AT76201B - Process for the production of carbonated water. - Google Patents

Process for the production of carbonated water.

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Publication number
AT76201B
AT76201B AT76201DA AT76201B AT 76201 B AT76201 B AT 76201B AT 76201D A AT76201D A AT 76201DA AT 76201 B AT76201 B AT 76201B
Authority
AT
Austria
Prior art keywords
sep
chlorophyll
carbonic acid
production
carbonated water
Prior art date
Application number
Other languages
German (de)
Inventor
Leopold Dr Sarason
Original Assignee
Leopold Dr Sarason
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 Leopold Dr Sarason filed Critical Leopold Dr Sarason
Application granted granted Critical
Publication of AT76201B publication Critical patent/AT76201B/en

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Description

  

   <Desc/Clms Page number 1> 
 



  Verfahren zur Herstellung von Kohlensäurewässern. 



   Aufgabe vorliegender Erfindung ist es,   künstliche   Kohlensäurewässer oder Kohlensäurebäder herzustellen, bei denen die Kohlensäure in stärkerem Masse absorbiert ist und nicht so schnell aus dem Badowasser entweicht, als es bei den gewöhnlichen Kohlensäure- 
 EMI1.1 
 



   Es wurde gefunden, dass ein Zusatz von solchen   Farbstoffen   des lebenden Organismus, die auch in der Natur die Kohlensäure locker zu binden vermögen, vor allem von Chlorophyll zum Wasser das Absorptionsvermögen desselben für Kohlensäure deutlich steigert, wobei es unentschieden bleiben mag, ob-wie in der Natur-hiebei eine lockere Bindung der Kohlensäure an das Chlorophyll stattfindet oder oh, sonstige Ursachen für diese Erscheinung   ausserdem   in Frage kommen. 



   Zur genaueren Feststellung, ob Wasser, in welchem Kohlensäure aus äquivalenten Mengen Natriumcarbonat und Weinsäure entwickelt wird, durch Zusatz von Chlorophyll ein gesteigertes Lösungsvermögen für Kohlensäure erhält, wurden   Kohtonsäurebestimmuagen   ausgeführt, l. bei   Zimmertemperatur,   2. bei   34"C,   und zwar ohne und mit Zusatz von Chlorophyll. Auf   1 l Wasser kamen 0#01 g Chlorophyll   zur Anwendung. 
 EMI1.2 
 
 EMI1.3 
 
<tb> 
<tb> ohne <SEP> Chlorophyll <SEP> mit <SEP> Chlorophyll
<tb> 1#67 <SEP> g <SEP> 2#14 <SEP> g
<tb> 1-86.. <SEP> 2-17,.
<tb> 



  1-92, <SEP> 2-24"
<tb> im <SEP> Mittel <SEP> 1#82 <SEP> g <SEP> 2#18 <SEP> g
<tb> 
 
 EMI1.4 
 sofort nach Erreichung der Temperatur von   340 C nach   15 Minuten und nach   30 Minuten     Nut ! Minuten   
 EMI1.5 
 
<tb> 
<tb> ohne <SEP> Chlorophyll <SEP> mit <SEP> Chlorophyll
<tb> 1#40 <SEP> g <SEP> 1#95 <SEP> g
<tb> 1#39 <SEP> ,, <SEP> 1#85 <SEP> ,,
<tb> 1#53 <SEP> ,, <SEP> 1#83 <SEP> ,,
<tb> im <SEP> Mittel <SEP> 1#44 <SEP> g <SEP> 1#88 <SEP> g
<tb> 
 
 EMI1.6 
 zirka30%. 



    Nach 15 Minute n   
 EMI1.7 
 
<tb> 
<tb> ohne <SEP> Chlorophyll <SEP> mit <SEP> Chlorophyll
<tb> 0#72 <SEP> g <SEP> 1#04 <SEP> g
<tb> 0#54 <SEP> ,, <SEP> 0#95 <SEP> ,,
<tb> 0#63 <SEP> ,, <SEP> 0 <SEP> 94 <SEP> ,,
<tb> im <SEP> Mittel <SEP> 0#63 <SEP> g <SEP> 0#98 <SEP> g
<tb> 
 
 EMI1.8 
 

 <Desc/Clms Page number 2> 

   Nach 30 Minuten   
 EMI2.1 
 
<tb> 
<tb> ohne <SEP> Chlorophyll <SEP> mit <SEP> Chlorophyll
<tb> 0#49 <SEP> g <SEP> 0#60 <SEP> g
<tb> 0#55 <SEP> ,, <SEP> 0#55,,
<tb> 0#58 <SEP> ,, <SEP> 0#61 <SEP> ,,
<tb> 0#60 <SEP> ,,
<tb> 0#66 <SEP> ,,
<tb> 0#60 <SEP> ,,
<tb> im <SEP> Mittel <SEP> 0#54 <SEP> g <SEP> 0#61 <SEP> g
<tb> 
 
 EMI2.2 
 austausch mit der Atmosphäre) schon bedeutend geringer war, betrug die Steigerung der Löslichkeit der Kohlensäure durch den Zusatz von Chlorophyll immerhin   130/0'.  



