Yoshiyuki Asakura
Overview
Explore the profile of Yoshiyuki Asakura including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
80
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Recent Articles
1.
Asakura Y, Yasuda K
Ultrason Sonochem
. 2021 Dec;
82:105890.
PMID: 34954631
We investigated the time variation of ultrasonic degassing for air-saturated water and degassed water with a sample volume of 100 mL at frequencies of 22, 43, 129, 209, 305, 400,...
2.
Asakura Y, Yasuda K
Ultrason Sonochem
. 2021 Dec;
81:105858.
PMID: 34894526
The dependence of the sonochemical reaction on ultrasonic intensity was studied over a wide frequency range of 22-1960 kHz and sample volume range of 25-200 mL. The effect of a...
3.
Jin J, Matsuoka M, Asakura Y
Ultrason Sonochem
. 2020 Jul;
69:105249.
PMID: 32668386
Sonochemiluminescence (SCL) from aqueous solution of lucigenin (Luc) has been studied using aliphatic amines as coreactant. The SCL intensity are strongly dependent on the dissolved gases such as air, oxygen,...
4.
Yasuda K, Nguyen T, Asakura Y
Ultrason Sonochem
. 2018 Mar;
43:23-28.
PMID: 29555280
Cross-sectional area distribution of broadband noise in a sonochemical reactor was measured to estimate reaction fields. A needle-type hydrophone scanned the sonochemical reactor in horizontal and vertical directions at one-millimeter...
5.
Nguyen T, Asakura Y, Koda S, Yasuda K
Ultrason Sonochem
. 2017 Jul;
39:301-306.
PMID: 28732949
Cavitation, chemical effect, and mechanical effect thresholds were investigated in wide frequency ranges from 22 to 4880kHz. Each threshold was measured in terms of sound pressure at fundamental frequency. Broadband...
6.
Yasuda K, Mochida K, Asakura Y, Koda S
Ultrason Sonochem
. 2014 Mar;
21(6):2026-31.
PMID: 24613472
The generation rate of ultrasonically atomized droplets and the alcohol concentration in droplets were estimated by measuring the flow rate and the alcohol concentration of vapors from a bulk solution...
7.
Toma M, Fukutomi S, Asakura Y, Koda S
Ultrason Sonochem
. 2010 Jul;
18(1):197-208.
PMID: 20655791
It would seem that the economic viability is yet to be established for a great number of sonochemical processes, owning to their perfectible ultrasonic equipments. Industrial scale sonoreactors may become...
8.
Kojima Y, Asakura Y, Sugiyama G, Koda S
Ultrason Sonochem
. 2010 Jan;
17(6):978-84.
PMID: 20044295
Visualization of cavitation behavior in a rectangular sonochemical reactor at 490 kHz was carried out by a laser sheet technique and the distribution of liquid flow was measured by a...
9.
Asakura Y, Nishida T, Matsuoka T, Koda S
Ultrason Sonochem
. 2007 Jun;
15(3):244-50.
PMID: 17548225
The sonochemical efficiency of a cylindrical sonochemical reactor has been investigated as a function of frequency and liquid height. The irradiation frequencies were 45, 129, 231 and 490 kHz. The...
10.
Yasuda K, Torii T, Yasui K, Iida Y, Tuziuti T, Nakamura M, et al.
Ultrason Sonochem
. 2007 Mar;
14(6):699-704.
PMID: 17336130
The ultrasonic reactor with dual frequency was used and the effect of frequency on the fluorescence intensity of terephthalate ion was experimentally investigated in the frequency range from 176 to...