Your search keyword '"Takaki, Koichi"' showing total 164 results

1. Postharvest quality evaluation of masu salmon (Oncorhynchus masou) during ice storage by spinal cord and bleeding

Author

Wang, Zhuolin, Lin, Yumeng, Lu, Xin, Afrin, Faria, Tian, Yuanyong, Hirai, Toshiaki, Takaki, Koichi, and Yuan, Chunhong

Published

2024

2. Impact and mechanism of bubble discharge plasma on ammonia nitrogen in wastewater

Author

Wang, Ranran, Zhang, Fan, Hu, Zhuran, Han, Feng, Guo, Bin, Takaki, Koichi, Yu, Kefeng, Miao, Chengxia, and Hou, Qin

Published

2024

3. Study on nucleotide, myofibrillar protein biochemical properties and microstructure of freeze-dried scallop striated muscle during storage and rehydration

Author

Wei, Huamao, Golam Rasul, Md., Sun, Zhongqi, Yang, Wenge, Huang, Tao, Yamashita, Tetsuro, Takaki, Koichi, and Yuan, Chunhong

Published

2022

4. 3D printing properties and printability definition of Pennahiaargentata surimi and rice starch

Author

Li, Gaoshang, Zhan, Junqi, Hu, Zhiheng, Huang, Jiayin, Luo, Xunyu, Chen, Jianchu, Yuan, Chunhong, Takaki, Koichi, and Hu, Yaqin

Published

2022

5. Identification of a new antioxidant peptide from porcine plasma by in vitro digestion and its cytoprotective effect on H2O2 induced HepG2 model

Author

Li, Gaoshang, Zhan, Junqi, Hu, Lingping, Yuan, Chunhong, Takaki, Koichi, Ying, Xiaoguo, and Hu, Yaqin

Published

2021

6. Effect of water ice-glazing on the quality of frozen swimming crab (Portunus trituberculatus) by liquid nitrogen spray freezing during frozen storage

Author

Yang, Shuibing, Hu, Yaqin, Takaki, Koichi, Yu, Haixia, and Yuan, Chunhong

Published

2021

7. Production of High-Power Nitrogen Sputtering Plasma for TiN Film Preparation.

Author

Sato, Taishin, Igarashi, Sawato, Takahashi, Katsuyuki, Mukaigawa, Seiji, and Takaki, Koichi

Subjects

TITANIUM nitride films, ELECTRON density, MAGNETIC flux density, NITROGEN plasmas, MAGNETIC confinement, GLOW discharges

Abstract

High-density nitrogen plasma was produced using a high-power pulsed power modulator to sputter titanium targets for the preparation of titanium nitride film. The high-power pulsed sputtering discharge unit consisted of two targets facing each other with the same electrical potential. The titanium target plates were used as target materials with dimensions of 60 mm length, 20 mm height, and 5 mm thickness. The gap length was set to be 10 mm. The magnetic field was created with a permanent magnet array behind the targets. The magnetic field strength at the gap between the target plates was 70 mT. The electrons were trapped by the magnetic and electric fields to enhance the ionization in the gap. The nitrogen and argon gases were injected into the chamber with 4 Pa gas pressure. The applied voltage to the target plates had an amplitude from −600 V to −1000 V with 600 μs in pulse width. The target current was approximately 10 A with the consumed power of 13 kW. The discharge sustaining voltage was almost constant and independent of the applied voltage, in the same manner as the conventional normal glow discharge. The ion density and electron temperature at the surface of the ionization region were obtained as 1.7 × 1019 m−3 and 3.4 eV, respectively, by the double probe measurements. The vertical distribution of ion density and electron temperature ranged from 1.1 × 1017 m−3 (at 6 cm from the target edge) to 1.7 × 1019 m−3 and from 2.4 eV (at 6 cm from the target edge) to 3.4 eV, respectively. From the emission spectra, the intensities of titanium atoms (Ti I), titanium ions (Ti II), and nitrogen ions (N2+) increased with increasing input power. However, the intensities ratio of Ti II to Ti I was not affected by the intensities from N2+. [ABSTRACT FROM AUTHOR]

Published

2024

8. Development of automatically controlled corona plasma system for inactivation of pathogen in hydroponic cultivation medium of tomato

Author

Takahashi, Katsuyuki, Saito, Yoshinori, Oikawa, Rikuya, Okumura, Takamasa, Takaki, Koichi, and Fujio, Takuya

Published

2018

9. Fabrication of diamond-like carbon films using short-pulse HiPIMS

Author

Konishi, Takumi, Yukimura, Ken, and Takaki, Koichi

Published

2016

10. The Effects of AC Electric Field on Ice Nucleation in the Super‐Cooling of a Distilled Water.

Author

Takahashi, Katsuyuki, Fujiwara, Yuri, Sawada, Yota, Takaki, Koichi, and Nakanishi, Masahiro

Subjects

ELECTRIC field effects, ICE fields, NUCLEATION, RATE of nucleation, ELECTRIC fields

Abstract

The effects of an AC electric field on ice nucleation temperature and nucleation rate were investigated by freezing distilled water while exposing it to varied AC electric field strengths and frequencies. To eliminate the influence of ion injections and electric field concentrations at a metal electrode surface on ice nucleation, distilled water filled in resin cuvettes are used as samples. The samples are exposed to AC electric field induced by parallel plate electrodes placed outside of the cuvettes. The cuvettes and parallel plate electrodes placed in a freezer with an inside temperature fixed at −15°C. The electric field strength in the sample is 2 or 7.5 kV/m and frequency varies from 50 Hz to 10 kHz. The ice nucleation temperature and the nucleation rate of distilled water increase with increasing the electric field strength and the frequency. © 2023 Institute of Electrical Engineer of Japan and Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]

Published

2024

11. Ultrastructural and biochemical changes of sarcoplasmic reticulum in spotted mackerel (Scomber australasicus Cuvier, 1832) muscle during cold storage at 5 °C.

Author

Liang, Jia, Wang, Zhuolin, Zhou, Lijun, Niu, Yabin, Yuan, Chunhong, Tian, Yuanyong, and Takaki, Koichi

Subjects

SARCOPLASMIC reticulum, COLD storage, MACKERELS, TRANSMISSION electron microscopy, OPTICAL microscopes

Abstract

Summary: Spotted mackerel were stored at 5 °C for 0–5 days. To reveal changes in freshness and provide the fundamental knowledge of sarcoplasmic reticulum (SR), structural and biochemical changes were investigated by optical microscope, transmission electron microscopy and biochemical detection, including pH, myosin Ca2+‐ATPase activity, adenosine 5′‐triphosphate (ATP) content, SR recovery field and SR Ca2+‐ATPase (SERCA) activity. The result exhibited that SR swelled on day 1 and ruptured after 2 days. Muscle structure showed significant changes from day 0 to day 5. SERCA activity and SR recovery field were 0.46 μm Pi/min/mg and 1.05 mg/g at day 0 and 0.106 μm Pi/min/mg and 0.109 mg/g at day 2, respectively, highly corresponding to the decline of pH, myosin Ca2+‐ATPase activity and ATP content with a significant difference from day 0 to days 1 and 2. The biochemical properties of SERCA exhibited the maximum activity at pH 6.8–7.0 (0.408 μmol Pi/min/mg). Treated at pH 5.5 for 80 min or incubated at 35 °C for 40 min inactivated SERCA of 80%. Therefore, keeping at a freezing temperature of 5 °C and maintaining SR functionality was essential to delay freshness decrease. [ABSTRACT FROM AUTHOR]

Published

2023

12. Effects of heating process on 3D printing properties of Pennahia argentata surimi: Water distribution, gel formation, rheology, chemical bonds.