   <Desc / Clms Page number 1>
 



  Process for the production of carbonated water.



   The object of the present invention is to produce artificial carbonic acid water or carbonic acid baths in which the carbonic acid is absorbed to a greater extent and does not escape from the bath water as quickly as it is with the usual carbonic acid
 EMI1.1
 



   It has been found that the addition of such dyes of the living organism, which are also able to bind carbonic acid loosely in nature, especially of chlorophyll to water, significantly increases the absorption capacity of the same for carbonic acid, although it may remain undecided whether-as in Naturally, there is a loose bond between the carbonic acid and the chlorophyll, or oh, other causes for this phenomenon also come into question.



   To determine more precisely whether water, in which carbonic acid is developed from equivalent amounts of sodium carbonate and tartaric acid, has an increased dissolving power for carbonic acid through the addition of chlorophyll, carbonic acid determinations were carried out, l. at room temperature, 2. at 34 "C, with and without the addition of chlorophyll. 0.1 g of chlorophyll was used for 1 l of water.
 EMI1.2
 
 EMI1.3
 
<tb>
<tb> without <SEP> chlorophyll <SEP> with <SEP> chlorophyll
<tb> 1 # 67 <SEP> g <SEP> 2 # 14 <SEP> g
<tb> 1-86 .. <SEP> 2-17 ,.
<tb>



  1-92, <SEP> 2-24 "
<tb> in the <SEP> mean <SEP> 1 # 82 <SEP> g <SEP> 2 # 18 <SEP> g
<tb>
 
 EMI1.4
 immediately after reaching the temperature of 340 C after 15 minutes and after 30 minutes groove! Minutes
 EMI1.5
 
<tb>
<tb> without <SEP> chlorophyll <SEP> with <SEP> chlorophyll
<tb> 1 # 40 <SEP> g <SEP> 1 # 95 <SEP> g
<tb> 1 # 39 <SEP> ,, <SEP> 1 # 85 <SEP> ,,
<tb> 1 # 53 <SEP> ,, <SEP> 1 # 83 <SEP> ,,
<tb> in the <SEP> mean <SEP> 1 # 44 <SEP> g <SEP> 1 # 88 <SEP> g
<tb>
 
 EMI1.6
 about 30%.



    After 15 minutes
 EMI1.7
 
<tb>
<tb> without <SEP> chlorophyll <SEP> with <SEP> chlorophyll
<tb> 0 # 72 <SEP> g <SEP> 1 # 04 <SEP> g
<tb> 0 # 54 <SEP> ,, <SEP> 0 # 95 <SEP> ,,
<tb> 0 # 63 <SEP> ,, <SEP> 0 <SEP> 94 <SEP> ,,
<tb> in the <SEP> mean <SEP> 0 # 63 <SEP> g <SEP> 0 # 98 <SEP> g
<tb>
 
 EMI1.8
 

 <Desc / Clms Page number 2>

   After 30 minutes
 EMI2.1
 
<tb>
<tb> without <SEP> chlorophyll <SEP> with <SEP> chlorophyll
<tb> 0 # 49 <SEP> g <SEP> 0 # 60 <SEP> g
<tb> 0 # 55 <SEP> ,, <SEP> 0 # 55 ,,
<tb> 0 # 58 <SEP> ,, <SEP> 0 # 61 <SEP> ,,
<tb> 0 # 60 <SEP> ,,
<tb> 0 # 66 <SEP> ,,
<tb> 0 # 60 <SEP> ,,
<tb> in the <SEP> mean <SEP> 0 # 54 <SEP> g <SEP> 0 # 61 <SEP> g
<tb>
 
 EMI2.2
 exchange with the atmosphere) was already significantly lower, the increase in the solubility of the carbonic acid through the addition of chlorophyll was at least 130/0 '.

Claims (1)

PATENT-ANSPRUCH: Verfahren zur Herstellung von Kohlensäurewüssern, insbesondere Kohlensäurebädern, dadmch gokennzoicbnet, dass dem Wasser zwecks Anreicherung mit gebundener Kohlen- säure ein Zusatz von Chlorophyll gemacht wird. PATENT CLAIM: Process for the production of carbonic acid waters, especially carbonic acid baths, because chlorophyll is added to the water for the purpose of enrichment with bound carbonic acid.
AT76201D 1914-06-12 1914-06-12 Process for the production of carbonated water. AT76201B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT76201T 1914-06-12

Publications (1)

Publication Number Publication Date
AT76201B true AT76201B (en) 1919-04-25

Family

ID=3597877

Family Applications (1)

Application Number Title Priority Date Filing Date
AT76201D AT76201B (en) 1914-06-12 1914-06-12 Process for the production of carbonated water.

Country Status (1)

Country Link
AT (1) AT76201B (en)

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