Measurements of wind flow over models of a hill

Parkinson, H. G.

January 1987

No description available.

621.45

Wind flow modelling/hills

Study of 3-Dimensional Co-Flow Jet Airplane and High-Rise Building Flow Using CFD Simulation

Aguirre, John

01 January 2009

The purpose of this thesis is to design and study an aircraft which implements the Co-Flow Jet (CFJ) airfoil concept, as well as to study the CAARC standard highrise building. The design concept is verified mainly by the use of a Computational Fluid Dynamics (CFD) package. A thorough methodology for geometry and mesh generation is developed, and subsequently applied to the two cases. The first case studied is that of the CFJ Airplane (CFJA). It consists of a threedimensional, highly blended, ying wing geometry implementing the Co-Flow Jet airfoil concept. Though a thorough comparison to a baseline geometry, it is shown that usage of the CFJ airfoil cross-section greatly improves aircraft performance by increasing lift, reducing drag, and providing a source of thrust over the operational range of angles of attack. A steady state CFD simulation is used for this case, as the air ow around an airfoil cross-section is inherently steady for attached ows. CFD results are used to support the Engineless Aircraft" concept, where the CFJ airfoil is used as the sole form of propulsion. The second case studied consists of a rectangular high-rise building undergoing a wind condition with Mach number of 0:1 and a Reynolds number of 160000. Due to the non-streamlined geometry of the building cross-section, aerodynamic instabilities due to uid separation are present, and therefore an unsteady CFD analysis is necessary to fully resolve all of the ow phenomena. Preliminary steady state results are presented, and a plan is laid down for the future study of this highly complex case. Results are presented for a variety of angles of attack in the case of the CFJA, and for the main ow direction in the case of the CAARC building. Results are compared with baseline geometry in the case of the CFJ Airplane. The CFJ Airplane case is simulated using a 3rd order steady state scheme, which is sufficient to achieve valid results for the ow regime. The CAARC building, which has inherent ow separation, requires the use of high order schemes.

CFJ; Wind Flow; CFD; Flying Wing

CFD modelling of wind flow over complex and rough terrain

Walshe, John D.

January 2003

A model has been developed using the general-purpose Navier-Stokes solver CFX4 to simulate Atmospheric Boundary Layer flow over complex terrain. This model has been validated against the measured data from the Askervein Hill experiment, and has been shown to perform well. The CFD model is also compared to the WAsP linear model of wind flow over topography, and a significant improvement is noted for flow over complex topography. Boundary conditions, gridding issues and sensitivity to other solver parameters have all been investigated. An advanced roughness model has been developed to simulate flow over forest canopies, using a resistive body force within the canopy volume. The model is validated against measured data for simple 2D cases, and for a complex 3D case over real topography. The model is shown to give a more physically realistic profile for the wind speed in and just above forest canopies than the standard roughness length model used in most CFD simulations. An automated methodology for setting up CFD simulations using the models described has been developed. A custom pre-processing package to implement this has been written, to enable the use of the CFD methodology in a commercial environment.

551.5185

A influência do padrão de adensamento nas características de um escoamento urbano : uma aplicação à região do Altiplano Cabo Branco em João Pessoa-PB / The influence of the pattern and process of densification in the characteristics of an urban runoff : an application of the region of Altiplano Cabo Branco in João Pessoa-PB

