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Title The D2-Law of Droplet Evaporation When Calculating the Droplet Evaporation Process of Liquid Containing Solid State Catalyst Particles
Authors Ochowiak, M.
Bielecki, Z.
Bielecki, M.
Włodarczak, S.
Krupińska, A.
Matuszak, M.
Choiński, D.
Lewtak, R.
Pavlenko, Ivan Volodymyrovych  
ORCID http://orcid.org/0000-0002-6136-1040
Keywords droplet evaporation
D2-law of droplet evaporation
combustion
dust duct
catalyst
Type Article
Date of Issue 2022
URI https://essuir.sumdu.edu.ua/handle/123456789/90181
Publisher MDPI
License Creative Commons Attribution 4.0 International License
Citation Ochowiak, M.; Bielecki, Z.; Bielecki, M.; Włodarczak, S.; Krupińska, A.; Matuszak, M.; Choiński, D.; Lewtak, R.; Pavlenko, I. The D2-Law of Droplet Evaporation When Calculating the Droplet Evaporation Process of Liquid Containing Solid State Catalyst Particles. Energies 2022, 15, 7642. https://doi.org/10.3390/en15207642
Abstract The review presents the D2-law of droplet evaporation, which is used to describe the spraying process involving the evaporation of droplets. This law, the subject of numerous publications, can be successfully applied to describe the droplet evaporation process under various conditions, including the calculations of the process of feeding the boiler with a liquid that contains catalyst particles. To date, not a lot of work has been devoted to this issue. The paper is a continuation of previous research concerning the spraying of liquids with a catalyst, which improves the efficiency of the process. The conducted analysis showed that the experimental data from previously published work are very compatible with the data obtained from the D2-law of droplet evaporation. At the standard speed of about 20 m/s of an aerosol flowing through a dust duct, droplets in the stream should be observed up to a distance of 1 m from the outlet of the apparatus supplying the system. Under such flow conditions, a droplet’s lifetime must be above 0.05 s. The dependence between a droplet’s lifetime and its diameter and temperature was determined. The obtained results confirmed that the effective droplet diameter is above 30 µm. Such droplets must be generated and then fed to the boiler for the catalyst to work properly. This law is an engineering approach to the problem, which uses relatively simple model equations in order to determine the evaporation time of a droplet.
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