Analysis of the Blade Element Momentum Theory

Ledoux, Jérémy; Reyes Riffo, Sebastian; Salomon, Julien

Ledoux, Jérémy; Reyes Riffo, Sebastian; Salomon, Julien (2021), Analysis of the Blade Element Momentum Theory, SIAM Journal on Applied Mathematics, 81, 6, p. 2596-2621. 10.1137/20M133542X

View/Open

Ledoux_Riffo_Salomon_HAL2.pdf (1.496Mb)

Type

Article accepté pour publication ou publié

Date

2021

Journal name

SIAM Journal on Applied Mathematics

Volume

Number

Publisher

SIAM - Society for Industrial and Applied Mathematics

Pages

2596-2621

Publication identifier

10.1137/20M133542X

Metadata

Show full item record

Author(s)

Ledoux, Jérémy
CEntre de REcherches en MAthématiques de la DEcision [CEREMADE]
Reyes Riffo, Sebastian
CEntre de REcherches en MAthématiques de la DEcision [CEREMADE]
Salomon, Julien
Numerical Analysis, Geophysics and Ecology [ANGE]

Abstract (EN)

The blade element momentum (BEM) theory introduced by Lock et al. and formulated in its modern form by Glauert provides a framework to model the aerodynamic interaction between a turbine and a fluid flow. This theory is used either to estimate turbine efficiency or as a design aid. However, a lack of mathematical interpretation limits the understanding of some of its issues. The aim of this paper is to propose an analysis of BEM equations. Our approach is based on a reformulation of Glauert's model which enables us to identify criteria to guarantee the existence of solutions, analyze the convergence of usual and new (and more efficient) solution algorithms, and study turbine design procedures. The mathematical analysis is completed by numerical experiments.

Subjects / Keywords

Fluid-Structure Interaction; Wind Turbine Aerodynamics; Turbine design; Geometry Modeling; Computational Fluid Dynamics; Blade Element Momentum theory