The effect of pressure and frequency on the dynamic behavior and evaporation time of successive water droplets impacting onto hot surface

Wibowo, Teguh; Widyatama, Arif; Kamal, Samsul

doi:10.1051/matecconf/201815401107

Cited by 3 publications

(2 citation statements)

References 6 publications

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“…The experimental apparatus used in the present experimental study is similar to that of previous work [8] as shown in Figure 1. An induction stove was used to heat the specimen.…”

Section: Methodsmentioning

confidence: 97%

The effects of surface tension on the spreading ratio during the impact of multiple droplets onto a hot solid surface

et al. 2018

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The impact between multiple droplets onto hot surface is an important process in a spray cooling. The present study was conducted to investigate the dynamics of multiple droplet impact under various surface tensions. Here, the ethylene glycol with compositions of 0%, 5%, and 15% was injected through a nozzle onto stainless steel surface as the multiple droplet. The solid surface was heated at the temperatures of 100 °C, 150 °C, and 200 °C. To observe the dynamics of multiple droplets, a high speed camera with the frame rate of 2000 fps was used. A technique of image processing was developed to determine the maximum droplet spreading ratio. As the result, the surface tension contributes significantly to maximum spreading ratio. As the droplet surface tension decreases, the maximum spreading ratio increases. The maximum spreading ratio appears when the percentage of the ethylene glycol is 15% at the temperature of 150°C. From the visual observation, it is shown that a slower emergence of secondary droplets (droplet splashing) is carried out under a lower surface tension. Hence, surface tension plays an important role on the behavior of emerging secondary droplets. Furthermore, results of the experiments are useful for the validation of available previous CFD models.

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“…The experimental apparatus used in the present experimental study is similar to that of previous work [8] as shown in Figure 1. An induction stove was used to heat the specimen.…”

Section: Methodsmentioning

confidence: 97%

The effects of surface tension on the spreading ratio during the impact of multiple droplets onto a hot solid surface

et al. 2018

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“…Penelitian ini menggunakan eksperimen yang sama dengan beberapa penelitian sebelumnya (Wibowo, Widyatama, Kamal, Indarto, & Deendarlianto, 2018;Riswanda, Pranoto, Deendarlianto, Indarto, & Wibowo, 2018). Skema dari peralatan eksperimen dapat dilihat pada Gambar 1 yang secara umum terbagi menjadi beberapa komponen utama yaitu droplet generator, pemanas induksi serta benda uji, dan sistem penerangan.…”

Section: Metode Penelitianunclassified

Experimental Study on the Phenomena on the Successive Droplets Impacting Hot Copper Surfac

Widyatama

Majid²,

Wibowo

et al. 2019

JPS

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This study was aimed at investigating the phenomena and interactions between water droplets and hot metal surfaces using an experimental method. In this study, the droplet was dropped from 50 mm from the top of the metal surface with a frequency of 8.5 droplets per second. The observed droplet diameter was 3.12 mm. The metal used was copper with a surface temperature between 110-240 ° C. High speed video camera with a speed of 2000 fps was used to record visual data. Then the image processing technique was applied to calculate the change in droplet diameter. The results show that at low temperatures, droplets tend to maintain their initial position of contact with fluctuating deformations. While at high temperatures, a bounce phenomenon occurs which results in collisions between droplets being imperfect. Visualization results can reveal the complete change in the droplet geometry in the form of spreading ratio and complete apex height. The temperature of 140° C is the initial transition area for phenomena that result in droplets has no contact with hot surfaces so that the process of heat transfer between surfaces is inhibited.STUDI EKSPERIMEN PADA FENOMENA SUCCESSIVE DROPLETS MENUMBUK PERMUKAAN TEMBAGA PANASPenelitian ini bertujuan untuk mempelajari fenomena dan interaksi antara tetesan air (droplet) dan permukaan logam panas dengan metode eksperimental. Pada penelitian ini, droplet dijatuhkan dari posisi 50 mm dari atas permukaan logam dengan frekuensi 8,5 droplet per detik. Diameter droplet yang diamati sebesar 3,12 mm. Logam yang digunakan adalah tembaga dengan temperatur permukaan di antara 110-240° C. High speed video camera dengan kecepatan 2000 fps digunakan untuk merekam data visual. Teknik image processing diaplikasikan untuk menghitung perubahan diameter droplet. Hasil penelitian menunjukkan bahwa pertama, pada temperatur rendah, droplet cenderung mempertahankan posisi awal kontak dengan perubahan bentuk yang fluktuatif. Kedua, temperatur tinggi, terjadi fenomena bouncing yang mengakibatkan tumbukan antar droplet menjadi tidak sempurna. Hasil visualisasi dapat mengungkap perubahan geometri droplet berupa spreading ratio dan apex height secara lengkap. Dari penelitian ini juga diketahui bahwa temperatur 140°C menjadi daerah transisi awal terjadinya fenomena yang mengakibatkan droplet tidak bersinggungan dengan permukaan panas sehingga proses perpindahan kalor antar permukaan terhambat.

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Characteristics of successive droplets impacting hot aluminum surface around nucleate boiling regime

Widyatama

Majid

Wibowo

et al. 2020

The 5th International Conference on Industrial, Mechanical, Electrical, and Chemical Engineering 2019 (Icimece 2019)

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The effect of pressure and frequency on the dynamic behavior and evaporation time of successive water droplets impacting onto hot surface

Cited by 3 publications

References 6 publications

The effects of surface tension on the spreading ratio during the impact of multiple droplets onto a hot solid surface

The effects of surface tension on the spreading ratio during the impact of multiple droplets onto a hot solid surface

Experimental Study on the Phenomena on the Successive Droplets Impacting Hot Copper Surfac

Characteristics of successive droplets impacting hot aluminum surface around nucleate boiling regime

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