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Abstrakty
This paper aims to iiwestigate heat flow in fuel/water emulsion droplet using ANSYS Fluent code. A model was tested under different boundary conditions including various flow temperatures, velocities, droplet sizes, water contents, etc. The rate of a temperaturę increment was monitored inside dispersed phase droplets. The obtained results were compared to find out in which case boiling point was reached in all water droplets simultaneously. Such a temperaturę distribution is suspected to be the main condition for microexplosion occurrence. However, this should be confirmed experimentally. Simulations show that a higher temperaturę and a smaller droplet diameter may promote microexplosion. Also it appears that there exists an optimal flow velocity, when the difference of time of reaching boiling point for every water droplet is the smallest. The minor, but a very interesting observation concerns a negligible impact of water presence on heat distribution. It has been shown that treating an emulsion droplet as a continuum with an averaged specific heat of water and oil may result in an error less than 1%. It is an useful conclusion that enables the analytical approach to the problem. The obtained results provide a solid basis for further experimental research.
Czasopismo
Rocznik
Tom
Strony
1--10
Opis fizyczny
Bibliogr. 13 poz., rys.
Twórcy
autor
- Warsow University of Technology Institute of Heat Engineering Nowowiejska 21/25, 00-665 Warsaw, Poland
autor
- Warsow University of Technology Institute of Heat Engineering Nowowiejska 21/25, 00-665 Warsaw, Poland
Bibliografia
- [1] Launius RD. lnnovation and the development of flight. Texas A&M University Press; 1999, p. 117-118.
- [2] Alahmer A, Yamin J, Sakhrieh A, Hamdan MA. Engine performance using emulsified diesel fuel. Energy Conversion and Management 51; 2010, p. 1708-1713.
- [3] Regulation (EC) No 715/2007 of the European Parliament and of the Council of 20 June 2007 on type approval of motor vehicles with respect to emissions from light passenger and commercial vehicles (Euro 5 and Euro 6) and on access to vehicle repair and maintenance information, http://eur-lex.europa.eu/legal-content/EN/TXT/?uri=celex:32007R0715.
- [4] Mingrui W, Sa NT, Turkson R, Jinping L, Guanlun G. Water injection for higher engine performance and lower emissions. Journal of the Energy Institute 90; 2017, p. 285-299. [5] Khan MY, Karim A, Hagos FY, Azis ARA, Tan IM. Current Trends in Water-in-Diesel Emulsion as a Fuel. Hindawi Publishing Corporation Scientific World Journal Vol. 2014; 2014, Article ID 527472
- [6] Ni P, A fuel droplet vaporization model in a hot air stream. Applied Mathematical Modelling 34; 2010, p. 2370-2376.
- [7] Wang F, Yao J, Yang S, Liu R, Jin J. A new stationary droplet evaporation model and its validation. Chinese Journal of Aeronautics 30(4); 2017, p. 1407-1416.
- [8] Zubkov VS, Cossali GE, Tonini S, Rybdylova O, Crua C, Heikal M, Sazhin SS. Mathematical modelling of heating and evaporation of a spheroidal droplet. International Journal of Heat and Mass Transfer 108; 2017, p. 2181-2190.
- [9] Li J, Zhang J. A theoretical study of the spheroidal droplet evaporation in forced convection. Physics Letters A 378; 2014, p. 3537-3543.
- [10] Jangi M, Kobayashi H. Heat and mass transfer of a fuel droplet evaporating in oscillatory flow. International Joumal of Heat and Fluid Flow 30; 2009, p. 729-740.
- [11] Morozumi Y, Kitamura Y, Matsuoka A, Saito Y. A Study of the Occurrence of Microexplosion in a Single Water-in-Oil Emulsion Droplet. Journal of Chemical Engineering of Japan, Vol. 43, No. 4; 2010, p. 381-388.
- [12] Watanabe H, Suzuki Y, Harada T, Matsushita Y, Aoki H, Miura T. An experimental investigation of the breakup characteristics of secondary atomization of emulsified fuel droplet. Energy 35; 2010, p. 806-813.
- [13] Fu WB, Hou LY, Wang L, Ma FH. A unified model for the micro-explosion of emulsified droplets of oil and water. Fuel Processing Technology 79; 2002, p. 107-119.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e140f51c-4bd4-4630-8236-43605ca6868d