COLUMN VOL.2 ~ A university / laboratory where you can learn the wind situation survey for wind power generation: Part 1-

November 14, 2022

Hello, this is Misaki from Rera Tech. I'm in charge of wind resource simulation and analysis.

Kobe, which has our headquarters, is close to the sea and mountains, so we can feel nature. It is a familiar land blowing from Mt. Rokko. On the other hand, I feel that it is a moderately urban and very easy -to -live city. There are many tourist attractions represented by "Kobe Harborland" and "Kitano Ijinkan Street", and public transportation is substantial, so why not visit it once?

By the way, the topic introduced this time is "Universities / laboratorys where you can learn the wind situation survey for wind power: Part 1".

The vulgarity survey in wind power is a field where advanced expertise is questioned.

In order to learn a windshade survey, there are approaches such as "practical learning by a consultant company, specializing in wind power generation operators and air -conditioning surveys," or "acquired by self -taught."

Among them, I want to learn in earnest! We recommend that you belong to a university lab to learn from the basics and work on research themes.

Also, what kind of laboratory can be collaborated with private companies that are considering joint research with universities? Isn't it interesting?

In this column, we will introduce a part of the laboratory that conducts research on wind -powered wind -powered wind -based research on the first part and the second part.

①Kobe University Faculty of Marine Policy Science Ocean / Meteorological Laboratory¹⁾

The Ocean and Meteorological Laboratory is a laboratory that the author belonged to as a student.

The laboratory has been conducting a cross -related research, from basic research on weather and sea events that make up the marine environment, to applied research, but as part of that, the style survey for offshore wind power generation is a long -standing research theme. came.

In particular, regarding research on offshore simulation by weather models, part of the results is NEDO's offshore -like map "NEOWINS".²⁾It leads to the development of.

②University of Tokyo Graduate School of Engineering Bridge laboratory³⁾

The Bridge Laboratory is a laboratory that leads to the development of Japanese wind power, which has been involved in many national projects, including the NEDO "Wind Power Technical R & D".

"MASCOT" developed in the lab "Mascot⁴⁾Is widely used for wind firms, such as wind firms authentication, as a model that realizes airflow analysis in the target area.

③Kyushu University Applied Mechanics Research Institute New Energy Faculty of Energy Division Wind and Technology⁵⁾

In the field of wind and art, we are conducting research on windshade surveys against the field of wind (fluid) that appear in the atmosphere near the object and the surface of the earth.

Riam-Compact "RIAM-COMPACT" developed and practical in the lab⁶⁾Is a model that emphasizes the reproduction of the whirlpool of the wind (fluid), and is used for selecting a suitable place for windmills in various wind power development projects.

This time, we introduced three laboratories as the first part of the university laboratory where you can learn the wind situation survey for wind power. Continue by all meansSecond partPlease read it.

Of course, there are many universities and laboratories that are doing similar initiatives in addition to the above. I hope you will investigate and expand your interest in wind power generation.

As a wind -up consultant, Relatech will conduct an optimal air -based survey using "observation" and "estimation" for wind power. Please feel free to contact us if you have any consultation on the style.

reference

Kobe University Corporation Faculty of Marine Policy Science and Meteorological Laboratory
URL:https://www.lab.kobe-u.ac.jp/gmsc-airsea/
NEDO, offshore style map NEOWINS, URL:https://appwdc1.infoc.nedo.go.jp/Nedo_Webgis/top.html
Graduate School of Engineering, the University of Tokyo, Bridge Laboratory,
URL:http://www.bridge.t.u-tokyo.ac.jp/index_j.html
Tei Ishihara, Atsushi Yamaguchi, Wind Prediction Software MASCOT technology and analysis, wind energy society magazine, 37 (1), 2013, pp.2-5.
Kyushu University Applied Economy Research Institute New Faculty of Energy Division, Winds and Engineering,
URL: https://www.riam.kyushu-u.ac.jp/windeng/
Takaaki Uchida, the latest numerical windsters simulation technology Realized Virtual Wind Farm-The History and Future Prospect of Development-, Wind Energy Society of Energy, 44 (4), 2020, PP.666-671.

reference

Kobe University Corporation Faculty of Marine Policy Science and Meteorological Laboratory URL:https://www.lab.kobe-u.ac.jp/gmsc-airsea/

NEDO, offshore style map NEOWINS, URL:https://appwdc1.infoc.nedo.go.jp/Nedo_Webgis/top.html

Graduate School of Engineering, the University of Tokyo, Bridge Laboratory, URL:http://www.bridge.t.u-tokyo.ac.jp/index_j.html

Tei Ishihara, Atsushi Yamaguchi, Wind Prediction Software MASCOT technology and analysis, wind energy society magazine, 37 (1), 2013, pp.2-5.

Kyushu University Applied Economy Research Institute New Faculty of Energy Division, Winds and Engineering, URL: https://www.riam.kyushu-u.ac.jp/windeng/

Takaaki Uchida, the latest numerical windsters simulation technology Realized Virtual Wind Farm-The History and Future Prospect of Development-, Wind Energy Society of Energy, 44 (4), 2020, PP.666-671.

Kobe University Corporation Faculty of Marine Policy Science and Meteorological Laboratory
URL:https://www.lab.kobe-u.ac.jp/gmsc-airsea/

Graduate School of Engineering, the University of Tokyo, Bridge Laboratory,
URL:http://www.bridge.t.u-tokyo.ac.jp/index_j.html

Kyushu University Applied Economy Research Institute New Faculty of Energy Division, Winds and Engineering,
URL: https://www.riam.kyushu-u.ac.jp/windeng/