Wastewater treatment of petroleum products: experience of application of visible light photocatalyst based on the bismuthates of the alkaline earth metals

Authors

  • Shtarev D.S. Far Eastern State Transport University, Khabarovsk, Russian Federation
  • Shtareva A.V. Institute of Tectonics and Geophysics, Khabarovsk Scientific Center, Far Eastern Branch of Russian Academy of Sciences, Khabarovsk, Russian Federation
  • Zaytsev A.V. Institute of Materials Science, Khabarovsk Scientific Center, Far Eastern Branch of Russian Academy of Sciences, Khabarovsk, Russian Federation

UDC

541.128.3

EDN

TBHXLN

Abstract

The article investigates the catalytic properties of visible light photocatalysts consisting of bismuthates of the alkaline earth metals and bismuth oxide. Due to the high sensitivity to radiation in the visible range, these catalytic compositions are promising materials in terms of their use in water purification from organic pollutants. In this article we present for the first time the experimental data on the testing of new photocatalysts based on the bismuthates of the alkaline earth metals on drains of the real organizations. The test performance was carried out on wastewaters provided by the "Dalnefteprovod" company and the firehouse administration of the Civil Defence, Emergencies and fire safety of the Khabarovsk Territory. It is shown that regardless of the underlying alkaline earth metal, all synthesized catalyst compositions exhibit high catalytic activity, which is manifested in a rapid decrease in the concentration of petroleum products in wastewater.

Keywords:

photocatalysts, visible light, decomposition of petroleum products

Authors info

  • Dmitriy S. Shtarev

    канд. физ.-мат. наук, доцент кафедры "Физика и теоретическая механика" Дальневосточного государственного университета путей сообщения

  • Anna V. Shtareva

    младший научный сотрудник Института тектоники и геофизики им. Ю.А. Косыгина Дальневосточного отделения РАН

  • Aleksey V. Zaytsev

    инженер Института материаловедения Хабаровского научного центра Дальневосточного отделения РАН