Peregrino, Paulo Sérgio Araújo

January 2014

Faz-se notória a ideia de que o crescimento das cidades e o consequente aumento no adensamento das mesmas é, nos dias atuais, um fato inevitável; e que o homem, ao modificar o meio natural, o faz quase sempre de forma danosa. Formação de ilhas de calor, aumento do consumo de energia, dificuldade na dispersão de poluentes, diminuição do ângulo de visão do céu, diminuição da taxa de permeabilidade do solo entre outros, são problemas frequentemente relacionados com a densificação e verticalização das cidades. A utilização de modelos reduzidos para simulações experimentais em túneis de vento das condições naturais de ventilação se mostram eficazes, além de reduzir custos em pesquisas nesta área. Embasando-se em tais pressupostos, o presente trabalho pretende verificar as alterações das características dos escoamentos de vento provocadas por distintos padrões de ocupação do solo urbano no bairro do Altiplano Cabo Branco, na cidade de João Pessoa-PB. A área em estudo atravessa um processo acelerado de modificação nas suas características de ocupação urbana, conduzido pelas alterações dos indicadores urbanísticos locais, antes mais restritivos, possibilitando agora edificações com gabaritos em altura significativamente maiores do que os anteriormente observados no local. Parte-se então da hipótese de que o processo de verticalização resultante deste crescimento é capaz de alterar os escoamentos de ventos não apenas nas áreas onde este ocorre, mas também em áreas contíguas. No desenvolvimento deste trabalho, de caráter experimental, foram avaliados dois modelos de adensamentos urbanos para a área de estudo O primeiro deles reproduz a ocupação da área conforme se encontrava antes de mudanças ocorridas nos indicadores urbanísticos para o local. O segundo apresenta a configuração atual de ocupação da área, delineada pela legislação em vigor. Para viabilizar esta avaliação serão realizados ensaios no Túnel de Vento de retorno fechado, Professor Joaquim Blessmann, do Laboratório de Aerodinâmica das Construções da Universidade Federal do Rio Grande do Sul, utilizando maquetes (modelos) em escala reduzida e observando os requerimentos necessários estabelecidos para este padrão de estudo experimental. Foram utilizados nos ensaios para cada uma das duas configurações de vizinhança dois ângulos de ataque de vento, 150 e 90 graus, tomando como referência o atlas de vento do local de estudo. A partir da análise dos resultados obtidos é possível concluir que a verticalização, da maneira como propõe legislação atual para a área, não apresenta perdas significativas no que se refere aos escoamentos (ventos) quando comparada com o padrão de ocupação anterior sem os edifícios altos. As áreas adjacentes também não sofrem maiores prejuízos no que se refere aos escoamentos quando comparados os dois modelos. / What is worth elucidating is the idea about city expansion and consequent increasing effects of the densification is, now are days, an unavoidable fact; and that human, by modifying the natural environment, does so always in a destructive way. Formation of heat island, increase of the energy consumption, difficulty in the dispersion of pollutants, reduction in the sky view angle, diminution of the level of soil permeability among others, are problem frequently related to densification and verticalization of cities. The use of reduced models for experimental simulation in wind tunnel considering natural conditions of ventilation prove to be effective, apart from low down cost of experiments in this area of research. Based on such assumption, the aim of this research was to verify the alterations of wind flow characteristics provoked on distinct occupation pattern of urban soil in the district of Altiplano Cabo Branco, in the city of João Pesssoa-PB. The studied site passed through a fast process of physical modification in its urban occupation characteristics, conducted by local urban indicators, which was earlier more restrictive, presently permitting building with considerable standard that are higher than those, which were formerly observed on site. Based on the assumption that the process of verticalization as a product of growth may alter the wind flow not only in the areas where it occurs but also in adjacent areas In developing this work, experimentally, two models of urban concentrations were examined on the study area. The first was reproduced on the occupation of the area as it was founded before the changes in the local urban indicators. The second shows the current configuration of occupation of the area outlined by the current legislation. To make this assessment tests were carried out in the Boundary layer wind tunnel, Professor Joaquim Blessmann, of Federal University of Rio Grande do Sul, by use of model building of reduced scale and observing the necessary requirements established for this standard experimental study. Two angles of attack of wind were utilized in the two experiments, 150 and 90 degrees, with reference to the wind atlas of site of study. From the result of this analysis we conclude that virtualization of the occupation proposed by the current proposed legislation for the site does not present significant losses when compared with the previous standard of occupation lacking the tall buildings. Adjacent areas do not affected by losses in relation to the wind flow of the two models that was compared.