Author

Li, Gaoshang, Zhan, Junqi, Hu, Zhiheng, Huang, Jiayin, Yuan, Chunhong, Takaki, Koichi, Hu, Yaqin, and Yao, Qian

Subjects

THREE-dimensional printing, WATER distribution, CHEMICAL bonds, SURIMI, TECHNOLOGICAL innovations, FOOD industrial waste, GELATION

Abstract

The gel is an important factor in 3D printability of Pennahia argentata surimi. While surimi gel is sensitive to temperature and influenced by chemical bonds changes. Hence, preheating effects on printing and material properties of surimi were investigated. Results shown hydrogen bonds and ionic bonds contents in surimi under different heating conditions decreased about 20%–90%. Meanwhile, hydrophobic force and disulfide bonds increased about 0.2–6 times. These changes formed more gel, as well as 6.5% at most immovable water transferred into free water which enhanced texture properties and made solid properties of rheology in surimi dominant. This phenomenon occurred significantly in temperature range of gel formation (35–40°C, 90°C) while became extinct at 45°C with 10–30 min due to gel degradation. These made surimi by heating exhibit strong mechanical strength, which is conducive to forming process when printing after extrusion. However, if they occurred before extrusion, these could increase extrusion difficulty to make filamentous materials be broken easily after extrusion, weakening printing effect. Hence, preheating of surimi before extrusion was not suitable for 3D printing. While short‐time heating during or after extrusion might be more appropriate for printed surimi, promoting the application of surimi in 3D printing technology. Practical Applications: 3D printing is a new technology in food processing that refers the process of connecting or curing materials to form 3D objects by continuously adding layers of materials. Surimi is one of the suitable materials which can promote the process of printing. While the material properties of surimi are affected by temperature that influences the printing effects. The purpose of this study was to investigate the effects of different temperatures on the material properties of Pennahia argentata surimi, and determine the suitable heating process of printed surimi products. These results could promote the application of 3D printing technology in surimi processing. [ABSTRACT FROM AUTHOR]

Published

2023

13. Effect of super-chilling storage on maintenance of quality and freshness of the Pacific oyster (Crassostrea gigas).

Author

Dong, Shiliang, Niu, Yabin, Wei, Huamao, Lin, Yumeng, Lu, Xin, Yamashita, Tetsuro, Yu, Kefeng, Takaki, Koichi, and Yuan, Chunhong

Subjects

PACIFIC oysters, SENSORY evaluation, ADENOSINE triphosphate, AMINO acids, MICROORGANISMS

Abstract

The quality changes of shelled Pacific oysters (Crassostrea gigas) were examined in relation to the effects of superchilling storage at −1 °C for 28 d by measuring changes in biochemical properties (microbial analysis, adenosine triphosphate (ATP)-related compounds, pH, free amino acids) and sensory evaluations in this study. The results indicated that microorganism growth was significantly inhibited during superchilling storage. Adenosine diphosphate (ADP) and adenosine monophosphate (AMP) accumulated while ATP rapidly decreased in the adductor muscle. ATP and ADP were the primary components in the other 3 tissues including mantle, gill, and body trunk of oysters, and they remained -relatively stable over time. The pH and adenylate energy charge in the adductor muscle could be utilized as freshness indicators for shelled oysters. However, there were no significant differences (P >0.05) among the free amino acids during whole storage. According to the sensory evaluations, oysters could be alive and tolerated up to 21 d at −1 °C storage. The study demonstrated that superchilling storage at −1 °C could better maintain the eating quality of shelled oysters and the shelf life was extended to 21 d. [ABSTRACT FROM AUTHOR]

Published

2023

14. Influence of electrode configuration on ozone synthesis and microdischarge property in dielectric barrier discharge reactor

Author

Takaki, Koichi, Hatanaka, Yuki, Arima, Kaname, Mukaigawa, Seiji, and Fujiwara, Tamiya

Published

2008

15. Hybrid plasma generation triggered by a shunting arc discharge using a positively biased electrode

Author

Yukimura, Ken, Imai, Takafumi, Takaki, Koichi, and Ikehata, Takashi

Subjects

Plasma physics -- Research, Dielectric films -- Optical properties, Dielectric films -- Thermal properties, Thin films -- Optical properties, Thin films -- Thermal properties, Electric arc -- Analysis, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

The recent trend in thin film deposition is to prepare ceramic films capable of enduring violent environments, such as corrosive pollutant gases with high temperatures. Different kinds of plasma species existing in the same space are advantageous in order to facilitate a reactive deposition between the gaseous and metallic species. In this paper, we study a carbon shunting arc that triggers a gas discharge using a positively biased electrode. An electrode with a positive voltage of up to 500 V was set nearby the carbon shunting arc source. Nitrogen, methane, or argon was used as an ambient gas. The induced plasma was generated with a time delay from the moment of the generation of the shunting arc. The electrical and optical characteristics of the discharge were studied. The onset time of the induced plasma as a function of the ambient gas pressure has a Paschen-like V-shaped characteristic. The generated plasma includes both carbon and gaseous species. At the surface of the positively biased electrode, both spectrum emissions of carbon and gaseous species are observed, by which the plasma is confirmed to be mixed. This is based on the spectrum observation in addition to the change in the color of the plasma. A shunting arc is an easy method used in generating a hybrid plasma consisting of metallic (including carbon) and gaseous species. This method promises to efficiently prepare ceramic films by reactive deposition. This method is simple, and both plasma species, i.e., those of metal and gas particles, are easily mixed. The carbon shunting arc plasma plays both the roles of supplying the carbon species and triggering a gaseous plasma as an induced plasma. Index Terms--Arc discharge, emission spectrum, hybrid plasma, Paschen's law, shunting arc discharge.

Published

2007

16. Pulsed ion extraction from a hybrid plasma using a shunting arc discharge

Author

Yukimura, Ken, Ego, Kenichi, Imai, Takahumi, Takaki, Koichi, Mukaigawa, Seji, and Fujiwara, Tamiya

Published

2007

17. Influence of metal foil width on bonding strength in capacitor discharge ceramics joining

Author

Takaki, Koichi, Mikami, Yousuke, Itagaki, Minoru, Mukaigawa, Seiji, Fujiwara, Tamiya, and Nakamura, Satoru

Subjects

Metal bonding -- Research, Image processing -- Analysis, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

A capacitor discharge joining technique used to fabricate an alumina-([Al.sub.2][O.sub.3]) tile-titanium-foil-[Al.sub.2][O.sub.3]-tile joint was investigated to clarify the influence of titanium foil width on bonding strength. A several-kiloampere pulse current was supplied from an 8.28-[micro]F storage capacitor to the titanium foil while simultaneously applying a pressure of 8.3 MPa to the joint. The temperature of the foil rapidly increases owing to ohmic heating with a large current. As a result, the titanium foil melts and vaporizes in a short time. The [Al.sub.2][O.sub.3] tiles were successfully bonded when the charged voltage in the capacitor was almost the same value as the energy required for vaporization of the titanium foils. The bonding strength increases with the energy input to the foil. The attainable bonding also increases with increasing shear strength from 150 to 300 kg, which in turn increases with increasing foil width from 1 to 7.5 mm for a 50-[micro]m-thick foil. The main reason of the shear-strength improvement was the increase of the joined area that was measured with image analysis of the joint surface. Index Terms--Alumina, ceramics joining, exploding, foil, pulse current, titanium.

