Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case

Giulio Vita; Hassan Hemida; Ashvinkumar Chaudhari; Charalampos Baniotopoulos

Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case

Giulio Vita, Hassan Hemida, Ashvinkumar Chaudhari, Charalampos Baniotopoulos

Civil Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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Abstract

This paper reports on an investigation on numerical techniques to include turbulence at the inlet of Large Eddy Simulations (LES). Computational Fluid Dynamics (CFD) is promising as a technique to support wind tunnel results and provide a thorough understanding of the flow field. LES in particular may represent a breakthrough in the correct modelling of turbulence as found in complex geometrical configuration, such as in the urban environment. In fact, the poor understanding of local features of urban and buildings flows is the main reason of the lack of a convincing positioning strategy for Wind Energy Converters (WEC) in such conditions. Nevertheless, Wind Energy is considered a promising way of harvesting wind energy in built areas, as it slashes infrastructural wind energy costs. Developing a successful numerical technique would therefore improve our understanding of the inflow to be considered for urban wind turbines, help us model the effect of turbulence on the aerodynamic performance and eventually assess a positioning strategy which could in turn improve the current poor performance of this technology.

Original language	English
Title of host publication	Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea
Editors	C. Baniotopoulos , C. Borri , E. Marino , B. Blocken , H. Hemida , M. Veljkovic , T. Morbiato , R. Borg , N. Hamza
Place of Publication	Catanzaro, IT
Publisher	WINERCOST
Pages	253-260
Number of pages	8
Publication status	Published - 21 Mar 2018
Event	WINERCOST’18 2nd International Conference on Wind Energy Harvesting, Catanzaro - Catanzaro, Italy Duration: 21 Mar 2018 → 23 Mar 2018

Conference

Conference	WINERCOST’18 2nd International Conference on Wind Energy Harvesting, Catanzaro
Country/Territory	Italy
City	Catanzaro
Period	21/03/18 → 23/03/18

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Civil and Structural Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Giulio_Vita_et_al_Turbulent_Inlet_boundary_conditions_for_large_eddy_simulation_WINERCOST'18_2018
Checked for eligibility: 28/03/2019
Accepted author manuscript, 882 KBLicence: None: All rights reserved

Cite this

Vita, G., Hemida, H., Chaudhari, A., & Baniotopoulos, C. (2018). Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case. In C. Baniotopoulos , C. Borri , E. Marino , B. Blocken , H. Hemida , M. Veljkovic , T. Morbiato , R. Borg , & N. Hamza (Eds.), Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea (pp. 253-260). Article TS4.1.4 WINERCOST.

Vita, Giulio ; Hemida, Hassan ; Chaudhari, Ashvinkumar et al. / Turbulent Inlet boundary conditions for large eddy simulation : an urban wind energy test-case. Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea. editor / C. Baniotopoulos ; C. Borri ; E. Marino ; B. Blocken ; H. Hemida ; M. Veljkovic ; T. Morbiato ; R. Borg ; N. Hamza . Catanzaro, IT : WINERCOST, 2018. pp. 253-260

@inproceedings{1a58dac6057049f184975e8a67be7224,

title = "Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case",

abstract = "This paper reports on an investigation on numerical techniques to include turbulence at the inlet of Large Eddy Simulations (LES). Computational Fluid Dynamics (CFD) is promising as a technique to support wind tunnel results and provide a thorough understanding of the flow field. LES in particular may represent a breakthrough in the correct modelling of turbulence as found in complex geometrical configuration, such as in the urban environment. In fact, the poor understanding of local features of urban and buildings flows is the main reason of the lack of a convincing positioning strategy for Wind Energy Converters (WEC) in such conditions. Nevertheless, Wind Energy is considered a promising way of harvesting wind energy in built areas, as it slashes infrastructural wind energy costs. Developing a successful numerical technique would therefore improve our understanding of the inflow to be considered for urban wind turbines, help us model the effect of turbulence on the aerodynamic performance and eventually assess a positioning strategy which could in turn improve the current poor performance of this technology.",

author = "Giulio Vita and Hassan Hemida and Ashvinkumar Chaudhari and Charalampos Baniotopoulos",

year = "2018",

month = mar,

day = "21",

language = "English",

pages = "253--260",

editor = "{Baniotopoulos }, C. and {Borri }, C. and {Marino }, E. and {Blocken }, B. and {Hemida }, {H. } and {Veljkovic }, {M. } and {Morbiato }, {T. } and {Borg }, {R. } and {Hamza }, {N. }",

booktitle = "Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea",

publisher = " WINERCOST",

note = "WINERCOST{\textquoteright}18 2nd International Conference on Wind Energy Harvesting, Catanzaro ; Conference date: 21-03-2018 Through 23-03-2018",

