Effect of Power Ultrasound on pH Change in Water Saturated with Air, Oxygen, Nitrogen, Argon and Mixtures
Sonication was carried out under atmosphere of air, oxygen, nitrogen, argon, or their gas mixtures. The value of pH in water for different dissolved gases was obtained under a constant ultrasonic intensity. The ultrasonic intensity in the reaction vessel was measured by use of the decomposition reac...
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| Published in | KAGAKU KOGAKU RONBUNSHU Vol. 25; no. 2; pp. 290 - 293 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
The Society of Chemical Engineers, Japan
10.03.1999
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0386-216X 1349-9203 |
| DOI | 10.1252/kakoronbunshu.25.290 |
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| Abstract | Sonication was carried out under atmosphere of air, oxygen, nitrogen, argon, or their gas mixtures. The value of pH in water for different dissolved gases was obtained under a constant ultrasonic intensity. The ultrasonic intensity in the reaction vessel was measured by use of the decomposition reaction of porphyrin in water. Under an air atmosphere, the pH value changed from 7 to 4.3 for an irradiation time of 30 min and after that the pH value approached to 3.7. On the other hand, the pH values for water saturated with Ar, N2 or O2 slightly decreased. In the mixture of Ar, N2 and O2, the minimum pH in water saturated with the Ar + O2 mixture was observed around 60 % of Ar, and that saturated with the Ar + (N2 and O2) mixture at around 30 % of Ar. The amount of OH radical produced on sonication was consistent with that estimated from products obtained by decomposition of water. From these results, it is concluded that the decrease of pH is influenced not only by N2, but also by O2. |
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| AbstractList | Sonication was carried out under atmosphere of air, oxygen, nitrogen, argon, or their gas mixtures. The value of pH in water for different dissolved gases was obtained under a constant ultrasonic intensity. The ultrasonic intensity in the reaction vessel was measured by use of the decomposition reaction of porphyrin in water. Under an air atmosphere, the pH value changed from 7 to 4.3 for an irradiation time of 30 min and after that the pH value approached to 3.7. On the other hand, the pH values for water saturated with Ar, N2 or O2 slightly decreased. In the mixture of Ar, N2 and O2, the minimum pH in water saturated with the Ar + O2 mixture was observed around 60 % of Ar, and that saturated with the Ar + (N2 and O2) mixture at around 30 % of Ar. The amount of OH radical produced on sonication was consistent with that estimated from products obtained by decomposition of water. From these results, it is concluded that the decrease of pH is influenced not only by N2, but also by O2. |
| Author | KOJIMA, YOSHIHIRO NOMURA, HIROYASU KODA, SHINOBU ENDO, KENJI |
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| DOI | 10.1252/kakoronbunshu.25.290 |
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| References | Wood E. D., F. A. J. Armstrong and F. A. Richards ; “Determination of Nitrate in Sea Water by Cadmium-Copper Reduction to Nitrite, ” J. Mar. Biol. Ass. U. K., 47, 23-31 (1967) Charlot, G. ; Les Reactions Chimiques en Solution, Masson et CIE, Editeure, Paris, France (1969) Nomura, H., S. Koda, K. Yasuda and Y. Kojima ; “Quantification of Ultrasonic Intensity Based on the Decomposition Reaction of Porphyrin, ” Ultrasonics Sonochemistry, 3, S 153-S 156 (1996) Fricke, H. and E. J. Hart ; “Chemical Dosimetry in Radiation Dosimetry, ” F. H. Attix and W. C. Roesch, eds., p. 167-359, Academic Press, New York, USA (1966) Suslik, K. S. ; “Ultrasound Its Chemical, Physical, and Biological Effects, ” K. S. Suslik ed., p. 123-163, VCH Pblishers Inc., New York, USA (1988) Young F. R. ; “Sonoluminescence from Water Containing Dissolved Gas, ” J. Acoust. Soc. Am., 60,100-103 (1976) El'piner I. E. ; Ultrasound : Physical, Chemical, and Biological Effects, p. 53-78, Consultants Bureau, New York, USA (1964) Mead, E. L., R. G. Sutherland and R. E. Verrall ; “The Effect of Ultrasound on Water in the Presence of Dissolved Gas, ” Can. J. Chem., 54, 1114-1120 (1978) Allen, A. O., C. J. Hochanadel, J. A. Chormley, T. W. Davis ; “Decomposition of Water and Aqueous Solutions under Mixed Fast Neutron and Gamma Radiation, ” J. Chem. Phys., 56,575-586 (1952) Nomura, H., F. Kawaizumi and S. Koda : Physical Acoustics of Liquids and Solutions, Chap. 10, Nagoya University Press, Nagoya, Japan (1994) |
| References_xml | – reference: Charlot, G. ; Les Reactions Chimiques en Solution, Masson et CIE, Editeure, Paris, France (1969) – reference: Mead, E. L., R. G. Sutherland and R. E. Verrall ; “The Effect of Ultrasound on Water in the Presence of Dissolved Gas, ” Can. J. Chem., 54, 1114-1120 (1978) – reference: Nomura, H., F. Kawaizumi and S. Koda : Physical Acoustics of Liquids and Solutions, Chap. 10, Nagoya University Press, Nagoya, Japan (1994) – reference: Young F. R. ; “Sonoluminescence from Water Containing Dissolved Gas, ” J. Acoust. Soc. Am., 60,100-103 (1976) – reference: Wood E. D., F. A. J. Armstrong and F. A. Richards ; “Determination of Nitrate in Sea Water by Cadmium-Copper Reduction to Nitrite, ” J. Mar. Biol. Ass. U. K., 47, 23-31 (1967) – reference: Allen, A. O., C. J. Hochanadel, J. A. Chormley, T. W. Davis ; “Decomposition of Water and Aqueous Solutions under Mixed Fast Neutron and Gamma Radiation, ” J. Chem. Phys., 56,575-586 (1952) – reference: El'piner I. E. ; Ultrasound : Physical, Chemical, and Biological Effects, p. 53-78, Consultants Bureau, New York, USA (1964) – reference: Fricke, H. and E. J. Hart ; “Chemical Dosimetry in Radiation Dosimetry, ” F. H. Attix and W. C. Roesch, eds., p. 167-359, Academic Press, New York, USA (1966) – reference: Suslik, K. S. ; “Ultrasound Its Chemical, Physical, and Biological Effects, ” K. S. Suslik ed., p. 123-163, VCH Pblishers Inc., New York, USA (1988) – reference: Nomura, H., S. Koda, K. Yasuda and Y. Kojima ; “Quantification of Ultrasonic Intensity Based on the Decomposition Reaction of Porphyrin, ” Ultrasonics Sonochemistry, 3, S 153-S 156 (1996) |
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| Title | Effect of Power Ultrasound on pH Change in Water Saturated with Air, Oxygen, Nitrogen, Argon and Mixtures |
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