clms Page number 1> 
 
 EMI1.1 
 
 EMI1.2 
 
 EMI1.3 
 

 <Desc/Clms Page number 2> 

 
 EMI2.1 
 Sicherheitsventil F1 und einem Manometer F2, sowie mit Wasserstandsglas F3 ausgestattet ist. Von diesem Gefäss führt ein Abströmrohr   GG mit Regelorgan G   nach einer Spitz-   kastenreihe Jjf.   



   Die Arbeitsweise ist folgende : Der Hahn   C'wird geschlossen und   der Brei wird in 
 EMI2.2 
 wird fortgesetzt bis der Druck auf 3-7 Atm. steigt. Dieser Druck genügt, um die teilweise Auflösung von Luft oder Gas in der Mischung zu bewirken. Nach einigen   Minuten   wird der Hahn   GI   geöffnet und die Mischung strömt nach dem Spitzkasten, in welchem sich die Flüssigkeit unter freiem atmosphärischen Druck befindet. Während dieser Zeit kann die   Pumparbeit   abgestellt werden. Es zeigt sich nun, dass die gesamten Mineralteilchen, denen   Luft- oder Gasbläschen   anhaften, also beispielsweise die geölten Mineralteilchen, sofort an die Oberfläche der Flüssigkeit in Form eines Schaumes oder Abstriches gehoben werden.

   In den Spitzkasten wird nun ein Oberflächenstrom aufrecht erhalten, derart, dass die schwebenden Mineralteilchen durch denselben abgeschwemmt und von dem Gang 
 EMI2.3 
 verstanden werden, weiche für gewisse mineralische Substanzen eine ganz besondere Affinität aufweist. 



    PATENT-ANSPRÜCHE:   
1. Verfahren zur Trennung metallischer Mineralien vom Gang mittelst im Bade entwickelter Gasblasen, dadurch gekennzeichnet, dass die die Mineralien in fein   erteilt. m   Zustande enthaltende   Flüssigkeit   der Wirkung eines unter Druck stehenden Gases aus- 
 EMI2.4 




   <Desc / Clms Page number 1>
 
 EMI1.1
 
 EMI1.2
 
 EMI1.3
 

 <Desc / Clms Page number 2>

 
 EMI2.1
 Safety valve F1 and a manometer F2, as well as a water level glass F3. A discharge pipe GG with regulating device G leads from this vessel to a row of pointed boxes Jjf.



   The procedure is as follows: The tap C 'is closed and the pulp is in
 EMI2.2
 continues until the pressure drops to 3-7 atm. increases. This pressure is sufficient to cause the partial dissolution of air or gas in the mixture. After a few minutes the tap GI is opened and the mixture flows to the pointed box, in which the liquid is under free atmospheric pressure. During this time, the pumping work can be stopped. It can now be seen that all of the mineral particles to which air or gas bubbles adhere, for example the oiled mineral particles, are immediately lifted to the surface of the liquid in the form of a foam or smear.

   A surface current is now maintained in the pointed box, in such a way that the floating mineral particles are washed away through it and from the passage
 EMI2.3
 be understood, which has a very special affinity for certain mineral substances.



    PATENT CLAIMS:
1. Process for separating metallic minerals from the passage by means of gas bubbles developed in the bath, characterized in that the minerals are given in fine. in the state of the liquid, the effect of a pressurized gas
 EMI2.4

Claims (1)

Druckgefäss eingetrieben wird, das nach einiger Zeit unter Druckabfall entleert wird. Pressure vessel is driven in, which is emptied after some time with a drop in pressure. 3. Vorrichtung zur Durchführung des Verfahrens nach den Ansprüchen 1 und 2, dadurch gekennzeichnet, dass das Gasdruckgefäss (F) einerseits mit Rührbottichen (A) durch eine Pumpe und andererseits mit einem Spitzkasten (H) verbunden ist, in welchem die Entwicklung der Gasbläschen unter normalem Atmosphärendruck erfolgt. 3. Device for carrying out the method according to claims 1 and 2, characterized in that the gas pressure vessel (F) is connected on the one hand to stirring vats (A) by a pump and on the other hand to a pointed box (H) in which the development of the gas bubbles under normal atmospheric pressure.
AT27174D 1906-02-12 1906-02-12 Method and device for separating metallic minerals from the duct by means of gas bubbles developed in the bath. AT27174B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT27174T 1906-02-12

Publications (1)

Publication Number Publication Date
AT27174B true AT27174B (en) 1907-01-25

Family

ID=3539187

Family Applications (1)

Application Number Title Priority Date Filing Date
AT27174D AT27174B (en) 1906-02-12 1906-02-12 Method and device for separating metallic minerals from the duct by means of gas bubbles developed in the bath.

Country Status (1)

Country Link
AT (1) AT27174B (en)

Similar Documents

Publication Publication Date Title
CH624857A5 (en) Process and appliance for mixing gas into a liquid
AT27174B (en) Method and device for separating metallic minerals from the duct by means of gas bubbles developed in the bath.
DE714517C (en) Air foam generators, in particular for fire extinguishing purposes
AT26516B (en) Process for the preparation of ores using oil and water.
DE308288C (en)
AT27152B (en) Method and device for separating certain components of finely divided materials in a liquid, in which they are artificially made to rise or swim.
DE765998C (en) Method and device for the rapid determination of small additions in gases
DE862600C (en) Process for emulsifying, homogenizing and dispersing
DE102013202960A1 (en) Method for separating silicon and polyethylene glycol from suspension during manufacturing of wafer for solar cell in photovoltaic industry, involves adding gas bubbles to particle of group such that particle of another group is deposited
AT61221B (en) Method and device for lifting or propelling liquids by explosion.
DE578342C (en) Device for continuous measurement of the hydrogen ion concentration of liquids with the platinum hydrogen electrode
AT64395B (en) Device for degreasing wool, hides, textiles etc. by treating them with a solvent.
AT31053B (en) Method and device for extracting and cleaning dusty air.
AT220606B (en) Process for the extraction of by-products from industrial gases by selective leaching
DE458874C (en) Process for de-ironing water by aeration
AT72079B (en) Device for pushing up water.
AT34433B (en) Hot water heating.
DE3144314A1 (en) Process for improving the dewatering properties of sewage sludge
DE179934C (en)
DE453437C (en) Liquid level indicators on fuel tanks, in particular for motor vehicles
DE880730C (en) Method and apparatus for removing scale
AT72453B (en) Process for carrying out reactions under pressure without the use of an autoclave.
DE216120C (en)
AT120610B (en) Process for the recovery of fiber and suspended matter from wastewater and fiber suspension from paper, pulp, wood pulp and cardboard production or the like.
AT98852B (en) Procedure for operating jet blowers.