Flow and heat transfer in buoyancy induced rotating flow

Wongl, Li Shing

January 2002

No description available.

532

Internal flow

Study of compressible flow through a rotating duct

Karpatne, Anand

17 September 2015

Several rotorcraft applications such as circulation control and tip jet driven rotors involve internal spanwise flow along the interior of a rotor blade. This dissertation describes a quasi 1-D numerical model of unsteady flow through a duct rotating about one end along with experimental validations. The numerical model is suitable for inclusion in the conceptual design stage for helicopter rotor blades with internal spanwise flow. To this end, centrifugal as well as coriolis effects, frictional losses, duct sweep and time-dependent duct boundary conditions are modeled, and a spanwise flow control valve can be included. One dimensional Euler equations are solved inside the duct using a finite volume formulation in which the advective fluxes are approximated using the Advective Upwind Splitting Method (AUSM). The model is used to explore the behavior of flow inside a 2 m long duct with a circular crosssection, rotating at tip speeds of up to 260 m/s. In the inviscid limit, at a rotor tip speed of 213 m/s, the model predicted the evolution of a shock which showed periodic oscillations with a time period of approximately 17.5 rotor revolutions. However, when friction was included, a shock did not form until the rotor tip speed was ~ 260 m/s. The effects of suddenly opening a flow control valve at different spanwise stations, x [subscript valve] = 0.0R, x [subscript valve] = 0.5R and x [subscript valve] = R, were also studied numerically. Predictions of both steady and transient flow properties from this model are validated with experiments conducted on a 1.32 m long cylindrical duct, with a cross-sectional diameter of 52 mm, rotating at speeds of upto 1050 RPM (Tip Speed = 145 m/s). Spanwise pressure distribution, duct velocity, temperature, hub forces and moments results from the numerical model showed good correlation with experiments. Considerable internal mass flow rate (~ 0.3 kg/s) was also observed. In the presence of a time-varying valve at the inlet, transient spanwise pressure variations showed periodic fluctuations in pressure which diminished once the valve was fully open. The quasi 1-D model was found to be a much faster computational tool than any conventional 3-D CFD solver to study spanwise flow inside rotor blades. The experiments revealed key information about pressure at the duct's outlet. It was observed that when the duct's inlet is closed, the duct's outlet pressure is less than its ambient value. The knowledge of these boundary conditions is essential in modeling flow through rotating ducts. For more accuracy, the current internal flow solver could be coupled with an external flow code to iteratively obtain boundary conditions at their interface.

Helicopter

Rotor

Internal flow

Lead time analysis from order to delivery : A study of lead time in the material flow and the information flow for the aftermarket at Siemens Industrial Turbomachinery AB

Zetterström, Filippa, Ek, Niklas

January 2015

Siemens Industrial Turbomachinery AB (SIT) is a company that produces and delivers medium sized industrial gas turbines to customers all over the world and is located in Finspång. The Service section of SIT handles the aftermarket of turbines with both planned and unplanned inspections/repairs. SIT-Service experience that their lead time to customers is too long and a yearly survey with customers confirmed this. Service strives for a higher customer service and since the company suspect that internal processes have safety time built into can time quickly build up. Service has different service lines depending on what kind of maintenance needed and if planned/unplanned. Different options in a combination with several departments involved in these big projects make the flow hard to visualize and makes it complex.This report has studied how SIT-Service can enable a lead time reduction from order to delivery where the flow for Parts was chosen to be mapped and analyzed for one of the service lines. This orientation of the study was partly based on directions from the company and partly delimitations by the writers of the report. Directions from the company were for example to investigate a standard scope and to visualize the flow by mapping it, all with a focus on lead time. Delimitations developed to exclude sales and transportations as well as to only investigate one turbine type and one service line. To be able to follow the flow was a decision made to investigate the flow for Parts.The study has mapped times and activities in the Parts flow from received purchase order (PO) from customer to when parts are ready to leave SIT Finspång. This mapping includes several departments and several transactions in the ERP-system, activities, tasks, queues and uncertainties. The mapping investigated how the lead time was built up by the system and one angle of the mapping was to investigate if the times in the system were consistent with the matching times in reality. To be able to suggest any changes in the Parts flow regarding lead time, the mapping was classified based on value-adding/non-value-adding, wastes, critical chain and bottlenecks. This was followed by a use of different principles in how to enable lead time reduction. These principles were: elimination, simplification, parallelization and a combination of critical chain and bottlenecks.The results and conclusions based on the two analysis parts have been divided into two parts where suggestions in the first one are believed to have a larger impact on the total lead time. This part consists of five big areas of time with several suggestions, from concrete to more general. One of the most important areas is that SIT needs to improve how the company uses the Planned delivery time; to standardize and to make sure that it is used in the same way by all involved which could eliminate unnecessary times built in. Another important area is that the Goods receiving process time could be reduced for a majority of material in the ERP-system since this differs today even if material is handled the same in reality. The second part consisting of 14 smaller areas of suggestions are believed to have a smaller impact on the total lead time but are still considered to be important to implement. All suggestions have an order of implementation which recommends what should be done first for SIT-Service. If the suggestions are implemented is it believed that SIT-Service can shorten the lead time in the Parts flow and also to get a more efficient organization.