Published

2006

18. Ion extraction from magnetically driven carbon shunting arc plasma

Author

Takaki, Koichi, Kumagai, Osamu, Mukaigawa, Seiji, Fujiwara, Tamiya, and Yukimura, Ken

Subjects

Carbon -- Properties, Carbon -- Research, Ion implantation -- Analysis, Ion implantation -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Shunting arc discharge is a pulsed plasma source of metals and semimetal materials and is ignited without any trigger sources at a wide range of gas pressures, from vacuum to atmospheric pressure under identical discharge conditions. In this paper, an ion extraction from magnetically driven carbon shunting arc discharge and a criterion of the arc ignition are described. A carbon rod with a diameter of 2 mm and a length of 40 mm was employed for arc ignition. The carbon rod was set in the vacuum and was initially heated up with a pulsed current supplied by a charged capacitor with a capacitance of 20 [micro]F, followed by self-ignition. The heating energy is almost independent of the charging voltage of the capacitor and changes with the rod position on the rail. The ions are extracted from the arc plasma by applying a negative pulse voltage to a target. The target current has a sharp peak at the initial stage, followed by a stationary state. The stationary current decreases with increasing the distance to the target from a muzzle of the shunting arc plasma gun. Under the assumption of a collisionless ion sheath, the ion density at a 20-mm target-muzzle distance is estimated as 1 x [10.sup.8] and 2 x [l0.sup.7] [cm.sup.-3] for the delay times of 250 and 1000 [micro]s, respectively. The density at a 250-[micro]s delay time decreases from 1 x [10.sup.8] to 0.8 x 108 [cm.sup.-3] by increasing the distance from 20 to 140 mm. The ion density increases as the charging voltage of the capacitor for arc generation is increased. Index Terms--Carbon, ion current, ion extraction, magnetically driven, plasma-based ion implantation (PBII), shunting arc.

Published

2006

19. Ferro-electric pellet shape effect on [C.sub.2][F.sub.6] removal by a packed-bed-type nonthermal plasma reactor

Author

Takaki, Koichi, Urashima, Kuniko, and Chang, Jen-Shih

Subjects

Plasma physics -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Ceramic dielectric material pellet shape effects on the performance of perfluoroethane ([C.sub.2][F.sub.6]) gas removal from simulated semiconductor process gas using packed-bed reactor' are experimentally investigated. The bench-scale cylindrical shaped (plasma part: 30-mm inner diameter and 20-mm length) plasma reactor consists of two metal mesh electrodes packed with spherical, cylindrical, or hollow cylindrical shaped ferro-electric pellets with various dielectric constants. The 60-Hz ac high voltage was applied to the mesh electrode. The 3000 ppm [C.sub.2][F.sub.6] gas diluted with nitrogen was used as simulated gas with flow rate of 30 mL/min. The [C.sub.2][F.sub.6] concentration was monitored using Fourier transform Infrared absorption spectroscopy measurements. The results show that the packed-bed plasma reactor with the hollow cylindrical-shaped pellets removed the [C.sub.2][F.sub.6] gas with energy efficiency of 3.7 g/kWh. This value was almost 1.5 times higher than the efficiency 2.5 g/kWh in case of the spherical pellets. The discharge characteristics in the reactor were also changed with the pellet shape. The discharge onset voltage decreases by changing the pellets shape from sphere to hollow cylinder. The quantity of charges accumulated with the microdischarge currents increases by changing the pellet shape from sphere to hollow cylinder in spite of fact that the energy consumed in the reactor decreases. Index Terms--[C.sub.2][F.sub.6], dielectric barrier discharge, ferro-electric, nonthermal plasma, packed bed, partial discharge, PFCs, semiconductor process flue gas.

Published

2004

20. Atmospheric pressure of nitrogen plasmas in a ferro-electric packed-bed barrier discharge reactor part II: spectroscopic measurements of excited nitrogen molecule density and its vibrational temperature

Author

Uchida, Yoshihisa, Takaki, Koichi, Urashima, Kuniko, and Chang, Jen-Shih

Subjects

Dielectrics -- Research, Business, Electronics, Electronics and electrical industries

Abstract

In order to validate a non-thermal plasma model using nitrogen in a ferro-electric packed-bed reactor, the number density of the excited nitrogen molecules has been investigated by spectroscopic measurements. Experiments were conducted at applied voltages from 0 to 20 kV, 60 Hz and gas flow rates from 1 to 5 L/min in pure nitrogen gas. The results show that the number density for excited [N.sub.2] molecules increases with increasing applied voltage and dielectric constant and agrees qualitatively with the numerical modeling results at lower applied voltage. The vibrational temperature of the [C.sup.3][II.sub.u] (v') state of [N.sub.2] has been calculated from the light intensity emitted by the 2nd positive band. The vibrational temperature decreases with increasing gas flow rate and no significant effects of the applied voltage and dielectric constant were observed. Index Terms--Packed bed, non-thermal plasma, nitrogen, partial discharge, ferro-electric, perfluorocarbons, volatile organic compounds, dielectric barrier discharge.

Published

2004

21. Atmospheric pressure of nitrogen plasmas in a ferro-electric packed bed barrier discharge reactor part I: modeling

Author

Takaki, Koichi, Chang, Jen-Shih, and Kostov, Konstantin G.

Subjects

Dielectrics -- Research, Business, Electronics, Electronics and electrical industries

Abstract

Numerical modelling of ferro-electric packed bed non-thermal plasma reactor has been conducted to predict plasma parameters in a pure nitrogen environment. Simplified time averaged one-dimensional physical model based on Poisson's equation for electric field and transport equation for electrons was developed. The mean electron energy was obtained by a swarm relationship from calculated electric field profiles and plasma neutral conditions. For chemical model, [N.sup.+], [N.sub.2.sup.+],[N.sub.3.sup.+],[N.sub.4.sup.+], N*, [N.sub.2]* and electron were considered where N* and [N.sub.2]* are the total excited atoms and molecules, respectively. The results show that all the plasma parameters increase with increasing applied ac voltage and pellet dielectric constant. The numerical results also show that the dominant ion is [N.sub.4.sup.+] and the metastable molecule density is much higher than radical and the electron densities at atmospheric gas pressure. Index Terms--Packed bed, dielectric barrier discharge, non-thermal plasma, nitrogen, partial discharge, ferro-electric, PFCs.