References

  1. Государственное санитарно-эпидемиологическое нормирование российской федерации. Государственные санитарно-эпидемиологические правила и нормативы. 2.1.4. Питьевая вода и водоснабжение населенных мест. Питьевая вода. Гигиенические требования к качеству воды централизованных систем питьевого водоснабжения. Контроль качества. Санитарно-эпидемиологические правила и нормативы. СанПиН 2.1.4.1074-01. Москва, Минздрав России, 2002. 62 c. [Gosudarstvennoe sanitarno-jepidemiologicheskoe normirovanie rossijskoj federacii. Gosudarstvennye sanitarno-jepidemiologicheskie pravila i normativy. 2.1.4. Pit'evaja voda i vodosnabzhenie naselennyh mest. Pit'evaja voda. Gigienicheskie trebovanija k kachestvu vody centralizovannyh sistem pit'evogo vodosnabzhenija. Kontrol' kachestva. Sanitarno-jepidemiologicheskie pravila i normativy. SanPiN 2.1.4.1074-01 [State sanitary-epidemiological rules and norms. 2.1.4. Drinking water and supply of populated areas. Drinking water. Hygienic requirements for water quality of centralized drinking water supply systems. Quality control. Sanitary-epidemiological rules and norms. SanPin 2.1.4.1074-01]. Moscow, Russian Ministry of Health, 2002, 62 p.]
  2. Государственное санитарно-эпидемиологическое нормирование российской федерации. Государственные санитарно-эпидемиологические правила и нормативы. 2.1.4. Питьевая вода и водоснабжение населенных мест. Питьевая вода. Гигиенические требования к качеству воды централизованных систем питьевого водоснабжения. Контроль качества. Санитарно-эпидемиологические правила и нормативы. СанПиН 2.1.4.1075-02. Москва, Минздрав России, 2003. 61 c. [Gosudarstvennoe sanitarno-jepidemiologicheskoe normirovanie rossijskoj federacii. Gosudarstvennye sanitarno-jepidemiologicheskie pravila i normativy. 2.1.4. Pit'evaja voda i vodosnabzhenie naselennyh mest. Pit'evaja voda. Gigienicheskie trebovanija k kachestvu vody centralizovannyh sistem pit'evogo vodosnabzhenija. Kontrol' kachestva. Sanitarno-jepidemiologicheskie pravila i normativy. SanPiN 2.1.4.1075-02i [State sanitary-epidemiological rules and norms. 2.1.4. Drinking water and supply of populated areas. Drinking water. Hygienic requirements for water quality of centralized drinking water supply systems. Quality control. Sanitary-epidemiological rules and norms. SanPin 2.1.4.1075-02]. Moscow, Russian Ministry of Health, 2003, 61 p.]
  3. Wang Y., He Y., Li T., Cai J., Luo M., Zhao L. Photocatalytic degradation of methylene blue on CaBi6O10/Bi2O3 composites under visible light // J. Chem. Eng. 2012. Vol. 189. No. 190. P. 473-481.
  4. Wang Y., He Y., Li T., Cai J., Luo M., Zhao L. Novel CaBi6O10 photocatalyst for methylene blue degradation under visible light irradiation // J. Catal. Commun. 2013. Vol. 18. P. 161-164.
  5. Shan Z.C., Xia Y.J., Yang Y.X., Ding H.M., Huang F.Q Preparation and photocatalytic activity of novel efficient photocatalyst Sr2Bi2O5 // J. Mater. Lett. 2009. Vol. 63. P. 75-77.
  6. Hu C., Hu X.X., Guo J., Qu J.H. Efficient destruction of pathogenic bacteria with NiO/SrBi2O4 under visible light irradiation // J. Environ. Sci. Technol. 2006. Vol. 40. P. 5508-5513.
  7. Shtarev D.S., Shtareva A.V. Photocatalytic degradation of the diesel fuel by using the calcium bismuthate-bismuth oxide photocatalyst composition // J. Appl. Mech. Mater. 2013. Vol. 337. P. 204-208.
  8. Штарев Д.С., Штарева А.В. Технология каталитической очистки сточных вод промышленных предприятий с применением катализаторов видимого света // Ученые записки Комсомольского-на-Амуре государственного технического университета. 2014. Т. 1. №2 (18). С. 102-108. [Shtarev D.S., Shtareva A.V. Tehnologija kataliticheskoj ochistki stochnyh vod promyshlennyh predprijatij s primeneniem katalizatorov vidimogo sveta [Technology catalytic wastewater industrial catalysts using visible light]. Uchenye zapiski Komsomol'skogo-na-Amure gosudarstvennogo tehnicheskogo universiteta [Scientific notes of Komsomolsk-on-Amur State Technical University], 2014, vol. 1, no. 2 (18), pp. 102-108.]
  9. ПНД Ф 14.1: 2:4.182-02 Методика измерения массовой концентрации Фенолов в пробах природных, питьевых и сточных вод флуориметрическим методом на анализаторе жидкости Флюорат-02 МУК 4.1.1263-03. Москва, Люмэкс, 2002. 29 c. [PND F 14.1: 2:4.182-02 Metodika izmerenija massovoj koncentracii Fenolov v probah prirodnyh, pit'evyh i stochnyh vod fluorimetricheskim metodom na analizatore zhidkosti Fljuorat-02 MUK 4.1.1263-03. [PND F 14.1: 2: 4.182-02 technique for measuring the mass concentration of phenol in samples of natural, drinking and waste water fluorimetric method for fluid analyzer Fluorat MUK-02 4.1.1263-03.]. Moscow, Ljumjeks Pub., 2002, 29 p.]

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Issue

Vol.  (2014) No. 4

Pages

88-92

Section

Article

Dates

Submitted

August 28, 2014

Accepted

September 10, 2014

Published

December 22, 2014

How to Cite

[1]
Shtarev, D.S., Shtareva, A.V., Zaytsev, A.V., Wastewater treatment of petroleum products: experience of application of visible light photocatalyst based on the bismuthates of the alkaline earth metals. Ecological Bulletin of Research Centers of the Black Sea Economic Cooperation, 2014, № 4, pp. 88–92.

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Copyright (c) 2014 Штарёв Д.С., Штарёва А.В., Зайцев А.В.

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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