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Vita, G, Hemida, H, Chaudhari, A & Baniotopoulos, C 2018, Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case. in C Baniotopoulos , C Borri , E Marino , B Blocken , H Hemida , M Veljkovic , T Morbiato , R Borg & N Hamza (eds), Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea., TS4.1.4, WINERCOST, Catanzaro, IT, pp. 253-260, WINERCOST’18 2nd International Conference on Wind Energy Harvesting, Catanzaro, Catanzaro, Italy, 21/03/18.

Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case. / Vita, Giulio; Hemida, Hassan; Chaudhari, Ashvinkumar et al.
Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea. ed. / C. Baniotopoulos ; C. Borri ; E. Marino ; B. Blocken ; H. Hemida ; M. Veljkovic ; T. Morbiato ; R. Borg ; N. Hamza . Catanzaro, IT: WINERCOST, 2018. p. 253-260 TS4.1.4.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Turbulent Inlet boundary conditions for large eddy simulation

T2 - WINERCOST’18 2nd International Conference on Wind Energy Harvesting, Catanzaro

AU - Vita, Giulio

AU - Hemida, Hassan

AU - Chaudhari, Ashvinkumar

AU - Baniotopoulos, Charalampos

PY - 2018/3/21

Y1 - 2018/3/21

N2 - This paper reports on an investigation on numerical techniques to include turbulence at the inlet of Large Eddy Simulations (LES). Computational Fluid Dynamics (CFD) is promising as a technique to support wind tunnel results and provide a thorough understanding of the flow field. LES in particular may represent a breakthrough in the correct modelling of turbulence as found in complex geometrical configuration, such as in the urban environment. In fact, the poor understanding of local features of urban and buildings flows is the main reason of the lack of a convincing positioning strategy for Wind Energy Converters (WEC) in such conditions. Nevertheless, Wind Energy is considered a promising way of harvesting wind energy in built areas, as it slashes infrastructural wind energy costs. Developing a successful numerical technique would therefore improve our understanding of the inflow to be considered for urban wind turbines, help us model the effect of turbulence on the aerodynamic performance and eventually assess a positioning strategy which could in turn improve the current poor performance of this technology.

AB - This paper reports on an investigation on numerical techniques to include turbulence at the inlet of Large Eddy Simulations (LES). Computational Fluid Dynamics (CFD) is promising as a technique to support wind tunnel results and provide a thorough understanding of the flow field. LES in particular may represent a breakthrough in the correct modelling of turbulence as found in complex geometrical configuration, such as in the urban environment. In fact, the poor understanding of local features of urban and buildings flows is the main reason of the lack of a convincing positioning strategy for Wind Energy Converters (WEC) in such conditions. Nevertheless, Wind Energy is considered a promising way of harvesting wind energy in built areas, as it slashes infrastructural wind energy costs. Developing a successful numerical technique would therefore improve our understanding of the inflow to be considered for urban wind turbines, help us model the effect of turbulence on the aerodynamic performance and eventually assess a positioning strategy which could in turn improve the current poor performance of this technology.

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M3 - Conference contribution

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EP - 260

BT - Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea

A2 - Baniotopoulos , C.

A2 - Borri , C.

A2 - Marino , E.

A2 - Blocken , B.

A2 - Hemida , H.

A2 - Veljkovic , M.

A2 - Morbiato , T.

A2 - Borg , R.

A2 - Hamza , N.

PB - WINERCOST

CY - Catanzaro, IT

Y2 - 21 March 2018 through 23 March 2018

ER -

Vita G, Hemida H, Chaudhari A, Baniotopoulos C. Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case. In Baniotopoulos C, Borri C, Marino E, Blocken B, Hemida H, Veljkovic M, Morbiato T, Borg R, Hamza N, editors, Proceedings of WINERCOST'18 - Wind Energy Harvesting focusing on exploitation of the Mediterranean Sea. Catanzaro, IT: WINERCOST. 2018. p. 253-260. TS4.1.4

Turbulent Inlet boundary conditions for large eddy simulation: an urban wind energy test-case

Abstract

Conference

ASJC Scopus subject areas

UN SDGs

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