Thematische Bibliographien / ANSYS FLUEN

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  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „ANSYS FLUEN“

Autor: Grafiati
Veröffentlicht am 11. September 2023

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Zeitschriftenartikel zum Thema "ANSYS FLUEN"

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Pawłucki, Mateusz. „Multiple objective shape optimization in Ansys Fluent Solver“. Mechanik, Nr. 11 (November 2015): 893–95. http://dx.doi.org/10.17814/mechanik.2015.11.587.

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Евсеев, Д. Ю., und О. К. Овчинникова. „PROBLEM SOLUTION ON MOVABLE GRIDS IN ANSYS FLUENT“. ВЕСТНИК ОБРАЗОВАНИЯ И РАЗВИТИЯ НАУКИ РОССИЙСКОЙ АКАДЕМИИ ЕСТЕСТВЕННЫХ НАУК, Nr. 1 (15.03.2023): 9–16. http://dx.doi.org/10.26163/raen.2023.61.15.002.

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Рассматриваются возможности использования универсального программного комплекса Аnsys Fluent для моделирования движения твердых тел под воздействием газодинамических сил. Даны примеры, реализующие возможные при решении таких задач подходы для моделирования вращательного и поступательного движения твердого тела. The possibilities of using the universal software package AnsysFluent for modeling the motion of solids under the influence of gas-dynamic forces are considered. We provide examples illustrating the use of approaches to modeling the rotational and translational motion of a solid body to solve the problems in question.
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Djodikusumo, Indra, I. Nengah Diasta und Iwan Sanjaya Awaluddin. „Geometric Modeling of a Propeller Turbine Runner Using ANSYS BladeGen, Meshing Using ANSYS TurboGrid and Fluid Dynamic Simulation Using ANSYS Fluent“. Applied Mechanics and Materials 842 (Juni 2016): 164–77. http://dx.doi.org/10.4028/www.scientific.net/amm.842.164.

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This paper aims to demonstrate how to model, mesh and simulate a hydraulic propeller turbine runner based on the geometrical specification of the runner blade. Modeling process is divided into preparation and implementation phase. Preparation phase illustrates how to develop stream surfaces and passages, how to create and transform meanline and how to create an rtzt file. The profile in rtzt file has a certain fix thickness which has to be altered later. Implementation phase describes operations necessary in creating a propeller runner model in ANSYS BladeGen which consist of importing rtzt file, modifying the trailing edge properties and altering profile thickness distribution to that of 4 digits NACA airfoil standard. Grid is generated in ANSYS TurboGrid utilizing ATM Optimized topology. CFD simulation is done using the ANSYS Fluent with pressure inlet and pressure outlet boundary conditions and k-ε turbulence model. Hydraulic efficiency of the runner is calculated utilizing Turbo Topology module in ANSYS Fluent. The authors will share the advantages that may be obtained by using ANSYS BladeGen compared with the use of general CAD Systems.
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Jading, Abadi, Paulus Payung und Reniana Reniana. „ansys fluent; CFD; PCRD; simulation; sago starch“. Jurnal Ilmiah Rekayasa Pertanian dan Biosistem 10, Nr. 1 (24.03.2022): 1–13. http://dx.doi.org/10.29303/jrpb.v10i1.279.

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The mini-scale pneumatic conveying ring dryer (PCRD) type sago starch dryer with a capacity of 80 kg / day has been applied to the processing of sago starch to produce dry sago starch. To increase the production capacity of the PCRD dryer, a recirculation pipe was modified. The modified pipe section is the venturi pipe diameter and the upriser vertical pipe increased. The diameter of the vertical upriser pipe is 2.5 times larger than that of the ubend pipe and the downcomer vertical pipe so that a buffer is formed. In addition, the difference in the diameter of the recirculation pipe can increase the residence time of the material. The purpose of this study was to simulate using ansys fluent to determine the temperature profile, air flow velocity, and pressure in the pneumatic conveying ring dryer (PCRD) type sago starch dryer pipe with a capacity of 1 ton per day. Simulations were carried out using the Computational Fluid Dynamics (CFD) technique using ansys fluent software package. The simulation results show that the temperature along the pipe has decreased by about 2oC at various variations of the input air velocity and variations in the outlet at the boundary conditions. Likewise, the air velocity at the end of the outlet pipe (vertical downcomer pipe) increases due to the difference in diameter with the inlet pipe. The pressure on the vertical upriser pipe is higher than the pressure on the ubend pipe and downcomer vertical pipe. The simulation results show that the recirculation pipe design is very well used so that it can be continued for the manufacture of PCRD-type sago starch dryer on a scale of 1 ton per day.
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Vyroubal, Petr, und Martin Mačák. „Investigation of Cyclic Voltammetry in Ansys Fluent“. ECS Transactions 95, Nr. 1 (18.11.2019): 467–74. http://dx.doi.org/10.1149/09501.0467ecst.

