Atomic absorption and atomic emission with inductive connected plasma detection of Lead and Iron in strata water using new medias and standard composition samples

  • Oleg I. Yurchenko V.N. Karazin Kharkiv National University, School of Chemistry, 4 Svobody sqr., 61022 Kharkiv, Ukraine https://orcid.org/0000-0002-7117-4556
  • Tatyana V. Chernozhuk V.N. Karazin Kharkiv National University, School of Chemistry, 4 Svobody sqr., 61022 Kharkiv, Ukraine https://orcid.org/0000-0001-5580-7838
  • Oleksii A. Kravchenko V.N. Karazin Kharkiv National University, School of Chemistry, 4 Svobody sqr., 61022 Kharkiv, Ukraine https://orcid.org/0000-0003-1211-2459
Keywords: strata wate, sample preparation, atomic absorption and atomic emission with inductive connected plasma spectroscopy, Lead, Iron, Triton X-100, ultrasound, acetylacetone, acetylacetonates of Lead and Iron, metrological characteristics

Abstract

An influence of SAS (Тriton Х-100) concentration and ultrasound treatment time on the value of analytical signal at atomic absorption and atomic emission with inductive connected plasma detection of analytes in strata water was studied. Maximal analytical signal at of Lead and Iron was reached at using nonionogenic SAS which let us to decrease surface tension of the analyzed solution and to increase absorptivity at analytes detection. It was shown that using of the modern sample preparation increase sensibility of atomic absorption detection of Lead in 1,5 times and Iron in 1,8 times. By the methods of atomic absorption and atomic emission with inductive connected plasma spectroscopy and using acetylacetonates of Lead and Iron as standard composition samples, that let us to increase sensitivity of the detection of analytes, contain of Lead and Iron in strata water was determined. By variation of the sample volume and by "injected-found out" method we have proved that systematic error is not significant. The results, obtained by two independent methods were compared according to F- and t-criteria. It was proved that dispersions are homogenous and run of the means is not sufficient and proved by random scatter. By atomic absorption method we estimated the detection limit of the analytes according to the developed methodic and show that the obtained results are lower than the same data from literature. The developed methodic, according to its metrological characteristics, is competitive at international level.

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References

Buryukin F.A.,Gavgolenko N.V., Stepanova M.A., Kostishina A.I. Provedennya kompleksnih doslidjen plastovoi vodi Vankorskogo rodovischa. V Molodi nauka: zbirnik materialiv VII Vserosiyskoi naukovo-tehnichnoi konferencii studentiv, aspirantiv i molodih vchenih, pris-vyacheniy 50-richchyu pershogo polotu lyudini v kosmos, Krasnoyarsk, 2011, s.10-12.

Nasibullina O.A. Korrozionnye ispytaniya ingibitorov korrozii v usloviyah nizkoy obvodnen-nosti. V Obrazovanie i nauka v sovremennyh usloviyah. Mater. vnutrivuz. nauch. - prakt. konf. Sterlitamak: Poligrafiya, 2016; s. 287 - 288.

Gareev, A.G. Korroziya i zaschita metallov v neftegazovoy otrasli; Ufa: Gilem, Bashk. encikl. 2016.

Husainova R.F. Korroziya nasosno-kompressornyh trub v plastovy'h vodah mestorojdenie zapadnoy sibiri. V IX mejdunarodnaya konferenciya studentov i molodyh uchenyh «Perspektivy razvitiya fundamentalnyh nauk». 2012. №9. S. 264.

Nemec N. N., Panteleymonov A.V., Shugay E. A., Holin Yu. V. Stvorennya zrazka porivnyannya dlya vizualnogo binarnogo testuvannya zaliza (III) u pidzemnih. Visnik Harkivskogo nacionalnogo universitetu. 2008, Himiya.vip.16(39), 151 - 158.

Basova E.M., Ivanov V.M., Apendeeva O.K. Spektrofotometrichne viznachennya tiocianat-ioniv v plastovih vodah. Vistn. mosk. un-tu. ser. 2. himiya. 2014, 55,15.

Yurchenko O.I. Titova N.P., Mandrika T.S., Dobriyan M.A., Chernojuk T.V. Atomno-absorbiyne ta atomno-emisiyne z induktivno-zvyazanoyu plazmoyu viznachennya zaliza u naftoproduktah z vikoristannyam acetilacetonatu zalizu u yakosti standartnogo zrazka skladu. Visnik Harkivskogo nacionalnogo universitetu. 2011, Himiya.vip.20(43), 216.

Marinenko A.I., Pelyaev O.I. Ekspress-metod opredeleniya soderjaniya jeleza v benzinah. Himiya I tehnologiya topliv I masel.2008, 1, 29 - 31.