Túnel de vento

Ventilacao urbana

João Pessoa (PB)

Urban densification settings

Urban wind flow

Wind tunnel

A influência do padrão de adensamento nas características de um escoamento urbano : uma aplicação à região do Altiplano Cabo Branco em João Pessoa-PB / The influence of the pattern and process of densification in the characteristics of an urban runoff : an application of the region of Altiplano Cabo Branco in João Pessoa-PB

Peregrino, Paulo Sérgio Araújo

January 2014

Faz-se notória a ideia de que o crescimento das cidades e o consequente aumento no adensamento das mesmas é, nos dias atuais, um fato inevitável; e que o homem, ao modificar o meio natural, o faz quase sempre de forma danosa. Formação de ilhas de calor, aumento do consumo de energia, dificuldade na dispersão de poluentes, diminuição do ângulo de visão do céu, diminuição da taxa de permeabilidade do solo entre outros, são problemas frequentemente relacionados com a densificação e verticalização das cidades. A utilização de modelos reduzidos para simulações experimentais em túneis de vento das condições naturais de ventilação se mostram eficazes, além de reduzir custos em pesquisas nesta área. Embasando-se em tais pressupostos, o presente trabalho pretende verificar as alterações das características dos escoamentos de vento provocadas por distintos padrões de ocupação do solo urbano no bairro do Altiplano Cabo Branco, na cidade de João Pessoa-PB. A área em estudo atravessa um processo acelerado de modificação nas suas características de ocupação urbana, conduzido pelas alterações dos indicadores urbanísticos locais, antes mais restritivos, possibilitando agora edificações com gabaritos em altura significativamente maiores do que os anteriormente observados no local. Parte-se então da hipótese de que o processo de verticalização resultante deste crescimento é capaz de alterar os escoamentos de ventos não apenas nas áreas onde este ocorre, mas também em áreas contíguas. No desenvolvimento deste trabalho, de caráter experimental, foram avaliados dois modelos de adensamentos urbanos para a área de estudo O primeiro deles reproduz a ocupação da área conforme se encontrava antes de mudanças ocorridas nos indicadores urbanísticos para o local. O segundo apresenta a configuração atual de ocupação da área, delineada pela legislação em vigor. Para viabilizar esta avaliação serão realizados ensaios no Túnel de Vento de retorno fechado, Professor Joaquim Blessmann, do Laboratório de Aerodinâmica das Construções da Universidade Federal do Rio Grande do Sul, utilizando maquetes (modelos) em escala reduzida e observando os requerimentos necessários estabelecidos para este padrão de estudo experimental. Foram utilizados nos ensaios para cada uma das duas configurações de vizinhança dois ângulos de ataque de vento, 150 e 90 graus, tomando como referência o atlas de vento do local de estudo. A partir da análise dos resultados obtidos é possível concluir que a verticalização, da maneira como propõe legislação atual para a área, não apresenta perdas significativas no que se refere aos escoamentos (ventos) quando comparada com o padrão de ocupação anterior sem os edifícios altos. As áreas adjacentes também não sofrem maiores prejuízos no que se refere aos escoamentos quando comparados os dois modelos. / What is worth elucidating is the idea about city expansion and consequent increasing effects of the densification is, now are days, an unavoidable fact; and that human, by modifying the natural environment, does so always in a destructive way. Formation of heat island, increase of the energy consumption, difficulty in the dispersion of pollutants, reduction in the sky view angle, diminution of the level of soil permeability among others, are problem frequently related to densification and verticalization of cities. The use of reduced models for experimental simulation in wind tunnel considering natural conditions of ventilation prove to be effective, apart from low down cost of experiments in this area of research. Based on such assumption, the aim of this research was to verify the alterations of wind flow characteristics provoked on distinct occupation pattern of urban soil in the district of Altiplano Cabo Branco, in the city of João Pesssoa-PB. The studied site passed through a fast process of physical modification in its urban occupation characteristics, conducted by local urban indicators, which was earlier more restrictive, presently permitting building with considerable standard that are higher than those, which were formerly observed on site. Based on the assumption that the process of verticalization as a product of growth may alter the wind flow not only in the areas where it occurs but also in adjacent areas In developing this work, experimentally, two models of urban concentrations were examined on the study area. The first was reproduced on the occupation of the area as it was founded before the changes in the local urban indicators. The second shows the current configuration of occupation of the area outlined by the current legislation. To make this assessment tests were carried out in the Boundary layer wind tunnel, Professor Joaquim Blessmann, of Federal University of Rio Grande do Sul, by use of model building of reduced scale and observing the necessary requirements established for this standard experimental study. Two angles of attack of wind were utilized in the two experiments, 150 and 90 degrees, with reference to the wind atlas of site of study. From the result of this analysis we conclude that virtualization of the occupation proposed by the current proposed legislation for the site does not present significant losses when compared with the previous standard of occupation lacking the tall buildings. Adjacent areas do not affected by losses in relation to the wind flow of the two models that was compared.

