Ph.D(engineering), Nagoya University

ME.D, Nagoya University

Informatics, Computational science

Environmental science/Agricultural science, Environmental materials/recycling technology

Natural sciences, Bio-, chemical, and soft-matter physics

Nanotechnology/Materials, Inorganic materials

Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Thermal engineering

Nanotechnology/Materials, Energy chemistry

Nagoya University, 工学研究科

フジサンケイグループ土光杯弁論大会
東京財団特別賞

Effect of Rotation Speed on Particles Behavior in Pan-Type Pelletizer Analyzed by DEM with Liquid-Bridge Force and Coarse-Grained Model
Ai MISAKI; Yoshihiro KOSAKU; Ryo MIYAZAWA; Yutaro TAKAYA; Chiharu TOKORO
Lead, Resources Processing, The Resources Processing Society of Japan, 71, 2, 82-89, 2024, Peer-reviwed
Scientific journal

Effect of growth temperature and ethanol flow rate on synthesis of single-walled carbon nanotube by alcohol catalytic chemical vapor deposition using Ir catalyst in hot-wall reactor
Ai Misaki; Takahiro Saida; Shigeya Naritsuka; Takahiro Maruyama
Lead, Japanese Journal of Applied Physics, IOP Publishing, 60, 1, 015003-015003, 01 Jan. 2021, Peer-reviwed
Scientific journal

Calcium bromide hydration for heat storage systems
Ai Niwa; Noriyuki Kobayashi
Lead, Cogent Engineering, Informa UK Limited, 2, 1, 1064218-1064218, 31 Dec. 2015, Peer-reviwed
Scientific journal

Study on Compact and High Power Storage System by Means of a Liquid-Solid Reaction System using CaCl₂ and Water for a Motive Use
NIWA Ai; KOBAYASHI Noriyuki
Lead, Transactions of the Japan Society of Refrigerating and Air Conditioning Engineers, Japan Society of Refrigerating and Air Conditioning Engineers, 32, 1, 1-10, 2015, Peer-reviwed, In this study, we have developed a heat storage system, which is able to store waste heat and release it to an appropriate heating equipment elsewhere, in order to improve utility of waste heat and thus reduce environmental pollutants. The heat of solution of a solid-liquid reaction was adopted for the heat storage system. In this system, the reactant was also used as heat transfer medium and being sent to heating parts. Therefore, the evaporator that has been used in conventional chemical heat storage can be omitted to reduce the device size and for motive use. The heat value, heat release rate and cyclic performance of CaCl₂/H₂O system were measured. The results indicated that the heat of solution was proportional to the mass concentration as far as the reaction reached its saturation solubility under ambient temperature. In addition, the heat value per unit mass was higher at lower concentration than that at higher concentration. During the first 1 minute, the heat output of 5.06kW/L- H₂O was obtained for CaCl₂ (s) /H₂O (l) when the reaction reached its saturated solubility. It was found no degradation in chemical composition after 50 times of cyclic operation.
Scientific journal, Japanese

Basic Characteristics of Heat Discharge in a Heat Storage System using Solid–Liquid Hydration Reaction of CaCl₂, CaBr₂ or LiBr
Niwa Ai; Kobayashi Noriyuki; Hayase Tomohiro; Fuse Takuya
Lead, KAGAKU KOGAKU RONBUNSHU, The Society of Chemical Engineers, Japan, 40, 6, 486-491, 2014, Peer-reviwed, A heat storage system without an evaporator promises high-density heat storage and a high rate of heat output since the solid-liquid product that is formed will itself be transferred as a heat medium to an object that requires heat. In this study, we compared the characteristics of this system using solid CaCl₂, CaBr₂, or LiBr with liquid H₂O as reactants for the storage system. The exothermic heat produced for each reaction was measured and a relationship between the equivalence ratio and the reaction heat was observed. Heat values of 622, 534, and 481 kJ/L were obtained for CaBr₂/H₂O, LiBr₂/H₂O, and CaCl₂/H₂O, respectively. CaBr₂ has the highest solubility and heat storage density of the three materials, as well as the highest heat value. The rate of heat output using CaBr₂/H₂O reached 10 kW/L 10 s after the reaction was initiated, and thus CaBr₂ is considered the most effective material for this system.
Japanese

粉体シミュレーション特集 粗視化モデルを組み込んだDEMシミュレーションの湿潤粒子造粒プロセスへの適用
三崎亜衣; 高谷雄太郎; 所千晴; 所千晴
Lead, 2024, 粉体技術, 16, 5, 1883-3292, 202402246751891724

Growth of single-walled carbon nanotubes using Ir catalyst prepared by dip-coating process
KONDO Shu; MISAKI Ai; SHARMA Kamal P; SAIDA Takahiro; NARITSUKA Shigeya; MARUYAMA Takahiro
2021, フラーレン・ナノチューブ・グラフェン総合シンポジウム講演要旨集, 60th, 202102254882747988

Synthesis of single-walled carbon nanotube on Si substrates by alcohol catalytic chemical vapor deposition using Ir catalyst in hot-wall reactor
三崎亜衣; 丸山隆浩; 丸山隆浩
Lead, 2021, 応用物理学会春季学術講演会講演予稿集(CD-ROM), 68th, 202102273633603654

Growth of vertically aligned single-walled carbon nanotubes on SUS foil
近藤秀; 山本大貴; 三崎亜衣; SHARMA Kamal P; 才田隆広; 成塚重弥; 丸山隆浩
2021, 応用物理学会春季学術講演会講演予稿集(CD-ROM), 68th, 202102236645441249

Effect of ethanol gas flow on synthesis of single-walled carbon nanotube by a hot-wall chemical vapor deposition reactor using Ir catalysts
MISAKI Ai; SUZUKI Tomoko; MARUYAMA Takahiro
Lead, 2019, フラーレン・ナノチューブ・グラフェン総合シンポジウム講演要旨集, 57th, 202002255903521716

電子ビーム蒸着法およびパルスアークプラズマ法により作製したCo触媒を用いたアルコールCVD法による単層カーボンナノチューブ成長:エタノール流量依存性
三崎亜衣; 岡田拓也; 丸山隆浩; 丸山隆浩
Lead, 2018, 応用物理学会秋季学術講演会講演予稿集(CD-ROM), 79th, 201802257365154823

“Single-walled carbon nanotube synthesis by hot-wall CVD using Ir catalyst”
AI Misaki
Nominated symposium, INTERNATIONAL SYMPOSIUM ON MATERIALS SCIENCE AND INNOVATION FOR SUSTAINABLE SOCIETY” Online Memorial Symposium
26 Aug. 2020

「溶解現象を用いた移動型小型蓄熱技術」
三崎 亜衣
Public discourse, 名城大ブランド構築プログラム 第5回ナノマテリアルセミナー
Oct. 2018

Basic properties of the endothermic reaction in salt dissolution for Heat storage system
Ai NIWA
IWHT11, Peer-reviewed
18 Oct. 2011
17 Oct. 2011- 20 Oct. 2011

基礎科学実験B
May 2024 - Mar. 2025
電気通信大学

Applied chemistrry laboratory Ⅱ
Apr. 2016 - Mar. 2019
Meijo University

留学生のための専門講義の日本語（化学）
Oct. 2010 - Mar. 2011
名古屋大学