logistics

process

lead time analysis

internal flow

Aplicação da transformada integral e da transformação conforme na solução de uma classe de problemas difusivo-convectivos em domínios de geometrias não-convencionais

Alves, Thiago Antonini [UNESP]

18 August 2006

Made available in DSpace on 2014-06-11T19:23:39Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-08-18Bitstream added on 2014-06-13T18:48:07Z : No. of bitstreams: 1 alves_ta_me_ilha.pdf: 8112255 bytes, checksum: 408af7eb63e2a3050e7bda3fd133d8cf (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O presente trabalho trata da solução de uma classe de problemas difusivo-convectivos, tanto de natureza elíptica como parabólica, em domínios de geometrias não-convencionais, através da aplicação da Transformada Integral. Para facilitar o tratamento analítico e a aplicação das condições de contorno, antes da aplicação da Técnica da Transformada Integral Generalizada - TTIG sobre a equação governante do problema estudado, emprega-se uma Transformação Conforme - TC visando efetuar uma mudança de coordenadas adequada. Analisa-se inicialmente o problema hidrodinâmico do escoamento laminar completamente desenvolvido de fluidos Newtonianos no interior de dutos. Para a obtenção do campo de velocidades do escoamento aplica-se a TTIG sobre a equação da quantidade de movimento. Os parâmetros hidrodinâmicos de interesse, tais como: velocidades média e máxima, fator de atrito de Fanning, fator de Hagenbach, número de Poiseuille, comprimento de entrada hidrodinâmico e queda de pressão são calculados para as diversas geometrias. Feito isso, efetua-se o estudo dos problemas difusivo-convectivos relacionados à transferência de calor do escoamento laminar hidrodinamicamente desenvolvido e termicamente em desenvolvimento de fluidos Newtonianos com perfil de temperatura de entrada uniforme em dutos submetidos a condições de contorno de Dirichlet. Para a obtenção do campo de temperatura aplica-se a TTIG sobre a equação da energia e então, calculam-se os parâmetros térmicos de interesse: temperatura média de mistura, números de Nusselt local e médio e comprimento de entrada térmica. Realiza-se, quando possível, a comparação dos resultados obtidos para os parâmetros termos-hidráulicos com os disponíveis na literatura. / The present work describes the solution of a class of elliptical-parabolic diffusiveconvective problems, on unconventional geometries, employing the Generalized Integral Transform Technique (GITT). In order to facilitate the analytical treatment and the application of the boundary conditions, a Conformal Transform (CT) is used to change the domain into a more suitable coordinate system, just before GITT is to be applied. First of all, using this procedure, the hydrodynamic problem of fully developed Newtonian laminar flow inside ducts is analyzed. In order to obtain the velocity field, GITT is applied on the momentum equation. Interesting hydrodynamic parameters, such as: maximum and minimum velocity values, Fanning friction and Hagenbach factors, Poiseuille number, hydrodynamic entry length, as well as pressure loss, are evaluated for several geometries. Following that, diffusive-convective problems are studied in relationship to the heat transfer in hydrodynamically fully developed and thermally non-developed Newtonian laminar flow inside ducts under Dirichlet boundary conditions, considering uniform temperature entrance profile. In order to obtain the temperature field, GITT is applied on the energy equation, evaluating the relevant parameters: bulk mean temperature, average and local Nusselt numbers and thermal entry length. The results are compared, as much as possible, with the parameter values available in the literature.