Published

2004

22. Effect of electrode shape in dielectric barrier discharge plasma reactor for NOx removal

Author

Takaki, Koichi, Shimizu, Masaki, Mukaigawa, Seiji, and Fujiwara, Tamiya

Subjects

Plasma (Ionized gases) -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

An experimental study on nitrogen oxides (NOx) removal from a simulated diesel engine exhaust gas was carried out in geometry of various electrodes for dielectric barrier discharge reactor to improve the removal efficiency. The electrodes employed in the experiment were a plane, a trench, and a multipoint geometry. The right-pyramids, which were used as multipoint, had 45[degrees] tip angle and a height of 1-5 mm. The multipoint electrodes have 528-5000 pyramids in an area of 132 [cm.sup.2] (22 x 6 cm). The trench electrode has knife-edge rails with 5-mm height and 45[degrees] tip angle. The alumina dielectric barrier coated plane electrode was used as a high-voltage electrode, to which a sinusoidal high voltage was applied with frequency of several tens kilohertz. The [N.sub.2] : [O.sub.2] : 9 : 1 mixed gas containing 200-ppm NO was used as simulated gas with gas flow rate of 5 L/min. NO removals in case of the plane and the trench electrodes were lower than that in case of multipoint one. NO removal yield drastically decreases with increasing the number of pyramids on the electrode. NO removal efficiency was almost independent of the pyramid projection height under our experimental condition. Index Terms--Dielectric barrier discharge (DBD), multipoint, nonthermal plasma, NOx removal.

Published

2004

23. Removal of nitric oxide in flue gases by multipoint to plane dielectric barrier discharge

Author

Takaki, Koichi, Jani, Muaffaq A., and Fujiwara, Tamiya

Subjects

Flue gases -- Research, Plasma (Ionized gases) -- Research, Nitric oxide -- Research, Dielectric devices -- Research, Plasma devices -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

An experimental study on the removal of N[O.sub.x] in flue gas has been carried out using plasma chemical reactions in a dielectric barrier discharge. A multipoint-to-plane geometry is used for electrode to lower the operating voltage. The effect of the multipoint electrode configuration on the characteristics of a discharge and N[O.sub.x] removal has been investigated. Plasma is produced in a narrow gap by a dielectric barrier discharge at low applied voltage with sinusoidal waveform of 2-3 kV rms Specific energy to reduce NO is 63 eV. Electric energy consumed in the discharge increases linearly with area of multipoint electrode, and is approximately 1 [Mu]J/point at 2.7 kV. In regard to the multipoint electrode configuration, the consumed energy can be increased by making angle of the point small. However, the energy efficiency of NO removal becomes small if the point angle is small. It also decreases with reducing the number of points per unit area. In regard to treatment of exhaust gas from a diesel engine generator (20 kVA), NO can be almost completely depleted by the multipoint-to-plane barrier discharge for electrical load below 35% of the rated output. Index Terms - Barrier discharge, chemical reaction, flue gas treatment, low temperature plasma, N[O.sub.x], N[O.sub.x] reduction, silent discharge, streamer.

Published

1999

24. High deposition rate of amorphous carbon film using a magnetically driven shunting arc discharge

Author

Yukimura, Ken, Kumagai, Motoya, Takaki, Koichi, Hasegawa, Ryuji, Nakamura, Satoshi, Mukaigawa, Seiji, and Fujiwara, Tamiya

Published

2005

25. A review on 3D printable food materials: types and development trends.

Author

Li, Gaoshang, Hu, Lingping, Liu, Jialin, Huang, Jiayin, Yuan, Chunhong, Takaki, Koichi, and Hu, Yaqin

Abstract

Summary: 3D printing, as an emerging intelligent additive manufacturing processing technology, has been widely used in materials, aerospace, construction, medicine and other fields. Moreover, 3D printing technology has gradually emerged in field of food processing because of its characteristics of moulding without moulds and saving materials. The materials properties have a great influence on 3D‐printed food, especially mechanical strength and viscosity which affect accuracy and moulding ability of printed food. Moreover, the combination of materials also could change viscosity and rheology of printable materials (protein, starch, fat and hydrogel) and enhance the printing effect of not‐easy‐printable materials (cellulose). Additionally, the mixing of functional compounds and printing materials had great potential which was beneficial to personally customise functional nutritious foods to meet different people. This manuscript lays a foundation for the development and application of 3D printing technology in food processing. [ABSTRACT FROM AUTHOR]

Published

2022

26. Pulsed power applications for agriculture and food processing.

Author

Takaki, Koichi, Takahashi, Katsuyuki, Hayashi, Nobuya, Wang, Douyan, and Ohshima, Takayuki

Published

2021

27. Differentiation between fresh and frozen‐thawed scallop adductor muscle as raw materials for sashimi during cold storage.

Author

Niu, Yabin, Dong, Shiliang, Shimakage, Naoto, Wei, Huamao, Yu, Kefeng, Yuan, Chunhong, and Takaki, Koichi

Subjects

SCALLOPS, COLD storage, RAW materials, MICROSCOPY, ADENOSINE triphosphate

Abstract

The changes of sensory and biochemical characteristics on the fresh and frozen‐thawed scallop adductor muscle during storage at 4°C were discussed in this study. The Quality Index Method (QIM) scheme for evaluating scallop adductor muscle as raw materials for sashimi was proposed for the first time. The results of sensory evaluation showed that frozen‐thawed scallop adductor muscle within zero to one day of refrigeration can be happily accepted by consumers, indicating the superiority of freezing for long‐distance transportation, although the triangle test confirmed that there are still sensorial differences between fresh and frozen‐thawed scallop adductor muscle. The microscopic observation of myofibrils extracted from scallop adductor muscle suggested that the myofibrillar protein which constitutes myofibrils has suffered some extent change due to freezing and thawing, even though the head region of myosin remained stable judging by the fact that there was no significant difference in Ca2+‐ATPase activity (p > 0.05). The changes of adenosine triphosphate (ATP) and its related compounds, and pH value during storage can be regarded as indicators to differentiate fresh and frozen‐thawed scallop adductor muscle. The changes of Mg2+‐ATPase activity indicated that the interaction between myosin and actin was weakened by the freezing and thawing process. Practical Application: The QIM scheme can be used to evaluate the scallop adductor muscle as raw materials for sashimi. The mechanism of quality changes in the frozen‐thawed scallop adductor muscle was discussed in combination with the destruction of myofibrils, ATP degradation and the decrease of pH value. This study has positive significance for improving the quality of frozen‐thawed scallop adductor muscle by combining the changes of sensory and biochemical characteristics. [ABSTRACT FROM AUTHOR]

Published

2021

28. Deposition of amorphous carbon using a shunting arc discharge

Author

Yukimura, Ken, Kumagai, Motoya, Kumagai, Masao, Saito, Hidenori, Kohata, Mamoru, and Takaki, Koichi

Published

2003

29. Mechanism of pulsed electric field enzyme activity change and pulsed discharge permeabilization of agricultural products.