Túnel de vento

Ventilacao urbana

João Pessoa (PB)

Urban densification settings

Urban wind flow

Wind tunnel

A influência do padrão de adensamento nas características de um escoamento urbano : uma aplicação à região do Altiplano Cabo Branco em João Pessoa-PB / The influence of the pattern and process of densification in the characteristics of an urban runoff : an application of the region of Altiplano Cabo Branco in João Pessoa-PB

Peregrino, Paulo Sérgio Araújo

January 2014

Faz-se notória a ideia de que o crescimento das cidades e o consequente aumento no adensamento das mesmas é, nos dias atuais, um fato inevitável; e que o homem, ao modificar o meio natural, o faz quase sempre de forma danosa. Formação de ilhas de calor, aumento do consumo de energia, dificuldade na dispersão de poluentes, diminuição do ângulo de visão do céu, diminuição da taxa de permeabilidade do solo entre outros, são problemas frequentemente relacionados com a densificação e verticalização das cidades. A utilização de modelos reduzidos para simulações experimentais em túneis de vento das condições naturais de ventilação se mostram eficazes, além de reduzir custos em pesquisas nesta área. Embasando-se em tais pressupostos, o presente trabalho pretende verificar as alterações das características dos escoamentos de vento provocadas por distintos padrões de ocupação do solo urbano no bairro do Altiplano Cabo Branco, na cidade de João Pessoa-PB. A área em estudo atravessa um processo acelerado de modificação nas suas características de ocupação urbana, conduzido pelas alterações dos indicadores urbanísticos locais, antes mais restritivos, possibilitando agora edificações com gabaritos em altura significativamente maiores do que os anteriormente observados no local. Parte-se então da hipótese de que o processo de verticalização resultante deste crescimento é capaz de alterar os escoamentos de ventos não apenas nas áreas onde este ocorre, mas também em áreas contíguas. No desenvolvimento deste trabalho, de caráter experimental, foram avaliados dois modelos de adensamentos urbanos para a área de estudo O primeiro deles reproduz a ocupação da área conforme se encontrava antes de mudanças ocorridas nos indicadores urbanísticos para o local. O segundo apresenta a configuração atual de ocupação da área, delineada pela legislação em vigor. Para viabilizar esta avaliação serão realizados ensaios no Túnel de Vento de retorno fechado, Professor Joaquim Blessmann, do Laboratório de Aerodinâmica das Construções da Universidade Federal do Rio Grande do Sul, utilizando maquetes (modelos) em escala reduzida e observando os requerimentos necessários estabelecidos para este padrão de estudo experimental. Foram utilizados nos ensaios para cada uma das duas configurações de vizinhança dois ângulos de ataque de vento, 150 e 90 graus, tomando como referência o atlas de vento do local de estudo. A partir da análise dos resultados obtidos é possível concluir que a verticalização, da maneira como propõe legislação atual para a área, não apresenta perdas significativas no que se refere aos escoamentos (ventos) quando comparada com o padrão de ocupação anterior sem os edifícios altos. As áreas adjacentes também não sofrem maiores prejuízos no que se refere aos escoamentos quando comparados os dois modelos. / What is worth elucidating is the idea about city expansion and consequent increasing effects of the densification is, now are days, an unavoidable fact; and that human, by modifying the natural environment, does so always in a destructive way. Formation of heat island, increase of the energy consumption, difficulty in the dispersion of pollutants, reduction in the sky view angle, diminution of the level of soil permeability among others, are problem frequently related to densification and verticalization of cities. The use of reduced models for experimental simulation in wind tunnel considering natural conditions of ventilation prove to be effective, apart from low down cost of experiments in this area of research. Based on such assumption, the aim of this research was to verify the alterations of wind flow characteristics provoked on distinct occupation pattern of urban soil in the district of Altiplano Cabo Branco, in the city of João Pesssoa-PB. The studied site passed through a fast process of physical modification in its urban occupation characteristics, conducted by local urban indicators, which was earlier more restrictive, presently permitting building with considerable standard that are higher than those, which were formerly observed on site. Based on the assumption that the process of verticalization as a product of growth may alter the wind flow not only in the areas where it occurs but also in adjacent areas In developing this work, experimentally, two models of urban concentrations were examined on the study area. The first was reproduced on the occupation of the area as it was founded before the changes in the local urban indicators. The second shows the current configuration of occupation of the area outlined by the current legislation. To make this assessment tests were carried out in the Boundary layer wind tunnel, Professor Joaquim Blessmann, of Federal University of Rio Grande do Sul, by use of model building of reduced scale and observing the necessary requirements established for this standard experimental study. Two angles of attack of wind were utilized in the two experiments, 150 and 90 degrees, with reference to the wind atlas of site of study. From the result of this analysis we conclude that virtualization of the occupation proposed by the current proposed legislation for the site does not present significant losses when compared with the previous standard of occupation lacking the tall buildings. Adjacent areas do not affected by losses in relation to the wind flow of the two models that was compared.