Fluxo laminar

Transformada integral

Integral transform

Internal flow

Laminar flow

Analysis on Separated Regions in Internal Flows through Particle Image Velocimetry

John Charles Paulson Jr. (12442257)

22 April 2022

<p>For internal flows, the detachment of the boundary layer is a major contributor to pressure loss. To improve efficiency, it is essential to characterize these regions to understand the location and magnitude. Particle Image Velocimetry (PIV) is applied to provide time-resolved measurements to achieve accurate results without perturbing the flow. This thesis covers the methodology for creating an adaptable optical measurement technique in a high frequency study of separated regions in transonic internal flows. Focus on the optimization of the laser optical array and image acquisition system yield improved Dynamic Spatial Range (DSR) and Dynamic Velocity Range (DVR). Further analysis is provided on the flow dynamics of the seed particle, with local seeding solutions provided for improved seeding density in high-speed flows for various geometries. Light scattering efficiency of the particle is also analyzed to completely define the desired particle size. Two pulse-burst Nd:YAG lasers and two high speed cameras are used in this study to achieve a frame straddling technique necessary to resolve high frequency flows. Comparison of the recording media to the DSR highlights performance costs and benefits between the two cameras. Uncertainty measurements are determined from the calculated setup and compared to correlation statistics-based uncertainty quantifications. Image processing and cross-correlation software are used to provide analysis on the flow characteristics for two separate studies with comparison to Computational Fluid Dynamic predictions.</p>

Mechanical Engineering

Particle image velocimentry

internal flow

separated regions

Design Optimization of Heat Transfer and Fluidic Devices by Using Additive Manufacturing

Kumar, Nikhil, Kumar, Nikhil

January 2016

After the development of additive manufacturing technology in the 1980s, it has found use in many applications like aerospace, automotive, marine, machinery, consumer and electronic applications. In recent time, few researchers have worked on the applications of additive manufacturing for heat transfer and fluidic devices. As the world has seen a drastic increase in population in last decades which have put stress on already scarce energy resources, optimization of energy devices which include energy storing devices, heat transfer devices, energy capturing devices etc. is need for the hour. Design of energy devices is often constrained by manufacturing constraints thus current design of energy devices is not an optimized one. In this research we want to conceptualize, design and manufacture optimized heat transfer and fluidic devices by exploiting the advantages provided by additive manufacturing. We want to benefit from the fact that very intricate geometry and desired surface finish can be obtained by using additive manufacturing. Additionally, we want to compare the efficacy of our designed device with conventional devices. Work on usage of Additive manufacturing for increasing efficiency of heat transfer devices can be found in the literature. We want to extend this approach to other heat transfer devices especially tubes with internal flow. By optimizing the design of energy systems we hope to solve current energy shortage and help conserve energy for future generation.We will also extend the application of additive manufacturing technology to fabricate "device for uniform flow distribution".

Design Optimization

Pipe with Internal Flow

Uniform Flow Distribution Device

Mechanical Engineering

Additive Manufacturing

Otimização numérica do escoamento interno em estruturas em forma de T aplicando o método design construtal