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Popovici, Cătălin George. „HVAC System Functionality Simulation Using ANSYS-Fluent“. Energy Procedia 112 (März 2017): 360–65. http://dx.doi.org/10.1016/j.egypro.2017.03.1067.

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BOJKO, MARIAN, LUKAS HERTL und SYLVA DRABKOVA. „METHODS OF CFD MODELLING OF TWIN-SCREW PUMPS FOR NON-NEWTONIAN MATERIALS“. MM Science Journal 2021, Nr. 6 (15.12.2021): 5366–72. http://dx.doi.org/10.17973/mmsj.2021_12_2021103.

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The twin-screw pump is designed for pumping highly viscous materials in the food industry. Rheological characteristics of materials are important in the specification of design parameters of screw pumps. Analysis of flow in the twin-screw pumps with definition of non-newtonian materials can be made by numerical modelling. CFD generally oriented software ANSYS Fluent and ANSYS Polyflow has been used for modelling. In this study those software’s (ANSYS Fluent and ANSYS Polyflow) were defined for solution of flow in the twin-screw pumps. Results were compared for the same boundary conditions on the inlet and outlet of the 3D model. For definition of the viscosity were used the Nonnewtonian power law. Parameters as consistency coefficient and flow exponent for Nonnewtonian power law were analysed by software ANSYS Fluent and ANSYS Polyflow. Postprocessing form ANSYS Fluent and ANSYS Polyflow were made by contours of field and by graphs.
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Amosov, Pavel V., Sergey А. Kozirev und Oleg V. Nazarchuk. „CREATING COMPUTER MODEL OF ATMOSPHERE AERTMDNAMICS OF OPEN PIT IN ANSYS FLUENT“. Bulletin of the Saint Petersburg State Institute of Technology (Technical University) 44, Nr. 70 (September 2018): 121–25. http://dx.doi.org/10.15217/issn1998984-9.2018.44.121.

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Aurybi, Mohammed A., Hussain H. Al-Kayiem, Syed I. U. Gilani und Ali A. Ismaeel. „CFD Analysis of Hybrid Solar Chimney Power Plant“. MATEC Web of Conferences 225 (2018): 04011. http://dx.doi.org/10.1051/matecconf/201822504011.

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In this study, a novel approach has been proposed as a solar chimney integrated with an external heat source to extend the system operation during the absence of solar energy. Flue gas channels have been utilized to exchange heat with the air inside the collector of the solar chimney. The hybrid solar chimney has been investigated numerically by ANSYS-Fluent software, using discrete ordinates radiation model. The hybrid system was simulated in 3D, steady-state by solving Navier-Stokes and energy equations. The numerical results have been validated using experimental measurements of a conventional solar chimney. The influence of flue channels on the system performance was predicted and analyzed in hybrid mode. With 0.002 kg/s of flue gas at 100°C injected in flue channels during the daytime; hybrid mode results demonstrated enhancement of 24% and 9 % for velocity and temperature, respectively. The power generation was enhanced by 56%. It has been proved that the proposed technique is able to resolve the set back of night operation problem of the solar chimney plants.
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Huang, Dennis, Zhigang Yang und Randolph Chi Kin Leung. „Implementation of Direct Acoustic Simulation using ANSYS Fluent“. INTER-NOISE and NOISE-CON Congress and Conference Proceedings 263, Nr. 5 (01.08.2021): 1243–52. http://dx.doi.org/10.3397/in-2021-1787.

