Buy (625 RUB)
|Generate QR code
Open Access
Subscription or Fee Access
Detection of Petroleum Products’ Mass Fractionin Potting Soil on Spectrum Disrupted Total Internal Reflection
https://doi.org/10.18412/1816-0395-2013-12-24-28
Abstract
There was offered the method of measurement of petroleum products’ mass fraction by means of direct spectral approach, without preliminary samples handling as alternative to traditional approach. In this study were obtained spectrum of disrupted total internal reflection of pattern sample of clean and contaminated potting soil in the mean infrared band, at variation of oil and water content. By means of projection method on latent structures was developed a multidimensional calibrated model, which allows determine petroleum products concentrations from spectrum of disrupted total internal reflection. For assessment of modeling accuracy was applied method of cross-check (cross-validation). For adaptation given model to practical usage will be need its upgrading with new, including real samples, properties of which could be fluctuate in more wider limits then in pattern samples.
About the Authors
A. O. Guryanova
Самарский государственный технический университет
Russian Federation
Russian Federation
V. V. Ermakov
Самарский государственный технический университет
Russian Federation
Russian Federation
E. V. Maksina
Самарский государственный технический университет
Russian Federation
Russian Federation
E. V. Ramenskaya
Самарский государственный технический университет
Russian Federation
Russian Federation
T. V. Sakharova
Институт общей физики им. А.М. Прохорова РАН
Russian Federation
Russian Federation
D. E. Bykov
Самарский государственный технический университет
Russian Federation
Russian Federation
V. G. Artyushenko
Институт общей физики им. А.М. Прохорова РАН
Russian Federation
Russian Federation
A. Yu. Bogomolov
Самарский государственный технический университет
Russian Federation
Russian Federation
References
1. Методы определения нефтепродуктов в водах и других объектах окружающей среды (обзор) / И.И. Леоненко, В.П. Антонович, А.М. Андрианов, И.В. Безлуцкая, К.К. Цымбалюк // Методы и объекты химического анализа. 2010. №2.
2. Модельная смесь углеводородов для ИК-спектрофотометрии и флуориметрии нефтепродуктов / А.А. Кудрявцев, А.Н. Знамещиков, С.С. Волкова, Л.П. Паничева // Вестник Тюменского государственного университета. 2011. №5.
3. Critical review of chemometric indicators commonly used for assessing the quality of the prediction of soil attributes by NIR spectroscopy / V. Bellon-Maurel, E. Fernandez-Ahumada, B. Palagos, J.-M. Roger, A. McBratney // Trends in Analytical Chemistry. 2010. Vol. 29. № 9.
4. On-line measurement of soil properties without direct spectral response in near infrared spectral range / O. Marln-Gonzalez, B. Kuang, M.Z. Quraishi, M.A. Muno z-Garcla, A.M. Mouazen // Soil & Tillage Research (132) . 2013.
5. Панкратова К.Г. и др. Определение содержания нефтепродуктов в почве методом БИК-спектроскопии. Основные предпосылки использования БИК-спектроскопии для оценки загрязнения почв // Плодородие. 2012. №2 (65) .
6. Spectral reflectance variability from soil physicochemical properties in oil contaminated soils / S. Chakraborty, D.C. Weindorf, B. Li, Y. Zhu, C. Morgan, Y. Ge, J. Galbraith // Geoderma (177-178). 2012.
7. Detection of hydrocarbons in clay soils: A laboratory experiment using spectroscopy in the mid- and thermal infrared International / M. van der Meijde, N.M. Knoxl, S.L. Cundill, M.F. Noomen, H.M.A. van der Werff, C. Hecker // Journal of Applied Earth Observation and Geoinformation (23). 2013.
8. Esbensen K.H. Multivariate Data Analysis — In Practice 4-th Ed., CAMO. 2000.
9. Bogomolov А., Hachey M. Application of SIMPLISMA purity function for variable selection in multivariate regression analysis: A case study of protein secondary structure determination from infrared spectra // Chemometrics and Intelligent Laboratory Systems (88). 2013.
10. Savitzky A., Golay M.J.E. Smoothing and Differentiation of Data by Simplified Least Squares Procedures // Anal. Chem. 1964. Vol. 36. № 8. July.
Review
For citations:
Guryanova A.O., Ermakov V.V., Maksina E.V., Ramenskaya E.V., Sakharova T.V., Bykov D.E., Artyushenko V.G., Bogomolov A.Yu. Detection of Petroleum Products’ Mass Fractionin Potting Soil on Spectrum Disrupted Total Internal Reflection. Ecology and Industry of Russia. 2013;(12):24-28. (In Russ.) https://doi.org/10.18412/1816-0395-2013-12-24-28
Views:
549
Email this article 