Pepe, Vinicius da Rosa

January 2018

Este trabalho tem como propósito, investigar a validade da lei de Hess-Murray, através da experimentação numérica, aplicando o método do Design Construtal associado ao método de otimização da busca exaustiva, no escoamento interno em estruturas em forma de T com seção circular. Variação do número de Reynolds, escoamento de fluidos newtonianos e não newtonianos, estrutura em forma de T com paredes impermeáveis e permeáveis, foram as principais características avaliadas para confrontar a lei de Hess-Murray. O estudo proposto assume escoamento tridimensional, laminar, incompressível, regime permanente e propriedades fluidodinâmicas constantes, sendo o regime de escoamento governado pelo número de Reynolds (Re). O objetivo principal consiste em determinar as configurações ótimas que facilitem o escoamento de fluido ou minimizem as resistências ao escoamento, quando a área ocupada pelos dutos (A) e o volume ocupado pelos dutos (V) são mantidos constantes, variando-se as razões de diâmetros (aD) e comprimentos (aL). As equações de conservação de massa e quantidade de movimento, foram resolvidas através do método de volumes finitos. A geometria foi discretizada através de uma malha tridimensional composta por aproximadamente 1.950.000 elementos. Como resultados, obteve-se as geometrias ótimas que apresentaram resistências ao escoamento até 30 vezes menor do que as demais configurações. Além disso, foi possível verificar que a lei de Hess-Murray nem sempre é válida, visto que o sistema adapta sua geometria ótima para cada condição de escoamento, a fim de proporcionar a melhor arquitetura de escoamento para atender ao objetivo de minimizar as resistências ao escoamento em acordo com a Lei Construtal. Esta dissertação avançou no presente estado da arte, pois desenvolveu um modelo tridimensional sem simplificações, aplicado ao sistema de escoamento de fluidos em estrutura em forma de T utilizando o método do Design Construtal, validando os resultados analíticos apresentados na bibliografia e apresentando novas referências que permitem ampliar a complexidade dos sistemas de escoamento bem como a implementação de métodos de otimização mais avançados. / This work investigates, through the numerical experimentation together with the Construtal Design method, the Hess-Murray Law in the internal flow in T-shaped structures with a circular section for the laminar flow of Newtonian and non-Newtonian fluids with impermeable and permeable walls, determining the optimal configurations that facilitate fluid flow or minimize flow resistance. The geometric global constants, the volume occupied by the ducts (V) and the area occupied by the ducts (A), delimit the space occupied by the T-shaped structure and the degrees of freedom, the ratio between the diameter of the parent duct and daughter (aD) and the ratio between parent duct length and daughter (aL), are the main geometric parameters to be evaluated. The proposed study is assumed three-dimensional, laminar, incompressible, permanent and constant fluidodynamic properties being the flow regime governed by Reynolds number (Re). Construtal Design method, associated with the exhaustive search, was used to determine the global geometric constants, degrees of freedom and objective function in the geometric evaluation of the system. The numerical solution of the mass conservation and momentum equations is solved based on the finite volume method. The geometries and mesh of the computational domain was discretized through a three-dimensional composed of approximately 1,950,000 elements. The results show that the optimal geometries that presented resistance to the flow up to 30 times smaller than the other configurations. In addition, it was possible to verify that the Hess-Murray Law is not always valid, since the system adapts its optimal geometry to each flow condition, in order to provide a better flow architecture to meet the objective of minimizing resistance to flow in agreement with the Constructal Law. This work advanced in the present state of the art, since it developed a three-dimensional model without simplifications, applied to the fluid flow system in T-shaped structure using the Construtal Design method, validating the analytical results presented in the bibliography and presenting new references that allow increase the complexity of flow systems as well as the implementation of more advanced optimization methods.

Escoamento de fluidos

Simulação numérica

Hess-Murray

Constructal Design

Internal flow

T-shaped structure

流体を伝えるつぶれやすい管の安定性解析 (剥離点の移動に伴う擾乱と下流流路の長さの影響について)

青松, 達哉, AOMATSU, Tatsuya, 松崎, 雄嗣, MATSUZAKI, Yuji, 池田, 忠繁, IKEDA, Tadashige

04 1900

No description available.

Flow Induced Vibration

Internal Flow

Bio-Fluid Mechanics

Biomechanics

Collapsible Tube

Stability Analysis

MÄSSLOGISTIK – NYCKELN TILL ÖKAT RESURSUTNYTTJANDE I SVENSKA MÄSSANS PRODUKTIONSAVDELNING / EXHIBITION LOGISTICS – THE KEY TO INCREASED RESOURCE UTILIZATION IN THE SWEDISH EXHIBITION AND CONGRESS CENTRE’S PRODUCTION DEPARTMENT