Author

Ohshima, Takayuki, Tanino, Takanori, Guionet, Alexis, Takahashi, Katsuyuki, and Takaki, Koichi

Abstract

High-voltage pulsed electric fields (PEF) and pulsed discharge plasmas have received a great deal of attention in the fields of biochemistry, medicine, agriculture and food industry. The destruction phenomenon of cell membranes has been confirmed by PEF and discharge plasma, and it can be used for inactivating microorganisms and extracting cell contents. In recent years, it has been reported that PEF changes the activity of proteins such as enzymes. This review describes how PEF and pulsed discharge plasma function in enzyme activity change and permeabilization in food processing. It is thought that PEF affects the three-dimensional structure of proteins, and research is underway. Here, we will introduce the latest research results on the mechanism of enzyme activity change by PEF. In addition, we will introduce the latest research on changes in cell permeability using shock waves caused by the pulsed discharge plasma. [ABSTRACT FROM AUTHOR]

Published

2021

30. Development of compact inductive energy storage pulsed-power generator driven by 13 kV SiC-MOSFET.

Author

Takahashi, Katsuyuki, Saito, Ryo, Onodera, Taichiro, Takaki, Koichi, Kitai, Hidenori, and Sakamoto, Kunihiro

Subjects

HIGH voltages, ENERGY storage, PLASMA production, ENERGY transfer, SEMICONDUCTOR devices, SILICON carbide, METAL oxide semiconductor field-effect transistors

Abstract

A compact inductive energy storage (IES) pulsed-power generator that is driven by a novel 13 kV silicon carbide (SiC)-MOSFET is developed and molded into a compact modified TO-268. In this article, the switching characteristics required for IES pulsed-power generator development are evaluated. The maximum slew rates at MOSFET turn-on and turn-off are 157 and 129 kV/μs, respectively, at an input voltage of 10 kV. The maximum current flow from the drain to the source terminal is limited to 128 A during short-circuit switching. The on-resistance between the drain and source terminals increases during the SiC-MOSFET's on state. It increases with the voltage and its minimum value is 1.07 Ω. These characteristics show that the device is suitable for use as an opening switch because of its low on-resistance and rapid large-current cutoff at high operating voltages. The characteristics of an IES pulsed-power generator composed of a SiC-MOSFET, a capacitor, and a pulsed transformer with a turn ratio of 5:15 are also evaluated. The output voltage peak and full width at half maximum reach 31.4 kV and 55 ns, respectively, at a charging voltage of 1100 V. The maximum energy transfer efficiency is 50.2% of the input energy with a load resistance of 2.5 kΩ. The results show that the MOSFET has excellent potential to support the development of a compact plasma generation system that offers better performance pulsed-power generators driven by semiconductor devices. [ABSTRACT FROM AUTHOR]

Published

2021

31. Influence of Relative Humidity on Ethylene Removal Using Dielectric Barrier Discharge.

Author

Takaki, Koichi, Miura, Takafumi, Oka, Akihito, and Takahashi, Katsuyuki

Subjects

*HUMIDITY, *ETHYLENE, *NON-thermal plasmas, *DIELECTRICS, *OXYGEN

Abstract

Ethylene gas was decomposed using a dielectric barrier discharge (DBD) plasma reactor for the long-term preservation of fruits and vegetables with a focus on the influence of humidity on ethylene decomposition efficiency. DBD is actively used to produce nonthermal plasma, which is effective in converting C2H4 into CO2 and H2O, through an oxidization process with a high reaction rate because the nonthermal plasma in air contains a large number of chemically active species such as atomic oxygen radicals (O) and hydroxyl radicals (OH). This production of radicals depends on the level of humidity in the air. During the experiment, C2H4 gas was diluted by 200 ppm with an N2 and O2 gas mixture and was fed into the DBD reactor at a 3 L/min gas flow rate. The relative humidity (RH) of the gas was adjusted by the bubbling gas through water. The gas temperature was fixed at 25 °C. The experimental results showed that C2H4 decomposition efficiency was almost independent of RH. [ABSTRACT FROM AUTHOR]

Published

2021

32. Comparison of plasma characteristics of high-power pulsed sputtering glow discharge and hollow-cathode discharge.

Author

Abe, Shoki, Takahashi, Katsuyuki, Mukaigawa, Seiji, Takaki, Koichi, and Yukimura, Ken

Abstract

A high-power pulsed sputtering (HPPS) discharge source was evaluated experimentally as the ion source for droplet-free plasma processes. The basic configuration of the HPPS source consisted of a hollow cathode arrangement. A rectangular pulse voltage with an amplitude ranging from −330 to −1200 V and a pulse width of 600 μs was applied. The magnetic field used to reduce electron losses at the gap between the target was 0.2 T and was parallel to the electric field in the ion sheath. The current density on the target with the magnets (HPPS) was approximately 15 kA m−2 and was one order of magnitude higher than that without the magnets [hollow-cathode discharge (HCD)]. The ion density of the HPPS discharge was approximately 3.4 × 1018 m−3 at 30 mm apart from the electrode edge and decreased to 2.2 × 1017 m−3 by changing from an HPPS discharge to an HCD. [ABSTRACT FROM AUTHOR]

Published

2021

33. Function of plasma and electrostatics for keeping quality of agricultural produce in post-harvest stage.

Author

Takaki, Koichi, Takahashi, Katsuyuki, Hamanaka, Daisuke, Yoshida, Riichiro, and Uchino, Toshitaka

Abstract

High-voltage and plasma applications to keep the freshness and quality of agricultural produce are described focusing on functions of plasma in each application of a post-harvest stage. The high voltage and the plasma are used for decontamination of airborne bacteria in a storage house and a transport container of agricultural produce. The working mechanisms of the decontamination are mainly caused by inactivation through the oxidization process with reactive oxygen species and the collection of airborne bacteria as an electric precipitating process. The plasma is also used to maintain a freshness by decomposition of the agricultural produce exhausting gases such as ethylene, which works as a plant hormone and accelerates ripening of some kind produces in a mix-loading container. The decomposition of the ethylene is mainly an oxidization process by the atomic oxygen in dry gas condition. The ethylene is also decomposed by hydroxyl radical under the humid air condition. [ABSTRACT FROM AUTHOR]

Published

2021

34. The impact of thawing on the quality attributes of swimming crab (Portunus trituberculatus) frozen by liquid nitrogen freezing.

