MF研究者総覧

教員活動データベース

潮流発電用の集流装置付き往復流型衝動タービンに関する研究

発表形態:
一般講演(学術講演を含む)
主要業績:
主要業績
単著・共著:
共著
発表年月:
2016年
DOI:
会議属性:
指定なし
査読:
有り
リンク情報:

日本語フィールド

著者:
木上 洋一;塩見 憲正;高尾 学;村上 天元;今井 康貴;永田 修一
題名:
潮流発電用の集流装置付き往復流型衝動タービンに関する研究
発表情報:
ターボ機械 巻: 44 号: 8 ページ: 496 - 504
キーワード:
概要:

The combination of the bi-directional impulse turbine and the bi-directional flow collector for tidal energy conversion is investigated in this study. The bi-directional impulse turbine with fixed guide vanes is adopted because it has a large efficiency and an advantage of maintenance. The geometries of testing model were decided by the air flow experiment for the turbine and the CFD analysis for the flow collector. The water flow experiment of the testing model shows that the relation between the non-dimensional parameters in the water flow experiment is almost the same as the one in the air flow experiment. The inflow into the turbine is very important as well as the turbine efficiency and the predicted maximum power in the sea based on the water flow experiment is about 91kW.

抄録:

英語フィールド

Author:
KINOUE Yoichi;SHIOMI Norimasa;TAKAO Manabu;MURAKAMI Tengen;IMAI Yasutaka;NAGATA Shuichi
Title:
Study on Bi-Directional Impulse Turbine with Flow Collector for Tidal Energy Conversion
Announcement information:
Turbomachinery Vol: 44 Issue: 8 Page: 496 - 504
An abstract:

The combination of the bi-directional impulse turbine and the bi-directional flow collector for tidal energy conversion is investigated in this study. The bi-directional impulse turbine with fixed guide vanes is adopted because it has a large efficiency and an advantage of maintenance. The geometries of testing model were decided by the air flow experiment for the turbine and the CFD analysis for the flow collector. The water flow experiment of the testing model shows that the relation between the non-dimensional parameters in the water flow experiment is almost the same as the one in the air flow experiment. The inflow into the turbine is very important as well as the turbine efficiency and the predicted maximum power in the sea based on the water flow experiment is about 91kW.



Copyright © MEDIA FUSION Co.,Ltd. All rights reserved.