Salestam, Melinda, Assarsson, Julia

January 2012

Denna rapport grundar sig i Svenska Mässans planer på expansion och de krav på effektiv hantering och korta ledtider som det medför. Svenska Mässans unika förutsättningar vad gäller yta, bransch och placering medför ett komplext flöde av material. Flödet försvåras ytterligare av att lager och de hallar där eventen genomförs på ligger på olika plan. Den andra delen grundar sig i den litterära brist som finns kring den här typen av logistik. I rapporten introduceras därför ett nytt begrepp - Mässlogistik. Begreppet syftar till att beskriva de verksamhetsspecifika flöden och interna transporter som sker i en sådan speciell bransch som mässbranschen. Genom att definiering av begreppet samt identifiering och fördjupning i de ingående komponenterna, har förslag på hur just Svenska Mässan kan öka sin resurseffektivitet tagits fram. Förslagen är koncentrerade kring deras största problemområden och det som har mest negativ påverkan på flödena. Rapporten är således uppbyggd kring två frågeställningar: 1.     Hur kan lagerstrukturen i möbellagret ändras på Svenska Mässan för att uppnå en högre resurseffektivitet? 2.     Hur ska Svenska Mässan organisera sina interna transporter för att generera en högre resurseffektivitet? För att kunna ge svar på ovanstående frågeställningar har fallstudiemetoden använts där nuläget först har kartlagts för att användas som utgångspunkt och därefter analyserats. Det har gjort att en tydlig bild över problemområdena i form av ostrukturerat lager, bristande planering, hisskonkurrens och ineffektiva transporter har visat sig. Lösningarna på dessa problem har dels hämtats ur litteraturen och dels genom ett logiskt resonemang med inspiration från andra företag. Vidare har en ABC-analys genomförts, på de standardmöbler som används på Svenska Mässans event, vilket har varit en utgångspunkt för att skapa ett effektivare flöde vid in- och utleverans i lagret. Ett ytterligare led i att nå en högre resurseffektivitet, både vid lagring och transport, har varit ett förslag med specialkonstruerade vagnar som lastbärare. Genom en benchmarking på Volvo personvagnar har även kittning undersökts som alternativ för att på så vis kunna förpacka och säkerställa fyllnadsgraden i hissarna och därmed också minska konkurrensen om dessa. I dagsläget hämtar montörerna sitt material själva, vilket leder till att mycket tid används för förflyttningar mellan planen. För att motverka detta har ett förslag tagits fram med att använda sig av materialare. Tanken är att dessa ska förse montörer med allt material de behöver samt att kitta och sekvenslägga montermaterialet. Dessutom ska de ansvara för att hissarna används på ett mer effektivt sätt och därmed öka fyllnadsgraden.   Slutsatser som dragits under detta arbete är att kommunikation och planering är en av de viktigaste grundkomponenterna för att uppnå en högre resurseffektivitet i Svenska Mässans produktionsavdelning. Vidare har det konstaterats att det finns tid att spara genom effektiva transporter samt att utnyttja hissarnas kapacitet på ett mer fullständigt sätt. / This report takes it stance in the Swedish fair’s plans for an expansion and the requirements of effective handling and short lead-times that it implies. The Swedish exhibition and congress centre (SECC) and their unique set of prerequisites concerning space, industry and location results in a very complex flow of material. The complexity of the flow increases further as storage and exhibition halls are located on different floors. The report is of further interest as there is a lack of academic knowledge concerning logistics of this kind. Therefore, this report aims to introduce a new set of terms – exhibition logistics, with ambitions to describe the specific flows and internal transports existing in the exhibition hall industry. By identifying and defining the terms a proposal is given of how the SECC can increase their resource- efficiency.   The proposed advices are focused on the greatest problem areas and furthermore those areas affecting the flows to the highest extend. The report is composed around the following questions: 1.     How can the Swedish exhibition and congress centre’s storage structure and resource storage be changed in order to reach a higher resource-efficiency? 2.     How should the Swedish exhibition and congress centre organize its internal transports to generate greater resource efficiency? To be able to answer the questions above, a case study has been applied. Firstly, research have been undertaken to understand the present situation followed by an analysis of the same. This has given the authors a clear picture of the problem areas; unstructured storage, lack of planning, ineffective use of the elevators as well as inefficient transportations occurring at all times. The presented solutions have partly been collected from relevant academic literature and from an up to date discussion with inspiration from other actors in the current market place. Furthermore, an ABC – analysis have been carried out of the standard furniture’s being used during events at SECC. Proposals for using unique constructed wagons for transporting the equipment have been reported. Yet, this analysis is a further action in order to adapt a greater resource efficiency regarding storage and transportations. At the present time, the assemblers are collecting their material on their own, which results in time consuming movements between storage and working floors. In order to prevent this, the authors have presented a suggestion of using a person for preparing the material. The implication is that they should serve the assembler all material needed for completion and fit for display. Additionally, they should also be given the responsibility of making sure that the elevators are used in a more efficient manner, thereby increasing the occupancy level. The conclusions reflect the importance of two key components that must be improved in order to increase the efficiency in SECC production department - planning and communication. Moreover, it has been concluded that time can be saved by effective transportations and by using the elevators’ capacity to its maximum.