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Direct Acoustic Simulation (DAS) is a powerful Computational Aero Acoustics method that obtains hydrodynamic and acoustic solutions simultaneously by solving compressible Navier-Stokes equation together with state equation of ideal gas. Thus, DAS has advantages for cases with flow acoustic coupling and high Mach numbers (). With an increasing demand of massive-scale calculations, a robust numerical solver for DAS is required. ANSYS Fluent is a suitable CFD platform with proven robustness. However, there is no direct implementation of DAS in the current version of ANSYS Fluent. The present study, therefore, aims to investigate an approach for implementing DAS using ANSYS Fluent. Given the acoustic part of fluctuations is much smaller than the hydrodynamic part in amplitude, a DAS solver requires high accuracy and low dissipation. Based on these needs, proper solution methods, spatial discrete methods and boundary conditions are firstly determined through simple calculations of two dimensional propagating plane waves. Afterwards aeroacoustics of a two-dimensional cavity flow at 0.6 is calculated to verify the capability for solving separating flow with the aforementioned set-up. Finally, aeroacoustics of a cylindrical bluff body at a turbulent regime and 0.2 is calculated in three-dimensions to verify the capability for solving turbulent flow using Monotonically Integrated Large Eddy Simulation.
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Dissertationen zum Thema "ANSYS FLUEN"

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Anderle, Milan. „Vývoj modelu kalcinace pro ANSYS Fluent“. Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2017. http://www.nusl.cz/ntk/nusl-367526.

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The aim of the diploma thesis was creating a decarbonisation model of lime, implementation the model into CFD tool ANSYS Fluent and to test the decarbonisation model in a model of a real reactor. The required model was based on assumptions for a Shrinking Core Model (SCM). The main objective of this work was the non-catalytic conversion of substances and the search for the most used mathematical models for calcination. The CFD calculation, the sensitivity analysis and the Fluente parametric study were used. Data on the composition of gas flow, temperature, pressure and mass flow of limestone particles were selected for input variables. The particle model called Multiple Surface Reactions (MSR), which is a standard part of Fluent, was used at first. Subsequently, a UDF which was based on the SCM assumptions was written in the programming language C. The results of the CFD calculation were compared with the experimental values from the dissertation. It has been found that the MSR is sufficiently precise for calculation purposes but neglects the internal diffusion of CO2 through the CaO layer which forms behind the reaction front during calcination. It was found that it is possible to solve the flow with ongoing calcination without the need to know the parameters of the Arrhenian equation if the UDF is used. The created UDF incorporates the influence of intraparticular CO2 diffusion on the overall reaction rate.
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Acharya, Rutvika. „Investigation of Differences in Ansys Solvers CFX and Fluent“. Thesis, KTH, Mekanik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-203937.

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This thesis aims at presenting Computational Fluid Dynamics studies conducted on an axisymmetric model of the Siemens SGT-800 burner using Ansys Fluent, Ansys CFX and Ansys ICEM. The goal is to perform a mesh study and turbulence model study for isothermal flow. The result will show the differences observed while using the two solvers by Ansys, Fluent and CFX. Two different meshes, A, coarse and B, optimal have been used for the mesh study. This will reveal the mesh dependency of the different parameters and if any differences are observed between the solver’s convergence and mesh independency performance. To further validate the mesh independency, a simplified test case is simulated for turbulent flow for 32 different cases testing the numerical algorithms and spatial discretization available in Ansys Fluent and finding the optimal method to achieve convergence and reliable results. Turbulence model study has been performed where k-ε, k-ω and k-ω Shear Stress Transport (SST) model have been simulated and the results between solvers and models are compared to see if the solvers’ way of handling the different models varies.Studies from this thesis suggest that both solvers implement the turbulence models differently. Out of the three models compared, k-ω SST is the model with least differences between solvers. The solution looks alike and therefore it could be suggested to use this model, whenever possible, for future studies when both solvers are used. For the models k-ε and k-ω significant differences were found between the two solvers when comparing velocity, pressure and turbulence kinetic energy. Different reasons for its occurrence are discussed in the thesis and also attempts have been made to rule out few of the reasons to narrow down the possible causes. One of the goals of the thesis was to also discuss the differences in user-interface and solver capabilities which have been presented in the conclusions and discussions section of the report. Questions that still remain unanswered after the thesis are why these differences are present between solvers and which of the solvers’ results are more reliable when these differences have been found.
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Longo, Joel Joseph. „Unsteady Turbomachinery Flow Simulation With Unstructured Grids Using ANSYS Fluent“. The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1376875053.

