K
Koji Enoki
Researcher at University of Electro-Communications
Publications - 40
Citations - 295
Koji Enoki is an academic researcher from University of Electro-Communications. The author has contributed to research in topics: Heat transfer & Heat transfer coefficient. The author has an hindex of 8, co-authored 34 publications receiving 155 citations. Previous affiliations of Koji Enoki include Tokyo University of Agriculture and Technology.
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Nanoparticle layer detachment and its influence on the heat transfer characteristics in saturated pool boiling of nanofluids
TL;DR: In this paper, a peeling test was conducted for the nanoparticle layer formed during nucleate boiling of the water-based nanofluids to measure the adhesion force.
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Boiling Heat Transfer and Pressure Drop of a Refrigerant R32 Flowing in a Small Horizontal Tube
TL;DR: In this article, the authors examined the characteristics of flow boiling heat transfer and pressure drop of a low global warming potential refrigerant R32 flowing in a horizontal copper circular tube with 1.0mm inside diameter for the development of a high-performance heat exchanger using small-diameter tubes or minichannels for air conditioning systems.
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Droplet generation during liquid jet impingement onto a horizontal plate
TL;DR: In this article, a liquid jet was emanated vertically downward from a circular nozzle hole onto a horizontal disk to measure the total amount and the maximum size of splashed droplets, and a prediction method was first developed for the impact frequency of the primary droplets produced due to the jet breakup.
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Effects of surface tension and viscosity on liquid jet breakup
Yi Zhan,Yusuke Kuwata,Kiyotaka Maruyama,Tomio Okawa,Koji Enoki,Mitsuhiro Aoyagi,Takashi Takata +6 more
TL;DR: In this paper, the authors explored the breakup process of liquid jet through visualization using a high-speed camera to develop a prediction model for the impact frequency (the number of droplet passing per unit time).
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Static analysis of a new scheme of two stage refrigeration cycle with the combination of FAM Z01 and FAM Z05 adsorbents
TL;DR: In this article, the performance of two stage cycle with the Z01 and Z05 combination of adsorbent pair, and to compare the performance with that of the conventional two-stage cycle using Silica-gel.