Journal of the Korean Society of Fisheries and Ocean Technology (수산해양기술연구)
- Volume 28 Issue 4
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- Pages.418-429
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- 1992
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- 2671-9940(pISSN)
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- 2671-9924(eISSN)
An Experimental Study on Evaporation and Ignition of the Single Droplet on Hot Surface
단일액적어류의 증발 , 착화에 관한 실험적 연구 - 가열 표면상에 적하할 경우 -
- Jang, Jae-Eun (Dongmyeong Technology High School) ;
- An, Su-Gil (National Fisheries University of Pusan)
- Published : 1992.12.01
Abstract
Recently, many researchers make a great effort to develop high efficient marine diesel engines using low grade heavy oil, and also study substitution fuel oil for engines and boilers. In case of Fisheries Vessels, we need to know that fish oil can be substituted for fuel oil. Therefore, it is studied that evaporation, ignition and combustion phenomena of the single droplet of fish oils (i.e., Sardine fish oil, File fish oil and Alaska pollac oil) on heated plane surface to evaluate appropriateness as substitution oil. Methanol and light oil are tested simultaneously to help the evaluation on these Fish oils. The results are summarized as follows: 1. The type of evaporation and combustion is spherical evaporation in case of methanol and light oil. And fish oil blended with light oil was finished after spherical evaporation happen when high temperature. 2. Ignition of Pure fish oil was shorter than that of fish oil blended with light oil. 3. Heat transferred to droplet could make qualitative comparison by contact diameter of droplet with hot surface as time changes. Life time of droplet according to the change of heated surface temperature was greatly influenced by droplet contact condition on the heated surface. 4. As far as combustion phenomena was concerned, apparent diameter of the fish oil droplet increased after ignition and decreased suddenly by internal boiling of droplet. 5. Three fish oils had similar phenomena on the evaporation, ignition and combustion. 6. Evaporation and combustion feature of fish oil could not be shown by coefficient of evaporation velocity of droplet and coefficient of combustion velocity of droplet.
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