Fujino, Risako

写真a

Affiliation

Faculty of Science and Technology, Department of Mechanical Engineering ( Yagami )

Position

Assistant Professor (Non-tenured)/Research Associate (Non-tenured)/Instructor (Non-tenured)
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Papers 【 Display / hide

  • PM2.5 Concentration Decreases with Snowfall as Revealed by Surface Observation Data

    Fujino R., Miyamoto Y., Kiryu T.

    Scientific Online Letters on the Atmosphere 21   101 - 107 2025

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    The quantitative relationship between the observed snowfall and PM2.5 concentration data collected at Niigata Prefecture, Japan, was examined. The PM2.5 concentration decreased as snowfall increased. A composite analysis revealed that the PM2.5 concentration decreased by 27.33% from 1 h before to 1 h after the onset of snowfall, which is statistically significant. The average PM2.5 concentration for all snowfall events decreased over a total of three hours, from 2 h before to 1 h after the onset of snowfall. The average PM2.5 scavenging rate for all snowfall events was 6.15 × 10−6 s−1, which was much higher than that for rainfall events. The scavenging rates were positive at relative humidity (RH) between 50% and 75% and above 95%. It is suggested that the deposition processes of wet scavenging are effective, both in reducing PM2.5 concentration during snowfall and in the RH dependence of scavenging rates.

  • PM2.5 decrease with precipitation as revealed by single-point ground-based observation

    Fujino R., Miyamoto Y.

    Atmospheric Science Letters 23 ( 7 )  2022.07

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    This study analyzed the observed data of precipitation and PM<inf>2.5</inf> concentration collected over two and a half years at Tsujido, Fujisawa City, to examine a quantitative relationship between the two quantities. It was observed that the PM<inf>2.5</inf> concentration decreased as precipitation increased. A composite analysis revealed that the PM<inf>2.5</inf> concentration on average decreases by 20.99% 1 h after the onset of precipitation as compared to that 1 h before, which is statistically significant based on a paired t-test. The PM<inf>2.5</inf> concentrations decreased over 8 h period from 5 h (−5 h) before to 3 h (+3 h) after the onset of precipitation, with a particularly dramatic decrease at the onset of precipitation. Analysis of PM<inf>2.5</inf> scavenging rates by precipitation intensity showed that the scavenging rate was 2.03% for light precipitation events, 28.15% for moderate precipitation events, and 26.75% for heavy precipitation events, indicating that the scavenging rate increased with moderate precipitation intensity and above. It is suggested that the deposition processes of rainout and washout are effective in reducing PM<inf>2.5</inf> concentration with precipitation.

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Courses Taught 【 Display / hide

  • LABORATORY IN SCIENCE

    2026

  • LABORATORIES IN SCIENCE AND TECHNOLOGY

    2026

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