Author

Yang, Shuibing, Hu, Yaqin, Takaki, Koichi, Yuan, Chunhong, and Yu, Haixia

Subjects

PORTUNIDAE, THAWING, LIQUID nitrogen, PORTUNUS, FREEZING, MICROWAVES

Abstract

Copyright of CyTA: Journal of Food is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

35. Influence of Waveform of Applied Voltage on H2 Production From Methane Reforming Using Dielectric Barrier Discharge.

Author

Miura, Takafumi, Takahashi, Katsuyuki, Takaki, Koichi, and Nishida, Yasushi

Subjects

DIELECTRICS, PULSE generators, VOLTAGE, HYDROGEN production, HYDROGEN as fuel

Abstract

The influence of waveforms of the applied voltage on hydrogen production from methane reforming using dielectric barrier discharge (DBD) is investigated. Three types of high voltage power generators with different pulse shape with widths of $50~\mu \text{s}$ –250 ns and voltage rise speeds of $7.6\times \,\,10^{4}$ – $5.2\times 10^{10}$ V/s of sinusoidal, bipolar pulses, and a nanosecond pulse voltage are used to control the waveform. The energy efficiency for hydrogen production in the case of nanosecond pulse is approximately 0.9 g/kW $\cdot \text{h}$ , much higher than those of sinusoidal and bipolar pulses, with approximately 0.5 g/kW $\cdot \text{h}$. This is due to that the voltage rise speed by the short pulse is much higher than those using the sine wave and the bipolar pulse, and so the discharge by the short pulse is uniformly generated. The hydrogen production increases and the energy efficiency decreases slightly with increasing pulse repetition rate. The hydrogen production efficiency is independent of the gas pressure within the ranges from 0.12 to 0.16 MPa. [ABSTRACT FROM AUTHOR]

Published

2021

36. Characteristics of Self-Organized Structure in Microgap Dielectric Barrier Discharge at Atmospheric Pressure.

Author

Sato, Hideki, Murakami, Sou, Mukaigawa, Seiji, Takahashi, Katsuyuki, and Takaki, Koichi

Subjects

DIELECTRICS, LATTICE constants, ELECTRIC capacity, ATMOSPHERIC pressure

Abstract

In the microplasma generated by dielectric barrier discharge (DBD), a huge variety of discharge patterns are generated by self-organization. In this study, we experimentally observed variation in the hexagonal structures in capacity-coupled microgap DBD using a helium (He)/argon (Ar) mixture. The spatial distribution of the self-organized structure was revealed via a discharge experiment in which the equivalent barrier capacitance was continuously changed within the range of 56–1500 pF. The results demonstrate that the lattice spacing of the patterns can be continuously controlled within the range of 1.22–1.59 mm for an equivalent barrier capacitance of 56–172 pF. It is likely that an increase in external capacitance increases the discharge cell voltage. In contrast, the lattice constant remained unchanged with an increase in barrier capacitance within a range of 172–1500 pF. The lattice spacing of the patterns could be continuously controlled within a range of 0.66–0.74 mm for all He/Ar gas mixing ratios. [ABSTRACT FROM AUTHOR]

Published

2021

37. Silicon wafer etching by pulsed high-power inductively coupled Ar/CF4 plasma with 150 kHz band frequency.

Author

Saito, Yuma, Shibata, Kodai, Takahashi, Katsuyuki, Mukaigawa, Seiji, Takaki, Koichi, Yukimura, Ken, Ogiso, Hisato, and Nakano, Shizuka

Abstract

A silicon wafer etching using a burst pulse high-power inductively coupled plasma (ICP) is investigated. A 200 μs wide burst of a 157 kHz power supply is employed to generate ICP with a repetition rate of 50 Hz. A rectangular pulsed voltage synchronized with the burst power supply is applied upto 1 kV at the wafer. Mixed gas of argon (Ar) and tetrafluoromethane (CF4) is supplied into the vacuum chamber. The plasma density and electron temperature are 1019 m−3 and 2.8 eV where the wafer is, respectively. In the case of Ar plasma, the silicon etching rate is 0.01 μm min−1 with 1000 V negative bias. The etching rate increases to 0.23 μm min−1 by adding CF4 into Ar and increases linearly with increasing the bias voltage. The target current and emission intensity of Ar+ and F* are depended on bias voltage from −300 to −1000 V. The etching rate sharply increases by increasing CF4 content from 0% to 10%, and it becomes almost constant at 10%. The dependency of emission intensity of F* on CF4 content is similar to the dependency the etching rate. [ABSTRACT FROM AUTHOR]

Published

2020

38. Decomposition process of volatile organic compounds dissolved into water by pulsed discharge inside bubble.

Author

Takahashi, Katsuyuki, Takayama, Hirotoshi, Yagi, Ippei, Takaki, Koichi, and Satta, Naoya

Abstract

Decomposition process of volatile organic compound dissolved into water by discharge plasma inside bubble is investigated. The experiment is conducted on decomposition of dichloromethane (DCM). Argon or oxygen gas is injected into the water through a vertically positioned glass tube, in which high-voltage wire electrode is placed to generate plasmas at low applied voltage. The nanosecond pulsed high voltage generated by an inductive energy storage system pulsed power generator is applied to the tungsten wire to generate streamer discharge. Total organic carbon decreases and chloride ion concentration increases by the discharge treatment. To clarify the decomposition process, DCM and indigo carmine (IC) mixed solution is employed as specimen. The amount of IC decomposition decreases with increasing the DCM concentration. On the other hands, the amount of DCM decomposition is almost independent of IC concentration. These results show that DCM is quickly volatilized into the bubble, which is decomposed by hydroxyl radical produced by the discharge in gas phase inside bubble. [ABSTRACT FROM AUTHOR]

Published

2020

39. Condition‐dependent adenosine monophosphate decomposition pathways in striated adductor muscle from Japanese scallop (Patinopecten yessoensis).

Author

Wei, Huamao, Tian, Yuanyong, Lin, Yumeng, Maeda, Hayato, Yamashita, Tetsuro, Yu, Kefeng, Takaki, Koichi, and Yuan, Chunhong

Subjects

ADENOSINE monophosphate, HIGH performance liquid chromatography, CHEMICAL decomposition, PATINOPECTEN, SCALLOPS

Abstract

The purpose of this study was to confirm inosine monophosphate (IMP) generation and to clarify the decomposition pathway of adenosine monophosphate (AMP) by investigating the properties of AMP, IMP, and adenosine (AdR) decomposition enzymes in Japanese scallop (Patinopecten yessoensis). The results showed that IMP accumulated due to AMP decomposition via endogenous enzymes in scallops stored at both 4 °C and 20 °C. The AMP decomposition rate was highest in the supernatant of homogenized scallop adductor muscle, followed by the suspended solution and precipitate, while IMP could not be decomposed in scallop. The results indicated that the activity of AdR deaminase was very high, and this enzyme was involved in an intracellular process in scallop. Moreover, 1 min of heating exerted little influence on the AMP and AdR decomposition rates, while 5 min of heating induced enzyme denaturation. The IMP generation rate increased dramatically in scallop crude enzyme solution containing 5 mM ethylenediaminetetraacetic acid (EDTA). This suggests that the major pathway of AMP decomposition might change with variations in metal ion concentrations in Japanese scallop. Practical Application: IMP generation in Japanese scallop (Patinopecten yessoensis) caused by endogenous enzymes was confirmed. IMP is very important for the umami taste (a pleasant savory taste) of aquatic products. As IMP accumulation might be achieved by changing the concentration of divalent metal ions and no IMP 5'‐nucleotidase activity was detected in scallop, a suitable process to produce good flavor scallops with high IMP contents might be developed. [ABSTRACT FROM AUTHOR]

Published

2020

40. Influence of Electric Parameters on Hydroxyl Radical Production by Positive Pulsed Discharge Inside of a Bubble in Water.

