Y
Yoshihide Tominaga
Researcher at Niigata Institute of Technology
Publications - 116
Citations - 6871
Yoshihide Tominaga is an academic researcher from Niigata Institute of Technology. The author has contributed to research in topics: Computational fluid dynamics & Wind tunnel. The author has an hindex of 30, co-authored 107 publications receiving 5246 citations. Previous affiliations of Yoshihide Tominaga include University of Tokyo.
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AIJ guidelines for practical applications of CFD to pedestrian wind environment around buildings
Yoshihide Tominaga,Akashi Mochida,Ryuichiro Yoshie,Hiroto Kataoka,Tsuyoshi Nozu,Masaru Yoshikawa,Taichi Shirasawa +6 more
TL;DR: In this paper, the authors present guidelines for using computational fluid dynamics (CFD) techniques for predicting pedestrian wind environment around buildings in the design stage, based on cross-comparison between CFD predictions, wind tunnel test results and field measurements.
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Turbulent Schmidt numbers for CFD analysis with various types of flowfield
TL;DR: In this paper, a review of previous research related to the application of optimum values of Sct for engineering flowfields relevant to atmospheric dispersion is reviewed and it is recommended that Sct should be determined by considering the dominant flow structure in each case.
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Cooperative project for CFD prediction of pedestrian wind environment in the Architectural Institute of Japan
Ryuichiro Yoshie,Akashi Mochida,Yoshihide Tominaga,Hiroto Kataoka,Kazuyoshi Harimoto,Tsuyoshi Nozu,T. Shirasawa +6 more
TL;DR: In this paper, a working group was organized by the Architectural Institute of Japan (AIG) to make a guideline for CFD prediction of the wind environment, and various comparative studies were carried out as follows.
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CFD Simulation of Near-Field Pollutant Dispersion in the Urban Environment: A Review of Current Modeling Techniques
TL;DR: In this paper, a review of current modeling techniques in CFD simulation of near-field pollutant dispersion in urban environments and discusses the findings to give insight into future applications is presented.
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Comparison of various revised k–ε models and LES applied to flow around a high-rise building model with 1:1:2 shape placed within the surface boundary layer
TL;DR: In this article, the authors compared computational fluid dynamics (CFD) results using various revised k-e models and large eddy simulation (LES) applied to flow around a high-rise building model with 1:1:2 shape placed within the surface boundary layer.