Kulakova V.V. Ispolzovanie vnutriplastovoy ochistki podzemnyh vod ot jeleza i marganca (na primere vodosnabjeniya g. Habarovsk). Vestnik DVSCH RAN. 2013, 2, 85.

Yurchenko O.I., Titova N.P., Kurochkina E.M. Vybor sposobov probopodgotovki nefteproduktov dlya atomnogo spektral'nogo analiza. Jurn. prikl. spektr. 2010, 77,2, 316-320.

Temerdasheva Z.V. Issledovanie i analiz benzinov, izmenennyh v processah ispareniya i vygoraniya. Zavodskaya laboratoriya. Diagnostika materialov. 2008. 74,4,4-8.

Trofimchuk A.K., Lataeva A.V., Chuenko A.V. Sorbciyno-atomno-absorbci'yne viznachennya svincyu u visokomineralizovanih vodah. Ukrainskiy himichniy jurnal. 2009,75,10, 120-123.

Scherbancheko M.D. Elektrotermichne atomno-absorbciyne viznachennya svincyu i kadmiyu u riznomanitnih vidiv spirtiv. Kriminalichtiniy visnik. 2014. 2 (22), 190-196.

Boldyrev K.A., Kuzmin V. V., Kuranov N.P., Bilek F. Geohimicheskoe modelirovanie vnutriplastovogo obezjelezivanie i demanganacii podzemnyh vod. Vodosnabjenie i sanitarnaya tehnika. 2012, 4,49-50

Kulakov V.V., Steblevskiy V.I., Domin K.V., Herlitcius Y., Teslya V.G. Opytno-promyshlennaya ekspluataciya pilotnoy ustanovki ochistki podzemnih vod na Tungusskom vodozabore. Vodosnabjenie i sanitarnaya tehnika. 2012, 7,29-35

Kulakov V.V. Biogeohimicheskie aspekty ochistki podzemnyh vod Priamurya. Tihookean. geologiya. 2008, 27,1, 109-118.

Duyck C., Miekeley N. Trace element determination in crude oil and its fractions by induc-tively coupled plasma mass spectrometry using ultrasonic nebulization of toluene solutions. Spectrochimica Acta, 2008, 57,1979-1990.

Boldirev K.A. Geohimichne modelyuvannya vnutriplastovogo znezaliznennya i demanganacii pidzemnih vod . Vodosnabjenie i sanitarnaya tehnika. 2013, 4,49-55

Samtanova D.E. Harakteristika plastovyh vod neftyanih mestorojdeniy Respubliki Kalmykiya kak prioritetnyh zagryazniteley pri neftedobyche: diss. k. h. n.: 03.02.08. Ivan. gos. him. tehnol. un-t. - B.m. - 2017. - 175 s.

Yurchenko A.O. Spektralni metodi doslidjennya .Naukovi ta metodichni zasadi fizichnoi osviti. 2013, 1(5),160-166.

Yurchenko O.I., Titova N.P., Sabir Korvani Salih Sabir, Chernojuk T.V.Atomno-absorbciyne ta atomno-emisiyne z induktivno zvyazanoyu plazmoyu viznachennya Kuprumu v naftopro-duktah. Visnik Harkivskogo nacionalnogo universitetu. 2016, Himiya.vip.27(50), 79-83.

Maznyaka N.V., Verhoturova A.P., Loseva V.N., Zamay T.N. Viznachennya natriyu ta kaliyu v biologichnih obektah metodami atomno-absorbciynoi ta atomno-emisiynoi spektroskopi. Journal of Siberian Federal University. Chemistry, 2012, 3(5), 320-330.

Fischbach F.T. Manual of Laboratory and Diagnostic Tests. N.Y.: Lippincott Willians Wil-kins, 2008.

Beleckaya E.N. Gigienicheskie aspekty osteotropnosti svinca kak faktora rika kalciydeficitnoy patologii u cheloveka. Medichni perspektivi. -2014, 2,130-138.

Alemasova A.S., Zaycev V.M., Enaleva L.Ya. Analitichna himiya. Doneck: «Noulidj»,2010.

Alemasova A.S., Rokun A.M., Shevchuk I.O. Anality`chna atomno-absorbcijna spek-troskopiya. Navchal`ny`j posibny`k. Sevastopol`: «Veber», 2003.

Published
2020-06-29
Cited
How to Cite
Yurchenko, O. I., Chernozhuk, T. V., & Kravchenko, O. A. (2020). Atomic absorption and atomic emission with inductive connected plasma detection of Lead and Iron in strata water using new medias and standard composition samples. Kharkiv University Bulletin. Chemical Series, (34), 82-88. https://doi.org/10.26565/2220-637X-2020-34-05