Effect of Various Coolant Characteristics and Heating Surface Corrosion on Nucleate Boiling Heat Transfer in IC Engine Cooling System
- Delivery
- Available on this site
- Format
- Price
- Non-members (tax incl.):¥1,100 Members (tax incl.):¥880
- Publication code
- 20215266
- Paper/Info type
- Proceedings (Spring)
No.60-21
- Pages
- 1-8(Total 8 p)
- Date of publication
- May 2021
- Publisher
- JSAE
- Language
- English
- Event
- 2021 JSAE Annual Congress (Spring)[Online Meeting]
Detailed Information
Author(E) | 1) Haoyu Chen, 2) Koki Asano, 3) Ryota Shindo, 4) Ayumi Homma, 5) Naoya Kimata, 6) Takaki Nakaya, 7) Kakeru Nakamura, 8) Emir Yilmaz, 9) Takashi Suzuki, 10) Mitsuhisa Ichiyanagi |
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Affiliation(E) | 1) Sophia University, 2) Sophia University, 3) Sophia University, 4) Sophia University, 5) Sophia University, 6) Sophia University, 7) Sophia University, 8) Sophia University, 9) Sophia University, 10) Sophia University |
Abstract(E) | To improve the cooling system of ICEs, the development of the nucleate boiling heat transfer is desired. Our previous study revealed the relationship between the water nucleate boiling heat flux and dimensionless number. To simulate a real engine, the present study measured the nucleate boiling heat fluxes by using LLC and water, under various conditions (flow velocity, subcooling, etc.). Furthermore, the heat fluxes were compared using LLC with and without anti-rust agent. It was confirmed that the corrosion was generated on the heating surface when using the LLC without anti-rust agent and the corrosion affected heat transfer substantially. |