Please use this identifier to cite or link to this item: https://er.nau.edu.ua/handle/NAU/37720
Title: Improvement of technological scheme of fatty acids ethyl esters production for use as jet fuels biocomponents
Authors: Яковлєва, Анна Валеріївна
Вовк, Оксана Олексіївна
Лейда, Казімір
Бойченко, Сергій Валерійович
Кушевський, Хуберт
Keywords: energy sources
jet fuel
biofuel
technology
esterification
fatty acids esters
physicalchemical properties
Issue Date: 2014
Publisher: International Linking Association
Citation: Iakovlieva AV, Vovk OA, Lejda K, Boichenko SV, Kuszewski H (2014) IMPROVEMENT OF TECHNOLOGICAL SCHEME OF FATTY ACIDS ETHYL ESTERS PRODUCTION FOR USE AS JET FUELS BIOCOMPONENTS. ISJ Theoretical & Applied Science 11 (19): 44-50. doi: http://dx.doi.org/10.15863/TAS.2014.11.19.9
Series/Report no.: ISPC European Science and Technology;
Abstract: The world tendency in replacement of traditional jet fuels with their alternative analogues is presented. The main technologies of jet biofuels production from plant oils are described. The main requirements to biocomponents used in jet fuels are formed. Chemical composition and properties of biocomponents produced via esterification of plant oils by ethanol were investigated. It was developed a method for physical-chemical properties of biocomponents improvemet. The efficiency of the proposed method is shown.
Description: 1. Daggett DL, Hendricks RC, Walther R, Corporan E. Alternate Fuels for use in Commercial Aircraft. The Boeing Company,2007. p. 8. 2. Kirillov NG, Lazarev AN. Ekologiia i avtotransport: O neobhodimosti perehoda na prirodnii gaz kak perspektivnoe motornoe toplivo. AvtoGazoZapravochnii Komplex + Alternativnoe toplivo, 2010. No. 4 (52), p. 4-10. 3. Ustymenko V. Pytannya energozabezpechennya avtotransportu Ukraini v umovah svitivoi energetychnoi kryzi. Pereviznik UA. 2008. No. 15. p. 28-30. 4. ICAO Assembly — 38th Session. Report of The Executive Commitee on Agenda. Item 17. A38-WP/429. P/43. 2/10/13 5. Boichenko SV, Cherniak LM, Iakovlieva АV. Tradiciini tehnologii vyrobnictva paliv dlia povitriano-reactivnih dvyguniv. Visnik Natsionalnogo aviatsiinogo universytetu. 2013. No. 2 (55), p. 195-209. 6. An American National Standard ASTM D7655 Standard Specification for Aviation Turbine Fuel Containing Synthesized Hydrocarbons. 7. Iakovlieva A, Boichenko S, Gay A. Cause-Effect Analysis of the Modern State in Production of Jet Fuels. Journal of Сhemistry & Chemical Technology, 2014. Vol. 8, No. 1, p. 107-116. 8. Markov VА, Devianin SN, Nagornov SА. Rabota transportnogo dizelia na smesiah dizelnogo topliva I metilovogo efira podsolnechnogo masla. Transport na alternativnom toplive, 2013. № 3 (33). 9. Pramanik K. Properties and use of jatropha curcas oil and diesel fuel blends in compression ignition engine. Renewale energy, 2003. Vol. 28, Iss. 2, p. 239-248. 10. Devianin SN, Markov VА, Semenov VG. Rastitelnie masla I topliva na ih osnove dlya dizelnih dvigatelei: monografia. – H.: Novoe slovo, 2007. p. 452. 11. Nagornov S.A, Dvoretskii D.S, Romancova S.V, Tarov V.P. Tehnika i tehnologii proizvodstva i pererabotki rastitelnih masel: posobie. Min-vo obrazovaniia i nauki Ros. Federacii, Tambov. gos. tehn. un-t. – Tambov: izd-vo GOU VPO TGTU, 2010. p. 96. 12. Danilov А.М, Kaminskii E.F, Havkin V.А. Alternativnie topliva: dostoinstva i nedostatki. Problem primeneniia. Rossiiskii himicheskii zhurnal, t. XLVII, 2003. No. 6. 13. Braginskyi OB. Alternativnie motornie topliva: mirovie tendencii i vibor Rossii. Rossiiskii himicheskii zhurnal, t. LII, 2008. No.6, p. 137-146. 14. Yanovskii LS, Fedorov EP, Varlamova NI, Bodorako PV, Popov IM. Alternativnie reaktivnie topliva: problem i perspektivi. Vestnik NAU, 2009. No. 1, p. 108-112. 15. Sklad komponenta paliva otrimanogo izsirovini roslinnogo pohodzhennya: Patent Ukraini №35402 vid 10.09.2008, Bul. No. 17 16. Kirichenko V.I, Boichenko S.V, Kirichenko V.V, Nezdorovin V.P. Kompleksnaia pererabotka tehnicheskih rastitelnih masel: koncepciya, metodi i tehnologii. Energotehnologii i resursosberezhenie. – К. 2013. No. 4, p. 31-40. 17. Krylov IF, Emeljanov VE. Alternativnie motornie topliva. Proizvodstvo primenenie, perspectivi. Mir nefteproductov. 2008. No. 1, p. 38-42. 18. Sposib oderzhannia biodizelnogo paliva etanolnoju pereesterifikacieju zhiriv. Institut bioorganichnoi himii ta naftohimii NAN Ukraini: Patent Ukraini №35913 vid 10.10.2008, Bul. № 19 19. Sposib oderzhannia biodizelnogo paliva shliahom pereesterifikacii trigliceridiv etanolom na katalizatori: Patent na vinahid № 98281 Ukraine vid 25.04.2012, Bul. № 8, p.19 . 20. Boichenko SV, Vovk OO, Iakovlieva AV. Overview of innovative technologies for aviation fuels production. Journal of Chemistry and chemical technology. 2013. Vol. 7, No. 3, p. 305-312. 21. Tutunnikov BN, Buhshtab BI, Gladkii FF, etc.Himiia zhirov. Kolos: Мoscow, 1992. p. 448. 22. Yu F, Deng S, Chen P, Liu Y, Wan Y, Olson A, Kittelson D, Ruan R. Physical and Chemical Properties of Bio-Oils From Microwave Pyrolysis of Corn Stover. Applied Biochemistry and Biotechnology. 2007. Vol. 136, p. 140. 23. Iakovlieva АV. Doslidgennia vlastyvostei olii jak syrovini dlia otrymannia compnentiv aviatsiinogo paliva. Voprosi himii i himicheskoi tehnologii. 2013. No. 4, p. 86-93. 24. Yanovskii LS, Dmitrenko VP, Dubrovkin NF. Osnovi aviatsionnoi himmotologii. Мoscow: МАТI, 2005, p. 680. 25. Keri F, Sandberg R. Uglublennii kurs organicheskoi himii. Т.2. Reakcii i sintezi. – Мoscow: Himiia, 1981. p. 456. 26. Bekker G, BergerV, Domshke G, Fanghenel E, etc. Organikum. Praktikum po organicheskoi himii. т.1-2, Мoscow, Мir, 1979, p. 453.
URI: http://er.nau.edu.ua/handle/NAU/37720
ISSN: 2409-0085
Appears in Collections:Публікації у наукових виданнях співробітників кафедри екології

Files in This Item:
File Description SizeFormat 
Boichenko15.pdfОсновна стаття296.66 kBAdobe PDFView/Open


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.