Túnel de vento

Ventilacao urbana

João Pessoa (PB)

Urban densification settings

Urban wind flow

Wind tunnel

Framework for Integrated Multi-Scale CFD Simulations in Architectural Design

Kalua, Amos

17 September 2021

An important aspect in the process of architectural design is the testing of solution alternatives in order to evaluate them on their appropriateness within the context of the design problem. Computational Fluid Dynamics (CFD) analysis is one of the approaches that have gained popularity in the testing of architectural design solutions especially for purposes of evaluating the performance of natural ventilation strategies in buildings. Natural ventilation strategies can reduce the energy consumption in buildings while ensuring the good health and wellbeing of the occupants. In order for natural ventilation strategies to perform as intended, a number of factors interact and these factors must be carefully analysed. CFD simulations provide an affordable platform for such analyses to be undertaken. Traditionally, these simulations have largely followed the direction of Best Practice Guidelines (BPGs) for quality control. These guidelines are built around certain simplifications due to the high computational cost of CFD modelling. However, while the computational cost has increasingly fallen and is predicted to continue to drop, the BPGs have largely remained without significant updates. The need to develop a CFD simulation framework that leverages the contemporary and anticipates the future computational cost and capacity can, therefore, not be overemphasised. When conducting CFD simulations during the process of architectural design, the variability of the wind flow field including the wind direction and its velocity constitute an important input parameter. Presently, however, in many simulations, the wind direction is largely used in a steady state manner. It is assumed that the direction of flow downwind of a meteorological station remains constant. This assumption may potentially compromise the integrity of CFD modelling as in reality, the wind flow field is bound to be dynamic from place to place. In order to improve the accuracy of the CFD simulations for architectural design, it is therefore necessary to adequately account for this variability. This study was a two-pronged investigation with the ultimate objective of improving the accuracy of the CFD simulations that are used in the architectural design process, particularly for the design and analysis of natural ventilation strategies. Firstly, a framework for integrated meso-scale and building scale CFD simulations was developed. Secondly, the newly developed framework was then implemented by deploying it to study the variability of the wind flow field between a reference meteorological station, the Virginia Tech Airport, and a selected localized building scale site on the Virginia Tech campus. The findings confirmed that the wind flow field varies from place to place and showed that the newly developed framework was able to capture this variation, ultimately, generating a wind flow field characterization representative of the conditions prevalent at the localized building site. This framework can be particularly useful when undertaking de-coupled CFD simulations to design and analyse natural ventilation strategies in the building design process. / Doctor of Philosophy / The use of natural ventilation strategies in building design has been identified as one viable pathway toward minimizing energy consumption in buildings. Natural ventilation can also reduce the prevalence of the Sick Building Syndrome (SBS) and enhance the productivity of building occupants. This research study sought to develop a framework that can improve the usage of Computational Fluid Dynamics (CFD) analyses in the architectural design process for purposes of enhancing the efficiency of natural ventilation strategies in buildings. CFD is a branch of computational physics that studies the behaviour of fluids as they move from one point to another. The usage of CFD analyses in architectural design requires the input of wind environment data such as direction and velocity. Presently, this data is obtained from a weather station and there is an assumption that this data remains the same even for a building site located at a considerable distance away from the weather station. This potentially compromises the accuracy of the CFD analyses as studies have shown that due to a number of factors such the urban built form, vegetation, terrain and others, the wind environment is bound to vary from one point to another. This study sought to develop a framework that quantifies this variation and provides a way for translating the wind data obtained from a weather station to data that more accurately characterizes a local building site. With this accurate site wind data, the CFD analyses can then provide more meaningful insights into the use of natural ventilation in the process of architectural design. This newly developed framework was deployed on a study site at Virginia Tech. The findings showed that the framework was able to demonstrate that the wind flow field varies from one place to another and it also provided a way to capture this variation, ultimately, generating a wind flow field characterization that was more representative of the local conditions.