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Šimík, Marcel. „Specifika nastavení řešiče v systému Ansys Fluent pro nízké tlaky v EREM“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2017. http://www.nusl.cz/ntk/nusl-319633.

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This thesis is focused on electron microscopy which issue is discussed at the beginning of work. The main attention is dedicated to the Environmental electron microscope, especially the differentially pumped chamber, which the thesis deals with. There is a production of an experimental chamber for analysis of shock waves on going therefore main goal of this thesis was to analyze the flow pattern in this chamber. Using the Ansys Fluent program, simulations of the characteristic flow that arises from the pumping of the vacuum chambers namely the ultrasonic flow at low pressures on which the most suitable turbulent module was applied as well as the degree of discretization was performed. The final analysis of this flow pattern is primarily focused on the localization of the shock wave which experimental evidence is to be lodged by shadow optical method as a part of the new concept of the chamber. The basis for the simulation of the chamber was taken over by Dr. Danilatos, with which the results were compared.
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Soueidan, Ahmed Yassin. „A NEW PEMFC FLOW FIELD PLATE OPTIMIZATION COMPARISON - ANSYS FLUENT FUEL-CELL SIMULATION“. OpenSIUC, 2012. https://opensiuc.lib.siu.edu/theses/908.

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The performance of a new cathode flow field plate located on a PEM fuel cell was compared to an industry standard and optimal serpentine design provided from literature. Results were successfully collected through a fuel cell module integrated with the 3D computational fluid dynamics package ANSYS Fluent. Contour plots showing a cathode catalyst layer comparison of local current density, oxygen molar concentrations, water content, and the pressure inside of the flow channels were compared with both PEM fuel cell configurations. The new flow field plate/pattern was shown to distribute more mass species of oxygen, more evenly, to the reaction site given the same boundary conditions, thus contributing to more ideal local current density. The net-power was determined for both fuel cells which included the pump work-in and power-out from each fuel cell. The new flow field plate was shown, through computational power performance results, to outperform the conventional flow pattern by up to 2.4% when excluding the effects of pump work, and still upheld a positive gain when factoring in this value. With an additional 18 corners for improved water management due to the effects of wall adhesion, the new bipolar plate was proven to become a new competitor in PEM fuel cell technology. Furthermore, this thesis gives further insight on PEMFC digital prototyping.
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CARO, DIAZ FREDDY SANTIAGO. „ANALYSIS OF FLUID STRUCTURE-INTERACTION (FSI) PROBLEMS IN ANSYS“. Thesis, Faculty of Engineering and Information Technologies. School of Aerospace, Mechanical & Mechatronic Engineering, 2015. https://hdl.handle.net/2123/30023.

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The Fluid-Structure Interaction problems occur in many natural phenomena and man-made engineering systems, this fact has promoted the research in this area. The research in this field of study is implementing two different methodologies. The first one is the use of commercial programs that have developed FSI capabilities such as Ansys or ADINA. The second methodology is the development of computational codes to solve specific problems of FSI analysis. This Project in particular focuses in the evaluation of Ansys-Fluent to perform FSI simulations. Two aeroelastic cases were simulated in Ansys, they were: the delta wing, and the Onera M6 wing. The delta wing simulation is subsonic and its structure is a simple flat plate made out of aluminum. The Onera M6 wing simulation is transonic and its structure has multiple components that are made out of an orthotropic material. The FSI simulations of the delta wing were validated through comparison with experimental data reported in literature. A turbulence analysis and a mesh independence analysis were carried out as well. The validation showed a limited capability to replicate the results that were obtained in the experiment. The FSI simulations of the Onera M6 wing were validated through comparison with a simulation that was carried out in Patran-Nastran. In addition, a computational fluid dynamics (CFD) simulation in steady state was performed in Ansys in order to establish the bases of the configuration that was implemented in the FSI simulations in Ansys. The validation showed that Ansys-Fluent is able to reproduce the results obtained in Patran-Nastran.
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Origuella, Daniele. „ANSYS Fluent usage in product development : Aqualitative analysis of Volume of Fluidsimulations in the internal design of a dry toilet“. Thesis, KTH, Hållbar produktionsutveckling (ML), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-298067.