Author

Takahashi, Katsuyuki, Takeda, Masahiro, Konno, Ryosuke, Takaki, Koichi, and Satta, Naoya

Subjects

HYDROXYL group, ELECTRIC discharges, ELECTRIC potential, ENERGY consumption, WASTEWATER treatment, ELECTRODES

Abstract

The influence of the electric parameters, applied voltage, and pulse repetition rate on the energy efficiency for hydroxyl radical production from pulsed discharge inside of a bubble is investigated in this paper, as a possible application for waste water treatment. To evaluate the energy efficiency, indigo carmine, a common dye, is used as a chemical probe of hydroxyl radicals. Argon is injected into water through a vertically positioned glass tube, into which high-voltage wire electrode is placed to generate plasmas at low applied voltage. The energy efficiency increases with the decreasing pulse repetition rate and output voltage with the same indigo carmine concentration. The results show that the energy efficiency for the hydroxyl radical production increases with the decreasing amount of energy input into the solution per unit time because of the decrease in the recombination reaction of the hydroxyl radicals in the solution. The impedance between the electrodes decreases with the increasing output voltage, which increases the ohmic losses in the solution but does not contribute to the production of hydroxyl radicals. [ABSTRACT FROM AUTHOR]

Published

2019

41. Multipoint Barrier Discharge Process for Removal of NOx from Diesel Engine Exhaust

Author

Takaki, Koichi and Fujiwara, Tamiya

Subjects

Diesel motor -- Testing, Diesel motor exhaust gas -- Measurement, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

We investigated the application of the dielectric barrier discharge process to the removal of NOx from exhaust gas of a 20-kVA diesel engine generator. A multipoint-to-plane geometry was used as an electrode for low-voltage operation. A pyrex glass plate with a 2-mm thickness was put on the plane electrode as the dielectric barrier. The reactor consists of six discharge cells, with each cell consisting of five stacked multipoint-to-plane electrodes where the exhaust gas flows with a high flow rate. The exhaust gas was successfully treated at a flow rate of 1.2 [m.sup.3]/min. In order to produce repetitive high-voltage pulse, we made two switching electronic devices, an insulated gate bipolar transistor (IGBT), and a pulse transformer. This pulse modulator supplied the voltage with peak value of 10 kV and repetition rate of 2.5 kp/s (pulses per second) to the reactor. The energy transfer efficiency of the pulse modulator is 65% at 300 W of the power consumed in the reactor. The NOx (NO + [NO.sub.2]) in the exhaust gas was reduced by 35 ppm with an electrical efficiency of 32 g/kWh. Index Terms--Barrier discharge, diesel engine, multipoint-to-plane, nonthermal plasma, NOx, pollutant control technology, pulse modulator.

Published

2001

42. Influence of Drying Rate on Hot Air Drying Processing of Fresh Foods Using Pulsed Electric Field.

Author

Yamada, Takahiro, Yamakage, Kouya, Takahashi, Katsuyuki, Takaki, Koichi, Orikasa, Takahiro, Kamagata, Junichi, and Aoki, Hitoshi

Subjects

ELECTRIC fields, ROOT crops, FOOD industry, CELL membranes, MEMBRANE permeability (Biology), EDIBLE greens

Abstract

Influence of pulsed electric field (PEF) on the drying rate of foods during the hot air drying process is investigated. Nine kinds of fruits and vegetables and two kinds of marine products are used as the samples, and changes in the weight of these samples during the process are evaluated. PEF is applied to the samples using parallel plate electrodes. The applied voltage ranges from 0.4 to 3 kV, and the input energy of the sample ranges from 1.5 to 115.5 J/g. The samples are dehydrated using a hot air dryer after the PEF treatment. The drying rate of leafy vegetables, apples, and wakame seaweed is accelerated by PEF. The results show that the moisture permeability of membrane can be improved by destroying the cell membrane by PEF. On the other hand, there is no effect on root vegetables because their hard tissues are hard to destroy. © 2020 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc. [ABSTRACT FROM AUTHOR]

Published

2020

43. Self-organization of microgap dielectric-barrier discharge in gas flow

Author

Takaki, Koichi, Nawa, Kota, Mukaigawa, Seiji, Fujiwara, Tamiya, and Aizawa, Takeshi

Subjects

Gas flow -- Observations, Electric discharges -- Properties, Electric discharges through gases -- Properties, Plasma (Ionized gases) -- Properties, Plasma physics -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Symmetric self-organized discharge filaments have been observed in the 140-[micro]m microgap dielectric-barrier discharge between two parallel glass plates. With increasing voltage, the number of filaments increases, and the distance between the filaments decreases. The gas flow velocity affects the arrangement of the filaments. The homogeneous structure appears around the upstream area at high flow velocity, and the homogeneous area spreads with increasing flow velocity. Index Terms--Atmospheric pressure, barrier discharge, gas flow, microplasma, self-organization.

Published

2008

44. Induction of long gap discharge by water jet

Author

Takaki, Koichi and Akiyama, Hidenori

Subjects

Lightning -- Properties, Water-jet -- Properties, Plasma engineering -- Research, Induction, Electromagnetic -- Evaluation, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

This paper presents the images of a long gap discharge induced by a water jet. Spherical metal balls of 5-cm diameter were used as high-voltage, ground, and guiding electrodes. The distance between the high-voltage electrode and the ground one was 50 cm, and the distance between the high-voltage electrode and the guiding one was set to 75 cm. A tap water of 50 [OMEGA] x m resistivity was jetted from behind the guiding electrode toward the high-voltage electrode. A lightning impulse voltage of 1/40 [micro]s generated with an impulse generator was applied to the high-voltage electrode. The leader discharge developed from the tip of the water jet toward the high-voltage electrode. After the discharge bridged between the water jet and the high-voltage electrode, the discharge developed along the water jet. Index Terms--Leader development, long gap discharge, streamer discharge, surface discharge, triggered lightning, water jet.

Published

2008

45. External AC Electric Field-Induced Conformational Change in Bovine Serum Albumin.

Author

Okumura, Takamasa, Yamada, Kazuki, Yaegashi, Taro, Takahashi, Katsuyuki, Syuto, Bunei, and Takaki, Koichi

Subjects

SERUM albumin, ALTERNATING currents, ELECTRIC fields, PROTEINS, BOS, RADIO frequency

Abstract

An ac electric field (acEF) application technology has been reported as a principle technique for food preservation. With this method, conformational changes in the protein molecules of food materials may be induced. Conformational changes were experimentally examined using bovine serum albumin (BSA) as a model protein using an acEF technology. The amplitude of acEF was 66.7 kV/m. BSA with acEF (ac-BSA) and BSA without the ac field (n-BSA) were trypsinized under the same conditions. The derived peptides were compared by using sodium dodecyl sulfate polyacrylamide gel electrophoresis patterns. Formation of tryptic peptides was increased in n-BSA, and trypsin digestion was suppressed in ac-BSA. These results indicate that conformational changes in BSA molecules were induced by acEF application. [ABSTRACT FROM PUBLISHER]

Published

2017

46. Removal of Ethylene and By-Products Using Packed Bed Dielectric Barrier Discharge with Ag Nanoparticle-Loaded Zeolite.

