Journal of the Korean Applied Science and Technology (한국응용과학기술학회지)

The Korean Society of Applied Science and Technology (한국응용과학기술학회)
권호 표지
DOI QR코드

DOI QR Code

Studies on the Wave Propagation and Fluctuation in Randomly Ditribution Media of L-Aspartic Acid

L-Aspartic Acid의 무질서하게 분포된 매질에서 파동전개와 변동에 관한 연구

  • Kim, Ki-Jun (Department of Chemical Engineering, Daejin University) ;
  • Lee, Joo-Youb (Department of Chemical Engineering, Daejin University)
  • 김기준 (대진대학교 공과대학 화학공학과) ;
  • 이주엽 (대진대학교 공과대학 화학공학과)
  • Received : 2012.02.28
  • Accepted : 2012.03.25
  • Published : 2012.03.30
Download PDF
⟨ Previous Next ⟩

Abstract

The influences of fluorescence, scattering, and flocculation in turbid material by light scattering of L-aspartic acid, preservative and emulsifier were interpreted for the scattered fluorescence intensity and wavelength. They have been studied the molecular properties by the spectroscopy of laser induced fluorescence (LIF) and flocculation. The effects of optical properties in scattering media have been found by the optical parameters(${\mu}_s$, ${\mu}_a$, ${\mu}_t$). Flocculation is an important step in many solid-liquid separation processes and is widely used. When two particles approach each other, interactions of several colloid particles can come into play which may have major effect on the flocculation and LIF process. The values of scattering coefficient ${\mu}_s$ are large by means of the increasing scattering of scatterer, The values have been found that the slope decays exponentially as a function of concentration from laser source to detector by our experimental result. It may also aid in designing the best model for oil chemistry, bio-pharmaceutical products, laser medicine and application of medical engineering on LIF and coagulation in particle transport mode.

L-arpartic acid의 산란혼탁매질에서 형광, 산란과 응집의 영향은 파장과 산란된 형광세기로 나타내는데, laser induced fluorescence(LIF) 분광학에 의한 분자특성으로 나타난다. 산란매질에서 광학적 효과는 광학적 파라미터들(${\mu}_s$, ${\mu}_a$, ${\mu}_t$)에 의해 표현되고 응집은 고-액상 분리공정에서 중요하게 활용되고 있다. 따라서 입자가 서로 접근될 때 콜로이드 입자들의 상호작용을 LIF와 응집효과로 분석하였다. 레이저 광원에서 검출기까지 농도의 함수에 의해 농도가 묽어짐에 따라 산란세기가 기하급수적으로 감소함을 알 수 있다. 이는 유지화학, 생의학 생성물, 레이저 의학, 의공학 분야적용에 LIF와 입자이동 현상은 아주 적합한 모델 연구에 큰 도움이 될 것이다.

Keywords

References

  1. K. J. Kim and K. C. Sung, A Study on Spectra of Laser Induced Fluorscence in Phantom, J. of Korean Oil Chemist' Soc,, 16(4), 329 (1999).
  2. K. J. Kim and K. C. Sung, Monte Carlo Simulation on Light Distribution in Turbid Material, J. of Korean Oil Chemists Soc., 15(4), 11 (1998).
  3. K. J. Kim and K. C. Sung, Studies on Measurements of Optical Parameters in Turbid Material by Light Scattering, J. of Korean Oil Chemists Soc., 12(2), 151 (1995).
  4. S. L. Jacques and S. A. Prahl, Modeling Octical and Thermal Distribution in Tissue During Laser Irradiation, Laser in Surgery and Medicine 6, 494 (1987).
  5. B. C. Wilson, Y. D. Park, Y. Hefetz, M. S. Patterson, S. J. Madsen and S. L. Jacqu es, The Potential of Timeresolved Reflectance Measurements for the Noninvasive Determination of Tissue Optical Properties, in Thermal and Optical Interactions with Biological and Related Composite Materials, M. J. Berry and G. M. Harpole, eds., Proc. S. P. I. E., p. 97, (1989).
  6. S. L. Jacques, C. A. Alter, and S. A. Prahl, Angular Dependence of HeNe Laser Light Scattering by Human Dermis, Laser in the Life Science, 1(4), 309 (1987).
  7. T. J. Dougherty, C. J. Gomer, and K. R. Weishaupt, Energetics and Effeciency of Photoinactivation of Murine Tumor Cells Containing Hematoporphyrin, Cancer Research 36, 2330 (1976).
  8. R. R. Alfano, G. C. Tang, A. Pradhan, W. Ran, S. J. Daniel, ,and E Opher, Fluorescence Spectro from Cancerone and Normal Human Breast and Lung Tissues, IEEE J. Quan. Elec. QE, 23(10), 1806 (1987).
  9. S. R. Wickramasinghe, Y. Wu, and B. Han, Enhanced Microfiltration of sorbitan ester of fatty acid by Flocculation, Desalination 147, 25, (2002).
  10. L. O. Poicard, C. J. Gomer, and A. E. Profio, Laser-Induced Hyperthermia of Ocular Tumors, Appl. Opt., 28(12), 2318 (1989).
  11. M. Winkelmann, B. Chance, and B. C. Wilson, Time Resolved Reflectance and Transmittanance for the Noninvasive Measurement of Tissue Optical Properties, Appl. Opt., 28(12), 2331 (1989).
  12. K. Lee, I. J. Forbes, and W. H. Betts, Oxygen Dependency of Photocytotoxicity with Hematoporphyrin Derivative, Photochem. Photobiol 39(5), 631 (1984).
  13. R. Hilf, P. B. Leakey, S. J. Solltt, and S. L. Gibson, Photodynamic Inactivation of R3230AC Mammary Carcinoma in vitro with isobutyl-p-hydroxybenzoate: Effects of Dose, Time and Serum on Uptake and Phototoxicity, Photochem. Photobiol. 37(6), 633 (1983).
  14. H. Schnecknburger, M. Frenz, Y. Tsnchiya, U.. Denzer, and L. Schleinkofer, Picosecond Fluorescence Microscopy for Measuring Chlorophyll and Porphyrin Components in Conifers and Cultured Cells, Lasers in the Life Science 1(4), 299 (1987).
  15. S. R. Wickramasinghe, Y. Wu, and B. Han, Enhanced Microfiltration of sorbitan ester of fatty acid Flocculation, Desalination, 147, 25(2002).