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ENCIT 2020
18th Brazilian Congress of Thermal Sciences and Engineering
MODELLING AND SIMULATION OF ATMOSPHERIC BOUNDARY LAYER THERMAL STRATIFICATION: A SYSTEMATIC REVIEW
Submission Author:
Matheus Foschera Schuster , RS , Brazil
Co-Authors:
Matheus Foschera Schuster, Adriane Prisco Petry, Flavia Zinani
Presenter: Matheus Foschera Schuster
doi://10.26678/ABCM.ENCIT2020.CIT20-0154
Abstract
This paper presents a systematic review on the state of the art in atmospheric boundary layer flow simulations, considering thermal stratification, and how this factor influences the prediction of wind turbine performance. To this end, the methodology applied follows the protocol presented by Dresch and coworkers, in the book "Design Science Research: research method for advancing science and technology", with the formulation of a review question, selection of keywords and survey for papers related to the theme on Scopus / Elsevier database. After validating whether the papers met the inclusion criteria, 18 papers were selected, and their results were synthesized according to the methodology applied (experimental or computational), and a bibliographic analysis was carried out. From the selected papers, 89% employed a computational methodology, which highlights the difficulty of carrying out experimental studies of wind turbines. Even though few authors have carried out the comparison between simulations considering, or not, thermal stratification, all have indicated accurate results for the models developed, which reinforces the importance of developing robust models, for greater accuracy of the results obtained. Bibliometric network analysis developed through VOSviewer software evidenced the authors with more publications and citations, as well as indicated that selected keywords are in agreement, since they were the most recurrent among the selected papers.
Keywords
systematic review, atmospheric boundary layer, Thermal Stratification, Computational Fluid Dynamic (CFD), Wind power
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