Computational Fluid Dynamics (CFD)

Wind Flow Field

Best Practice Guidelines (BPGs)

Natural Ventilation

Architectural Design

Interrelações existentes entre os escoamentos de ventos e os padrões de ocupação do solo nos bairros do Cabo Branco e Tambaú/João pessoa - PB

Peregrino, Paulo Sergio Araújo

31 January 2005

Made available in DSpace on 2015-05-14T12:09:37Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 7806866 bytes, checksum: e82d66eac19ff2b75d73191030617b92 (MD5) Previous issue date: 2005-01-31 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / This research aimed to evaluate how four patterns of the urban use and occupation are interrelated in the wind flow comportment, relating to different settings which were considered in: the actual occupation pattern of the areas of Cabo Branco and Tambaú in Joao Pessoa, the capital city of Paraíba State, in the same area, where the three other types were suggested and carried out, the first one relating to the actual legislation considering heavy urban density and the second other two have investigated the possibility of vertical structure for such density. By applying reduced scale modeling experiments in aerodynamic tunnels and by using the erosion figure technique (of sand) (JANEIRO and SARAIVA, 1980), with the methodology developed by Silva (1999), analysis have reached the conclusion that the legal standard induced by the actual legislation may giving permission for irreversible loss in the urban improvement and environmental quality associated to buildings around the beach areas of the whole city in the near future. / O presente trabalho avalia de que forma o escoamento dos ventos se interrelaciona com os quatro padrões de ocupação do solo urbano estudados: o padrão de ocupação atual de parte dos bairros do Cabo Branco e Tambaú/João Pessoa PB, e outros três sugeridos para a mesma área. Entre os modelos expostos, um refere-se ao adensamento da área segundo a legislação vigente, e os outros dois são relativos a outras possibilidades de adensamento vertical. Os modelos em escala reduzida, foram avaliados com base em ensaios efetuados em túnel aerodinâmico, utilizando-se da técnica de figuras de erosão de areia (JANEIRO e SARAIVA, 1980), e metodologia desenvolvida por Silva (1999), concluindo-se que os padrões induzidos pela legislação vigente poderão causar danos irreversíveis à orla da cidade de João Pessoa num futuro próximo.

Padrões de ocupação do solo urbano

Escoamento dos ventos (urbanos)

Túnel aerodinâmico

Urban setting

(Urban) wind flow

Tunnel aerodynamic modeling

ENGENHARIAS::ENGENHARIA CIVIL

Energeticky soběstačný bezdrátový modul pro senzorické aplikace. / Energy Self-sufficient Wireless Module for Sensoric Applications

Jacko, Róbert

January 2014

Masters thesis deals with design and practical implementation of wireless sensor module. The primary requirement for this module is its energy self-sufficiency. In this context, the work gets to the subject of "energy harvesting". Then, in terms of energy requirements, several wireless communication platforms which are favorable for the selected application, are compared. From mentioned technologies was chosen communication platform IQRF. The next parts deals with initial prototype of sensor module, which will be demonstrated as the application of measuring wind direction. This paper describes the hardware and software solution. Followed by a detailed analysis of its properties in terms of energy requirements. Based on the obtained measurements resource parameters are set.

Wind Flow Analysis and Modeling Power Generation for a Multiple Wind Turbine Installation

Buxamusa, Adnan

January 2010

No description available.

Area Planning and Development

Civil Engineering

Energy

Environmental Engineering

Modeling wind turbine power generation

Wind monitoring and wind flow analysis

Multiple wind turbine installation

Renewable wind energy