Exhibition logistics

resource efficiency

internal flow of material

Mässlogistik

resurseffektivitet

interna materialflöden

Otimização numérica do escoamento interno em estruturas em forma de T aplicando o método design construtal

Pepe, Vinicius da Rosa

January 2018

Este trabalho tem como propósito, investigar a validade da lei de Hess-Murray, através da experimentação numérica, aplicando o método do Design Construtal associado ao método de otimização da busca exaustiva, no escoamento interno em estruturas em forma de T com seção circular. Variação do número de Reynolds, escoamento de fluidos newtonianos e não newtonianos, estrutura em forma de T com paredes impermeáveis e permeáveis, foram as principais características avaliadas para confrontar a lei de Hess-Murray. O estudo proposto assume escoamento tridimensional, laminar, incompressível, regime permanente e propriedades fluidodinâmicas constantes, sendo o regime de escoamento governado pelo número de Reynolds (Re). O objetivo principal consiste em determinar as configurações ótimas que facilitem o escoamento de fluido ou minimizem as resistências ao escoamento, quando a área ocupada pelos dutos (A) e o volume ocupado pelos dutos (V) são mantidos constantes, variando-se as razões de diâmetros (aD) e comprimentos (aL). As equações de conservação de massa e quantidade de movimento, foram resolvidas através do método de volumes finitos. A geometria foi discretizada através de uma malha tridimensional composta por aproximadamente 1.950.000 elementos. Como resultados, obteve-se as geometrias ótimas que apresentaram resistências ao escoamento até 30 vezes menor do que as demais configurações. Além disso, foi possível verificar que a lei de Hess-Murray nem sempre é válida, visto que o sistema adapta sua geometria ótima para cada condição de escoamento, a fim de proporcionar a melhor arquitetura de escoamento para atender ao objetivo de minimizar as resistências ao escoamento em acordo com a Lei Construtal. Esta dissertação avançou no presente estado da arte, pois desenvolveu um modelo tridimensional sem simplificações, aplicado ao sistema de escoamento de fluidos em estrutura em forma de T utilizando o método do Design Construtal, validando os resultados analíticos apresentados na bibliografia e apresentando novas referências que permitem ampliar a complexidade dos sistemas de escoamento bem como a implementação de métodos de otimização mais avançados. / This work investigates, through the numerical experimentation together with the Construtal Design method, the Hess-Murray Law in the internal flow in T-shaped structures with a circular section for the laminar flow of Newtonian and non-Newtonian fluids with impermeable and permeable walls, determining the optimal configurations that facilitate fluid flow or minimize flow resistance. The geometric global constants, the volume occupied by the ducts (V) and the area occupied by the ducts (A), delimit the space occupied by the T-shaped structure and the degrees of freedom, the ratio between the diameter of the parent duct and daughter (aD) and the ratio between parent duct length and daughter (aL), are the main geometric parameters to be evaluated. The proposed study is assumed three-dimensional, laminar, incompressible, permanent and constant fluidodynamic properties being the flow regime governed by Reynolds number (Re). Construtal Design method, associated with the exhaustive search, was used to determine the global geometric constants, degrees of freedom and objective function in the geometric evaluation of the system. The numerical solution of the mass conservation and momentum equations is solved based on the finite volume method. The geometries and mesh of the computational domain was discretized through a three-dimensional composed of approximately 1,950,000 elements. The results show that the optimal geometries that presented resistance to the flow up to 30 times smaller than the other configurations. In addition, it was possible to verify that the Hess-Murray Law is not always valid, since the system adapts its optimal geometry to each flow condition, in order to provide a better flow architecture to meet the objective of minimizing resistance to flow in agreement with the Constructal Law. This work advanced in the present state of the art, since it developed a three-dimensional model without simplifications, applied to the fluid flow system in T-shaped structure using the Construtal Design method, validating the analytical results presented in the bibliography and presenting new references that allow increase the complexity of flow systems as well as the implementation of more advanced optimization methods.

Escoamento de fluidos

Simulação numérica

Hess-Murray

Constructal Design

Internal flow

T-shaped structure