A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model

Journal of Advanced Research in Fluid Mechanics and Thermal Sciences
Volume 65, No. 2, January 2020, Pages 303-313

Engkos Achmad Kosasih1,*, Hakan Tandjono1, D. Prasetyo1
1 Department of Mechanical Engineering, Mechanical Engineering, Faculty of Engineering, University of Indonesia, 16424 Depok, Jawa Barat, Indonesia
*Corresponding author: kossri@eng.ui.ac.id

KEYWORDS

Droplet; non-stationary; heat and mass transfer model; 2-butanol; a new approach to Stagnant Film Model

ABSTRACT

In many different applications, non-stationary liquid droplet evaporation phenomenon works as a fundamental. An accurate prediction of heat and mass transfer on non-static droplet is required for design. Ranz-Marshall analogy combined with the Stagnant film Model is utilized method of predicting single non-stationary high mass transfer rate droplet evaporation, but there are several problems regarding to the method such as Lewis number more than one, static film width, and not simultaneously calculates heat and mass transfer. In this paper, A new approach to Stagnant Film Model and its new introduced constant is briefly discussed. The value of C1 and C2 is investigated by comparing 2-butanol evaporation numerical simulation with experimental data. The New Approach deviated less when predicting radius while both still failed to predict changes in temperature. The appropriate value of C1 on predicting the right radius varied between -0.010 to -0.035 while the value of C2 is -4 x 10-8. For different set-up variables, the value of C1 differs. Therefore, the value of C1 supposed be a function that can be furtherly investigated with the following research on other substances.

CITE THIS ARTICLE

MLA
Engkos, Achmad Kosasih, et al. “A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model.” Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 65.2 (2020): 303-313.

APA
Engkos, A. K., Hakan, T., & Prasetyo, D.(2020). A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 65(2), 303-313.

Chicago
Engkos Achmad Kosasih, Hakan Tandjono, and D. Prasetyo. “A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model.” Journal of Advanced Research in Fluid Mechanics and Thermal Sciences. 65, no. 2 (2020): 303-313.

Harvard
Engkos, A.K., Hakan, T., and Prasetyo, D., 2020. A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 65(2), pp. 303-313.

Vancouver
Engkos AK, Hakan T, Prasetyo D. A Study on 2-Butanol Droplet: Analysis of Introduced Constant in The New Approach on Film Stagnant Model. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences. 2020;65(2): 303-313.

REFERENCES

[1] Xiao, Guowei, Kai H. Luo, Xiao Ma, and Shijin Shuai. “A molecular dynamics study of fuel droplet evaporation in sub-and supercritical conditions.” Proceedings of the Combustion Institute 37, no. 3 (2019): 3219-3227.
[2] Wang, Xiaorong, Minglu Dai, Jigang Wang, Yulong Xie, Guilong Ren, and Genzhu Jiang. “Effect of ceria concentration on the evaporation characteristics of diesel fuel droplets.” Fuel 236 (2019): 1577-1585.
[3] Chakraborty, Soma, Marc A. Rosen, and Brendan D. MacDonald. “Analysis and feasibility of an evaporative cooling system with diffusion-based sessile droplet evaporation for cooling microprocessors.” Applied Thermal Engineering 125 (2017): 104-110.
[4] Fisenko, S. P., A. A. Brin, and A. I. Petruchik. “Evaporative cooling of water in a mechanical draft cooling tower.” International Journal of Heat and Mass Transfer 47, no. 1 (2004): 165-177.
[5] Wang, Chao, Ruina Xu, Yu Song, and Peixue Jiang. “Study on water droplet flash evaporation in vacuum spray cooling.” International Journal of Heat and Mass Transfer 112 (2017): 279-288.
[6] Bhandari, Bhesh R., Nidhi Bansal, Min Zhang, and Pierre Schuck, eds. Handbook of food powders: Processes and properties. Elsevier, 2013.
[7] Derby, Brian. “Inkjet printing of functional and structural materials: fluid property requirements, feature stability, and resolution.” Annual Review of Materials Research 40 (2010): 395-414.
[8] Hu, Jianlin, Ke Xu, Yao Wu, Binhuan Lan, Xingliang Jiang, and Lichun Shu. “The freezing process of continuously sprayed water droplets on the superhydrophobic silicone acrylate resin coating surface.” Applied Surface Science 317 (2014): 534-544.
[9] Qian, Yejian, Peng Zhao, Changfa Tao, Shun Meng, Jiangjun Wei, and Xiaozhang Cheng. “Experimental study on evaporation characteristics of lubricating oil/gasoline blended droplet.” Experimental Thermal and Fluid Science 103 (2019): 99-107.
[10] Brutin, David, Benjamin Sobac, and Céline Nicloux. “Influence of substrate nature on the evaporation of a sessile drop of blood.” Journal of Heat Transfer 134, no. 6 (2012): 061101.
[11] Holman, Jack P. Heat transfer. McGraw-hill, 2010.
[12] Bird, R. Byron, Warren E. Stewart, and Edwin N. Lightfoot. “Transport phenomena.” second ed. New York: John Wiley & Sons 413 (1960).
[13] Kosasih, Engkos Achmad, Dwiki Prasetyo, Amudi Tua Siahaan, Ardiyansyah Yatim, and Agus Sunjarianto Pamitran. “Heat and mass transfer droplets of n-Hexane and n-Heptane towards temperature and rate of air flow rate variations.” In AIP Conference Proceedings, vol. 2062, no. 1, p. 020062. AIP Publishing, 2019.
[14] Kosasih, Engkos A., Iskandar Agung, Amudi T. Siahaan, and Dwiki Prasetyo. “Heat and mass transfer of ethanol and methanol droplets with temperature and air flow rates variations.” In AIP Conference Proceedings, vol. 2062, no. 1, p. 020056. AIP Publishing, 2019.
[15] Kosasih, E. A. “Perpindahan Panas dan Massa Dalam Proses Penguapan Tetesan: Suatu Pendekatan Baru Pada Model Film Stagnan (Doctoral Disertation).” In The 9th Quality in Research (QIR) International Conference, Indonesia (2006).
[16] Kosasih, Engkos Achmad, Abdul Aziz Rohman Hakim, and Muhammad Hussein. “Analysis of butanol droplet evaporation using modified stagnant film model.” In AIP Conference Proceedings, vol. 1983, no. 1, p. 020009. AIP Publishing LLC, 2018.
[17] Fang, W. A. N. G., Y. A. O. Jie, Y. A. N. G. Shaofeng, L. I. U. Rui, and J. I. N. Jie. “A new stationary droplet evaporation model and its validation.” Chinese Journal of Aeronautics 30, no. 4 (2017): 1407-1416.