Browse > Article
http://dx.doi.org/10.12925/jkocs.2015.32.3.583

The Study On Safety of Olive Oil Production Ozonized of Hair and Skin Improvement  

Park, Sun-Yee (Dept. of Cosmetic Arts, Changshin University)
Publication Information
Journal of the Korean Applied Science and Technology / v.32, no.3, 2015 , pp. 583-587 More about this Journal
Abstract
This Purpose of this study is to develop a system for stable production without troubling side effects, scalp and skin, and sensitivity to temperature and humidity, but the ozone-cream at a constant effective value and the durability of peroxide safe discharge tube. Furthermore, olive oil and ozone is reacted with the wish to apply to the manufacturing technology. If peroxide value of ozonized olive oil exceeded 1200 meg/kg, there may be microbial disinfection. However, to be produced with a minimum of risk because they look to the scalp and skin sensitization is the purpose of the present study. And also the durability of the discharge tube was tested during the production unit for stable production. And the experimental results, Peroxide value of the ozonized olive oil was measured to less than 1300 meg/kg, also it showed a stable result of the discharge tube.
Keywords
ozonized olive oil; Peroxide value; discharge tube; scalp; skin;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 D. S. Kim, The Study on the Development of Ozone Water Diffusion Device by Ozonated Olive Oil Mix Ratio that will Increase, J. of Korean Oil Chemists' Soc., 31, 688(2014).   DOI
2 J. Staehelin, and Hoigne, Decomposition of Ozone in Water: Rate of Initiation by Hydroxide Ions and Hydrogen Peroxide, Environ. Sci. Technol., 16, 676(1982).   DOI
3 Staehelin, J. and Hoigne, Decomposition of Ozone in Water in the Presence of Organic Solutes Acting as Promoters and Inhibitors of Radical Reactions, Environ. Sci. Technol., 19, 1206(1985).   DOI
4 T. Bruce Stanley, Electrolytic Ozone Generation and Its Application In Pure Water Systems, 12th Ozone World Congress, San Francisco (1993).
5 C. Hubele, and H. Sontheimer, Adsorption and biodegradation in activated carbon filters treating preozonated humic acid, Proc. of the 1984 Speciality Conf. in Environ. Eng., New York, ASCE (1984).
6 W. Kuhn, , H. Sontheimer, L. Steiglite, D. Maier, and R. Kurz, Use of ozone and chlorine in water utilities in the Federal Republic of Germany, J. AWWA, 70(6), 326(1978).   DOI
7 H. S. Park, H. J. Oh, W. J. Kim, J. W. Kang, Characterization of Raw Water for the Ozone Application by Measuring Ozone Consumption Rate, IOA, 14th Ozone World Congress (1999).
8 H. J. Oh, W. J. Kim, C. S. Gee, S. H. Kim, Optimization of Ozone Dosage in Preozonation Process, 12th IWA - ASPAC Conference (2000).
9 APHA, AWWA and WEF, Standard Methods for the examination of water & wastewater, M. A. N. Franson(ed.), Port City Press, Baltimore (MA) (2005).
10 C. W. K. Chow, F. Fitzgerald, L. Sutherland-Stacey, R. Dexter, R. Fabris, and M. Drikas, Applications of UV/Vis spectrometry in Drinking Water Quality Management, In proceedings 'Australian Water Association `2nd Annual Water Industry Engineers and Operators (SA) Conference', Adelaide, Apr. 4, (2006).
11 P. M. Gy, Sampling for analytical purposes, Wiley VCH Verlag GmbH, Weinheim, Germany (1998).
12 F. Hammes, etc., Mechanistic and kinetic evaluation of organic disinfection by-product and assimilable organic carbon (AOC) formation during ozonation of drinking water, Water Research, 40(12), 2275(2006).   DOI
13 J. Hoigne and H. Bader, Characterisation of water quality criteria for ozonation processes. Part 2: Lifetime of added ozone, Ozone: Science & Engineering, 16, 121(1994).   DOI
14 E. Huber, and M. Frost, Light scattering by small particles, Journal of Water Supply: Research and Technology- Aqua, 47, 87(1998).   DOI
15 G. V. Korshin, C.-W. Li and Benjamin, M. M., The decrease of UV-absorbance as an indicator of TOX formation, Water Research, 31(4), 946(1997).   DOI
16 G. Langergraber, N. Fleischmann, and F. Hofstaedter, A multivariate calibration procedure for UV/Vis spectrometric quantification of organic matter and nitrate in wastewater, Water Science and Technology, 47(2), 63(2003).
17 C.W. Li, G.V. Korshin and M. M. Benjamin, Monitoring DBP formatation with differential UV spectroscopy, J. AWWA, 90(8), 88(1998).