INVESTIGATION OF HEMOSTATIC ACTIVITY OF POLYMERS WITH IMMOBILIZED ACTIVE CHLORINE

Optimum postharvest and storage treatments were investigated for cut immature branches of Eucalyptus crenulata Blakely & Beuzev. and Eucalyptus gunnii J. D. Hook. The application of the germicide BCDMH at 10 mg/L of active chlorine, 100 �L Agral-600/L. or 0.25% sucrose to vase solutions significantly enhanced vase life in E. crenulata Longevity in E. gunnii was significantly extended by sucrose (0.25-2% w/v), but not by germicides or Agral. Sucrose pulses (1-10% for 24 11 at 20�C) or exogenous ethylene (50 �L/L for 24 h at 20�C) had no effect on the longevity of either species. Both species produced very low levels of ethylene immediately after harvest and after a 24-h simulation of dry transport at 20�C. Longevity was not significantly altered in either species by 35 days of dry storage at 1�C. or by 7 days of wet storage (branches held in distilled water + 50 mg DICAJL) at 1�C, but declined significantly in both species after 7 days of wet storage at 10�C.

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Influence of Ethylenediaminetetraacetic Acid on the Active Chlorine Content of Sodium Hypochlorite Solutions When Mixed in Various Proportions

Journal of Endodontics ◽

10.1016/j.joen.2011.01.018 ◽

2011 ◽

Vol 37 (4) ◽

pp. 538-543 ◽

Cited By ~ 21

Author(s):

Roger M. Clarkson ◽

Heather M. Podlich ◽

Alex J. Moule

Keyword(s):

Sodium Hypochlorite ◽

Ethylenediaminetetraacetic Acid ◽

Chlorine Content ◽

Active Chlorine

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COMPLIANCE OF COMMERCIAL BLEACHES AND STABILITY OF 1 G/L-DILUTIONS USING DIFFERENT SOURCES OF DRINKING WATER

Anales de la Real Academia Nacional de Farmacia ◽

10.53519/analesranf.2020.86.04.01 ◽

2020 ◽

pp. 231-236

Author(s):

María Emilia Gavelli ◽

Laura Carolina Luciani Giacobbe ◽

Carolina Bustos Fierro ◽

María Eugenia Olivera

Keyword(s):

Drinking Water ◽

Room Temperature ◽

Water Source ◽

Healthcare Setting ◽

Chlorine Concentration ◽

Active Chlorine ◽

World Health ◽

Time Intervals ◽

Health Organization ◽

Different Sources

Introduction and objectives: In the context of COVID-19, the World Health Organization has recommended the use of extemporaneously prepared bleach solutions of 1 g/L, as a conservative concentration able to inactivate SARS-CoV-2 and the vast majority of other pathogens that may be present in the healthcare setting. Consequently, there is a renewed interest in conducting stability studies of these solutions. The goal of this work was to verify the available chlorine concentration in several bleach solutions trademarks and to propose a beyond use date for 1 g/L bleach solutions, obtained after dilution with drinking water from different sources. Methods: Bleach trademarks, with nominal concentrations between 25-60 g/L, were subjected to iodometric titration to determine the available chlorine concentration. One trademark was used to prepare 1 g/L dilutions using water from different purification plants in Córdoba, Argentina. The samples were stored at room-temperature, both exposed or protected from light. The available chlorine concentration was determined by titration at preestablished time intervals. The beyond use date was reached when the available chlorine concentration dropped below 90 % of its initial. Results: The concentration of active chlorine in the different trademark bleaches was within the values established by current regulations. Diluted solutions protected from light showed a decrease of less than 10 % in active chlorine concentration during the first 10 days of assay. However, one sample exceeded the acceptance limit after 14 days. In contrast, in the samples exposed to light, the concentration of active chlorine dropped to 96.4 % at 24 hours and 79.3 % after 48 hours. No differences related to drinking water sources were observed. Conclusions: Compliance of the nominal available chlorine concentration in trademark bleach solutions was confirmed. Regardless the water source used for dilution, 1 g/L bleach solutions were stable for 10 days when stored at room temperature and protected from light. Instead, solutions exposed to light maintain their available chlorine concentration for only 24 hours.

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Kinetic modeling of active chlorine generation by low-amperage pulsating direct current in a circulating brine solution

Journal of Food Engineering ◽

10.1016/j.jfoodeng.2008.12.026 ◽

2009 ◽

Vol 92 (4) ◽

pp. 461-466 ◽

Cited By ~ 6

Author(s):

Khamtorn Pudtikajorn ◽

Il-Shik Shin ◽

Woo-Sik Jeong ◽

Donghwa Chung

Keyword(s):

Kinetic Modeling ◽

Direct Current ◽

Active Chlorine ◽

Brine Solution ◽

Chlorine Generation

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On active chlorine

Proceedings of the Royal Society of London Series A - Mathematical and Physical Sciences ◽

10.1098/rspa.1934.0220 ◽

1934 ◽

Vol 147 (861) ◽

pp. 309-332

Keyword(s):

Acetic Acid ◽

Electric Discharge ◽

Closed System ◽

Surface Characteristics ◽

Chemical Activity ◽

Active Chlorine ◽

Side Chain ◽

Experimental Conditions ◽

Electrically Charged ◽

Atomic Chlorine

Evidence has long been available that a modification of chlorine of abnormal chemical activity is produced by an electric discharge in this gas. The greater part of the earlier work was conducted under very badly defined experimental conditions which render the various researches difficult to correlate, but the properties of this “active chlorine” may be summarized as follows:— ( a ) It possesses abnormal bleaching powers, and can react in the cold and the dark with acetic acid to form the monochlor derivative; with benzene it gives the hexachloride, while with toluene the combination occurs mainly in the side chain. ( b ) They yield of active gas is enhanced by irradiation of the discharge, by cooling, and by the presence of moisture. ( c ) It has a life period of at least 75 secs, but is destroyed by heating, passage through water, and the action of another discharge; it is not electrically charged and does not possess as abnormal density.§ ( d ) Since only very small changes in pressure follow passage of a discharge in a closed system containing chlorine, the active modification does not presumably represent an associated molecule such as Cl 3 .‖ Reference may also be made to papers by Venkataramaiah¶ who gives a number of chemical reactions of chlorine activated in various ways but his results must be treated with reserve (see Germann, idem ., p. 951). In the present experiments we have endeavoured to repeat and extend the earlier studies under better defined conditions, and conclude that the phenomena are very probably due to a trace of atomic chlorine whose behaviour is markedly dependent upon the surface characteristics of the apparatus.

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