Author

NISHIMURA, JUNKI, KAWAMURA, TOMOYA, TAKAHASHI, KATSUYUKI, TERAMOTO, YOSHIYUKI, TAKAKI, KOICHI, KOIDE, SHOJI, SUGA, MASAYA, ORIKASA, TAKAHIRO, and UCHINO, TOSHITAKA

Subjects

ETHYLENE, PACKED bed reactors, PLASMA core reactors, SILVER nanoparticles, ZEOLITE catalysts, CARBON monoxide

Abstract

SUMMARY Ethylene gas was decomposed using packed-bed type dielectric barrier discharge (PBDBD) plasma reactor to keep freshness of fruits. The ethylene gas was diluted with gas mixture of nitrogen, oxygen, and carbon dioxide as simulated gas in the transportation container. The PBDBD plasma was generated by a pulse switching power supply, which consisted of MOS-FET switching devices, capacitors, and pulse transformers. The Ag nanoparticle-loaded zeolite as catalyst has high activity and good performance for reduction of ozone and oxidizing carbon monoxide at room temperature. The Ag nanoparticle-loaded zeolite pellets enhanced ethylene removal efficiency and reduced ozone and carbon monoxide produced by the plasma treatment. It was confirmed that the carbon monoxide in the gas simulated dry air composition was oxidized using Ag nanoparticle-loaded zeolite with plasma treatment. [ABSTRACT FROM AUTHOR]

Published

2017

47. Improvement of Growth Rate of Brassica para var. perviridis by Discharge inside Bubble under Water in Hydroponic Cultivation.

Author

TAKANO, KOHEI, TAKAHATA, JUNICHIRO, TAKAKI, KOICHI, SATTA, NAOYA, TAKAHASHI, KATSUYUKI, and FUJIO, TAKUYA

Subjects

BRASSICA, HYDROPONICS, IRRADIATION, FERTILIZERS, PLASMA gases

Abstract

SUMMARY An effect of discharge plasma irradiation to the circulating water in hydroponic cultivation system on plant growth rate was evaluated using Brassica rapa var. perviridis as specimen. The discharge plasma produced acids in the solution, which acts as a fertilizer. The Brassica rapa var. perviridis were cultivated in period of 42 days with the hydroponic system. The experimental result indicated that the growth rate of the Brassica rapa var. perviridis is improved drastically with the discharge treatment of the solution of hydroponic system, especially content of leaf blade is significantly increased ( p < 0.01). [ABSTRACT FROM AUTHOR]

Published

2016

48. Decomposition of Ethylene Using Dual-Polarity Pulsed Dielectric Barrier Discharge.

Author

Takaki, Koichi, Nishimura, Junki, Koide, Shoji, Takahashi, Katsuyuki, and Uchino, Toshitaka

Subjects

*ETHYLENE synthesis, *CHEMICAL decomposition kinetics, *CHEMICAL kinetics, *ELECTRIC discharges, *ELECTRON emission

Abstract

Ethylene (C2H4) gas promotes the aging of some kinds of fruits and vegetables such as persimmon, banana, and cucumber. Decomposition of ethylene using nonthermal plasma is effective for keeping freshness of fruits and vegetables in the transportation container. The ethylene was decomposed into gas stream using a dielectric barrier discharge (DBD) reactor driven by dual-polarity pulse generator that consisted of four insulated gate bipolar transistors and a pulse transformer. The output voltage of the pulse generator was 10 kV in amplitude, 1 kilopulse/s in repetition rate, and 50~\mu \texts in rectangular pulsewidth. The 200 ppm ethylene was diluted with dried air and was employed as simulated gas of the transportation container. The gas mixture was fed into the DBD reactor for the evaluation of the decomposition efficiency. The ethylene concentration decreased to less than 1 ppm after the DBD treatment at 30 J/L in input energy. The energy efficiency for ethylene decomposition was around 50 g/kWh and was almost independent of the initial ethylene concentration. The decomposition efficiency increased with increasing oxygen content of the background gas. The byproducts were analyzed by a Fourier transform infrared spectrometer. The results showed that the H2O and CO2 were mainly produced after the decomposition of the ethylene by the DBD plasma. [ABSTRACT FROM PUBLISHER]

Published

2015

49. Carbon Ion Production Using a High-Power Impulse Magnetron Sputtering Glow Plasma.

Author

Yukimura, Ken, Nakano, Hisato Ogiso Shizuka, Nakao, Setsuo, and Takaki, Koichi

Subjects

CARBON, MAGNETRON sputtering, MAGNETIC alloys, SPECTROMETRY, PLASMA gases

Abstract

The ionization rate of sputtered carbon species in magnetron sputtering glow plasmas is low because of a low sputtering yield, a high ionization energy and a low reaction rate between the carbon and electron in the plasma. In this paper, efficient ionization of sputtered carbon species is realized in high-power impulse magnetron sputtering (HiPIMS) glow plasma. The arrangement of the permanent magnet placed at the back of the target can recover the above issues, which enables a power consumption as high as over 100 kW with a pulse duration as short as 5.5 \mus at a source voltage as high as 2200 V. The magnet arrangement affects the production zone of the HiPIMS glow plasma on the target; the plasma moves outward to the radial direction of the target with an increased number of the inner magnets. When the plasma has a larger diameter on the target, a glow easily transits to an arc discharge even at a lower voltage compared with the case of the small-diameter plasma production, because the distance between the plasma and the grounded plate becomes short. Both the highest target voltage without an arc transition and the highest glow current are obtained at n=1, the least number of the inner magnet. In this case, a source voltage of 2200 V brings into the highest instantaneous power of about 144 kW. It is confirmed that higher the source voltage, higher the intensity of the optical emission spectrometry spectrum of carbon ions is. The high power consumption contributes to the high-density argon plasma production. Hence, the least number of the inner magnet results in a higher acceleration energy to bombard the target to efficiently sputter carbon species and a high ion flux bombarding to the target. The longer pulse duration such as 30 \mus results in an arc transition at the source voltage as low as 1200 V. Thus, the highest emission intensity of the carbon optical emission obtained for n=1 at 2200 V with 5.5-\mus pulse duration. It is observed that the intensities of the optical emission from argon and carbon ions are proportional to the power consumed in the plasma. [ABSTRACT FROM PUBLISHER]

Published

2013

50. Development of a compact magnetically expanding plasma source with a strong magnetic field.

Author

Takahashi, Kazunori, Sato, Daiki, Takaki, Koichi, and Ando, Akira

Subjects

PLASMA sources, PLASMA production, PLASMA gases, PLASMA physics, RADIO frequency, MAGNETIC fields

Abstract

A compact magnetically expanding plasma source having a strong magnetic field is developed, where a pulsed solenoid current is provided by an insulated gate bipolar transistor switching circuit. The field strength is successfully increased up to ∼6 kG. The 13.56 MHz radio-frequency power with a pulse width of 28 ms and the operating argon pressure are maintained at 600 W and 3 mTorr, respectively. When the magnetic field strength is increased, the plasma density downstream of the source cavity increases due to the inhibition of cross-field diffusion and appears to saturate above ∼3.5 kG, while maintaining a plasma density of 5 × 1012 cm−3 within the source cavity. [ABSTRACT FROM AUTHOR]

Published

2013