2D Numerical Study on the Flow Mechanisms of Boundary Layer Ingestion through Power-Based Analysis

Peijian Lv; Mengmeng Zhang; Fei Cao; Defu Lin; Li Mo

doi:10.3390/aerospace9040184

2D Numerical Study on the Flow Mechanisms of Boundary Layer Ingestion through Power-Based Analysis

Peijian Lv, Mengmeng Zhang, Fei Cao, Defu Lin, Li Mo^*

^*Corresponding author for this work

School of Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This paper aims to establish an approach of power bookkeeping in a numerical study. To study the process of power conversion coursed in the flow field, the methodology employs a power-based analysis to quantify power terms. This approach is examined in a simulation of jet flow and then applied to the cases of an isolated actuator disc and an isolated flat plate. Eventually, a numerical simulation is carried out for the boundary layer ingestion (BLI) case that integrates the flat plate and a wake-filling actuator disc. This study quantitatively discusses the mechanisms of BLI under the conditions of laminar and turbulent flow. The proposed power-based analysis might offer insights for the aircraft aerodynamic design using favorable airframe propulsion integration.

Original language	English
Article number	184
Journal	Aerospace
Volume	9
Issue number	4
DOIs	https://doi.org/10.3390/aerospace9040184
Publication status	Published - Apr 2022

Keywords

Boundary Layer Ingestion
power breakdown
power-based analysis

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10.3390/aerospace9040184

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title = "2D Numerical Study on the Flow Mechanisms of Boundary Layer Ingestion through Power-Based Analysis",

abstract = "This paper aims to establish an approach of power bookkeeping in a numerical study. To study the process of power conversion coursed in the flow field, the methodology employs a power-based analysis to quantify power terms. This approach is examined in a simulation of jet flow and then applied to the cases of an isolated actuator disc and an isolated flat plate. Eventually, a numerical simulation is carried out for the boundary layer ingestion (BLI) case that integrates the flat plate and a wake-filling actuator disc. This study quantitatively discusses the mechanisms of BLI under the conditions of laminar and turbulent flow. The proposed power-based analysis might offer insights for the aircraft aerodynamic design using favorable airframe propulsion integration.",

keywords = "Boundary Layer Ingestion, power breakdown, power-based analysis",

author = "Peijian Lv and Mengmeng Zhang and Fei Cao and Defu Lin and Li Mo",

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AU - Lv, Peijian

AU - Zhang, Mengmeng

AU - Cao, Fei

AU - Lin, Defu

AU - Mo, Li

PY - 2022/4

Y1 - 2022/4

N2 - This paper aims to establish an approach of power bookkeeping in a numerical study. To study the process of power conversion coursed in the flow field, the methodology employs a power-based analysis to quantify power terms. This approach is examined in a simulation of jet flow and then applied to the cases of an isolated actuator disc and an isolated flat plate. Eventually, a numerical simulation is carried out for the boundary layer ingestion (BLI) case that integrates the flat plate and a wake-filling actuator disc. This study quantitatively discusses the mechanisms of BLI under the conditions of laminar and turbulent flow. The proposed power-based analysis might offer insights for the aircraft aerodynamic design using favorable airframe propulsion integration.

AB - This paper aims to establish an approach of power bookkeeping in a numerical study. To study the process of power conversion coursed in the flow field, the methodology employs a power-based analysis to quantify power terms. This approach is examined in a simulation of jet flow and then applied to the cases of an isolated actuator disc and an isolated flat plate. Eventually, a numerical simulation is carried out for the boundary layer ingestion (BLI) case that integrates the flat plate and a wake-filling actuator disc. This study quantitatively discusses the mechanisms of BLI under the conditions of laminar and turbulent flow. The proposed power-based analysis might offer insights for the aircraft aerodynamic design using favorable airframe propulsion integration.

KW - Boundary Layer Ingestion

KW - power breakdown

KW - power-based analysis

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JO - Aerospace

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IS - 4

M1 - 184

ER -

2D Numerical Study on the Flow Mechanisms of Boundary Layer Ingestion through Power-Based Analysis

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Keywords

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