Improvement of classification of emulsion production methods

Authors

  • V. О. Melnyk Ivano-Frankivsk National Technical University of Oil and Gas, 15 Karpatska Street Ivano-Frankivsk Ukraine, 76019

DOI:

https://doi.org/10.31471/1993-9868-2020-2(34)-75-83

Keywords:

emulsification methods, emulsification devices, fuel oil, emulsion, fuel, dispersion

Abstract

When burning liquid fuel, the problems arise related to ensuring the environmental requirements and the efficiency of its use. The process of high-quality liquid fuel combustion (mainly fuel oil) is complicated by the presence of excess water in it. One of the promising directions for solving this problem is the use of water-emulsion fuels (WEF), in which the expensive stage of fuel dehydration is replaced by the stage of emulsification – the uniform water distribution in the volume of fuel. In this case, it is possible to eliminate its stratification not only with the use of expensive surfactants, but also with the use of technologies, ensuring the stability of such fuel due to the formation of a finely dispersed emulsion. The stability and efficiency of combustion of such a fuel emulsion (FE) will significantly depend on the amount and water dispersion in the WEF. Nowadays such WEF technologies for emulsifying and their features are insufficiently studied and therefore have great scientific and practical importance. The existing classifications of emulsification methods (EM) are diverse, which makes it impossible to analyze the possibilities, functionality, and practicability of choosing the optimal EM for obtaining a high-quality emulsion. On the basis of the analysis of the existing EM classifications, the improved classification is proposed, which combined the possible EM and devices. The expediency of using a specific EM depends on the parameters of the FE and its needs, scope, conditions and purpose of application. It is effective to use for an industrial scale the devices that work with discrete-pulse energy input technology (DPEI). However, you can use the sound EM, using the UZDN-A disperser and the UZG-34 generator for laboratory studies.

Downloads

Download data is not yet available.

References

DSTU 4058-2001 Derzhavnyi standart Ukrainy. Palyvo naftove. Mazut. Tekhnichni umovy. [in Ukrainian]

Ivanov V. M. Toplivnyie emulsii. M,: Izd-vo AN SSSR. 1962. P. 407. [in Russian]

Melnyk, V. O. Vplyv skladu ta dyspersnosti vodoemulsiinykh palyv na ekolohichni ta ekonomichni pokaznyky horinnia. Oil and Gas Power Engineering. 2020. No 1(33), P. 124-131. https://doi.org/10.31471/1993-9868-2020-1(33)-124-131 [in Ukrainian]

Yushkov Nikolay Borisovich. Issledovanie dinamicheskih protsessov v protochnom volnovom generatore ploskogo tipa dlya formirovaniya tonkodispersnyih emulsiy iz ne smeshivayuschihsya sred: dissertatsiya ... kandidata tehnicheskih nauk: 01.02.06 / Yushkov Nikolay Borisovich; [Mesto zaschityi: Institut mashinovedeniya im. A.A.Blago-nravova RAN – Uchrezhdenie Rossiyskoy akademii nauk]. Moskva, 2014. 142 p. [in Russian]

Kleyton V. Emulsii. Ih teoriya i tehnicheskie primeneniya: M.: Izd-vo inostr. lit., 1950. 603 p. [in Russian]

Sherman F. Emulsii: Per. s angl. L.: Himiya, 1972. 448 p. [in Russian]

Tuv I.A. Szhiganie obvodnennyih mazutov v sudovyih kotlah. L.: Sudostroenie. 1968. P. 314. [in Russian]

Dolinskiy A. A., Pavlenko A. M., Basok B. I. Teplofizicheskie protsessyi v emulsiyah. Kiev: Naukova dumka, 2005. 264 p. [in Russian]

Gorelik G. B. Vodotoplivnaya emulsiya - alternativnoe toplivo XXI veka: monografiya. Khabarovsk: Izd-vo Tihookean. gos. un-ta, 2019. 202 p. [in Russian]

Morozova E. A. Razrabotka i issledovanie tehnologii emulgirovaniya mazuta s tselyu optimizatsii rezhimov goreniya v topke dlya povysheniya nadezhnosti, ekonomichnosti i ekologicheskoy bezopasnosti energeticheskih kotlov: dissertatsiya ... kandidata tehnicheskih nauk: 05.14.01 [Mesto zaschityi: Mosk. energet. in-t]. Moskva, 2008. 143 p. [in Russian]

Mchedlov-Petrosian M. O., Lebid V. I., Hlazkova O. M., Lebid O. V. Koloidna khimiia: pidruchnyk / za red. prof. M. O. Mchedlova-Petrosiana. 2-he vyd., vypr. i dop. Kh.: KhNU imeni V. N. Karazina, 2012. 500 p. [in Ukrainian]

Bauman K. V., Kots I. V. Kavitatsiina tekhnolohiia vyhotovlennia bitumnykh emulsii : monohrafiia. Vinnytsia: VNTU, 2013. 128 p. [in Ukrainian]

Diskretno-impulsnyiy vvod energii v teplotehnologiyah / A.A. Dolinskiy, B.I. Basok, S.I. Gulyiy, A.I. Nakorchevskiy, Yu.A. Shurch-kova. K.: Nauchnaya kniga, 1996. 208 p. [in Russian]

Vedruchenko V.R., Kraynov V.V. Optimizatsiya podgotovki tyazhelogo zhidkogo topliva k szhiganiyu v topkah kotelnyih i drugih toplivoszhigayuschih stanovok. Omskiy nauchnyiy vestnik (Omskiy gosudarstvennyiy universitet putey soobscheniya). 2015. No 2. P. 144-147. [in Russian]

Grabova T. L. Dispergirovanie geterogennyih sistem v rotorno-pulsatsionnyih apparatah diskovo-tsilindricheskogo tipa [Tekst] : dis... kand. tehn. nauk: 05.14.06 / Grabova Tatyana Leonidovna ; In-t tehn. teplofiziki NAN Ukrainyi. K., 2007. 221 p. - Bibliogr.: P. 178-189. [in Russian]

Published

29.12.2020

How to Cite

Melnyk V. О. (2020). Improvement of classification of emulsion production methods. Oil and Gas Power Engineering, (2(34), 75–83. https://doi.org/10.31471/1993-9868-2020-2(34)-75-83

Issue

Section

NEW SOLUTIONS IN MODERN EQUIPMENT AND TECHNOLOGIES

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.