Item Type |
Article |
ID |
|
Preview |
Image |
|
Caption |
|
|
Full text |
KAKEN_16K14148seika.pdf
Type |
:application/pdf |
Download
|
Size |
:323.1 KB
|
Last updated |
:Oct 31, 2019 |
Downloads |
: 278 |
Total downloads since Oct 31, 2019 : 278
|
|
Release Date |
|
Title |
Title |
分子動力学シミュレーションを用いた電界共役流体の物性値の決定と流動理論の構築
|
Kana |
ブンシ ドウリョクガク シミュレーション オ モチイタ デンカイ キョウヤク リュウタイ ノ ブッセイチ ノ ケッテイ ト リュウドウ リロン ノ コウチク
|
Romanization |
Bunshi dōryokugaku shimyurēshon o mochiita denkai kyōyaku ryūtai no busseichi no kettei to ryūdō riron no kōchiku
|
|
Other Title |
Title |
Development of flow theory of electro-conjugate fluid based on the calculation of physical properties using molecular dynamics simulation
|
Kana |
|
Romanization |
|
|
Creator |
Name |
竹村, 研治郎
|
Kana |
タケムラ, ケンジロウ
|
Romanization |
Takemura, Kenjirō
|
Affiliation |
慶應義塾大学・理工学部 (矢上)・教授
|
Affiliation (Translated) |
|
Role |
Research team head
|
Link |
科研費研究者番号 : 90348821
|
|
Edition |
|
Place |
|
Publisher |
|
Date |
Issued (from:yyyy) |
2019
|
Issued (to:yyyy) |
|
Created (yyyy-mm-dd) |
|
Updated (yyyy-mm-dd) |
|
Captured (yyyy-mm-dd) |
|
|
Physical description |
|
Source Title |
Name |
科学研究費補助金研究成果報告書
|
Name (Translated) |
|
Volume |
|
Issue |
|
Year |
2018
|
Month |
|
Start page |
|
End page |
|
|
ISSN |
|
ISBN |
|
DOI |
|
URI |
|
JaLCDOI |
|
NII Article ID |
|
Ichushi ID |
|
Other ID |
|
Doctoral dissertation |
Dissertation Number |
|
Date of granted |
|
Degree name |
|
Degree grantor |
|
|
Abstract |
電圧の印加によって流動するデカン二酸ジブチルを対象として流動理論の構築を目指した.Korteweg-Helmholtz式で計算される電気力をナビエストークス方程式に導入し流動の支配方程式を決定し,式に現れるイオン移動度を分子動力学計算を用いて算出した.これにより,流動発生に有効な電極配置を求め,実験結果と比較した.すなわち,四角柱とスリットによって構成される電極対を用いた際に電極の配置が発生する流動に与える影響を計算機内で検証し,計算結果に基づいて製作した電極対を用いて流動を可視化した.この結果,四角柱とスリットの距離およびスリット間隔の適切な値を明らかにし,流動変化の要因を明確にした.
This research aimed to construct a flow theory for dibutyl decanedioate which flows under the application of voltage. The electric force calculated by the Korteweg-Helmholtz equation was introduced to the Navier-Stokes equation to establish the governing equation of flow, and the ion mobility appearing in the equation was calculated using molecular dynamics simulation. Thus, the effective electrode arrangement for flow generation was estimated and compared with the experimental results. The influence of the arrangement of the electrodes on the flow generated when using the electrode pair constituted by the square pole and the slit was verified in a computer, and the flow was visualized using the electrode pair designed based on the calculation result. As a result, appropriate values of the distance between the square pole and the slit and the slit spacing were clarified, and the factors of the flow change were clarified.
|
|
Table of contents |
|
Keyword |
|
NDC |
|
Note |
研究種目 : 挑戦的萌芽研究
研究期間 : 2016~2018
課題番号 : 16K14148
研究分野 : 機械工学
|
|
Language |
|
Type of resource |
|
Genre |
|
Text version |
|
Related DOI |
|
Access conditions |
|
Last modified date |
|
Creation date |
|
Registerd by |
|
History |
|
Index |
|
Related to |
|