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The World Health Organization estimates that over two billion people did not have access to a toilet in 2017. The dejects produced often end up in bodies of water and, as one in every ten crops is watered with wastewater, this is estimated to cause half a billion deaths per year. There are currently many initiatives to reach this sanitation Global Goal, including those from people such as Bill Gates and projects such as The Solar Project. The Solar Project is based in South Africa and is based on cooperation between various companies which provides them with the different components for the installation of Resource Centers, that produce fertilizers of human waste. One of the components of these Resource centers are dry-toilets, which are provided by SUPERFUNKYFUTURE. This thesis is about an analysis of a toilet model and building a function tree, performing a 2D Volume of Fluid simulation on it to see even more critical geometries. Each one of those geometries had one alteration designed. These alterations were also combined into different models and they were all tested in both 2D and 3D simulations. The results from the simulations were then post-processed in CFD-Post and animated, to allow the qualitative analysis to be performed through a Pugh Matrix and decide between designs to recommend an improved internal geometry to SUPERFUNKYFUTURE.
Världshälsoorganisationen, WHO, beräknar att mer än två miljarder människor inte hade tillgång till toaletter 2017. Avföringen från dessa människor hamnade ofta i sjöar och floder och det vattnet användes sedan i sin tur för bevattning av grödor. Detta beräknas vara orsaken till en halv miljard dödsfall per år. Det finns för tillfället många initiativ att uppnå det globala målet för rent vatten och sanitet för alla, däribland arbetar Bill Gates och projekt så som “Solar Project”. “Solar Project” har sin bas i Sydafrika och är ett samarbete mellan flera företag som tillhandahåller olika komponenter som krävs för att skapa resurscenter, som kan användas för att producera gödsel av mänsklig avföring. En av komponenterna för dessa resurscenter är torrtoaletter som är försedda av SUPERFUNKYFUTURE. Denna tes handlar om att analysera en toalettmodell, bygga ett funktionsträd, utföra en 2D “Volume of Fluid”-simulering för att upptäcka kritiska geometrier. Varje sådan geometri fick en ändring designad. Dessa förändringar kombinerades till olika modeller som sedan blev testade med både 2D- och 3D-simuleringar. Resultaten från simuleringarna blev sedan bearbetade i CFD-Post och blev animerade, detta för att möjliggöra en kvalitativ analys genom en konceptviktningsmatris. Från Konceptviktningsmatrisen kunde man välja mellan designerna och rekommendera en förbättrad intern geometri till SUPERFUNKYFUTURE.
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LOPEZ, REBOLLAR BORIS MIGUEL 547458, und REBOLLAR BORIS MIGUEL LOPEZ. „Aplicación de cfd-ansys-fluent en el estudio hidrodinámico de tanques de recirculación empleados en acuacultura“. Tesis de maestría, CENTRO INTERAMERICANO DE RECURSOS DEL AGUA - Universidad Autónoma del Estado de México, 2015. http://hdl.handle.net/20.500.11799/40428.

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Tesis que se presenta para obtener el grado de maestría en Ciencias del Agua
La Dinámica de Fluidos Computacional (CFD) tiene distintas aplicaciones en diversas áreas de la ingeniería, principalmente en la modelación de flujos, donde es utilizada para conocer las características de un flujo en movimiento y determinar las variables que intervienen en su comportamiento, de manera teórica pero económica y con resultados muy cercanos a la realidad. En acuacultura, la CFD es utilizada para visualizar y evaluar el comportamiento hidrodinámico de tanques de cultivo de peces, tomando en cuenta las condiciones de flujo para el sano desarrollo de los peces. Sin embargo, pocos trabajos analizan la eficiencia de remoción de sedimentos de forma natural, considerando el comportamiento del flujo dentro del tanque. En el presente trabajo, se analiza la hidrodinámica de un tanque de recirculación de agua empleado en acuacultura, aplicando simulación por computadora a través de técnicas CFD, demostrando la importancia de realizar simulaciones aplicando métodos numéricos, para la obtención de parámetros hidrodinámicos, principalmente, los campos de velocidad y turbulencia ante diversos escenarios de operación de un sedimentador tipo hidrociclón. Los resultados obtenidos demuestran que los principales factores que influyen en la hidrodinámica del tanque y del sedimentador son: la forma y distribución de rejillas del sedimentador, así como el diámetro del mismo. El efecto que producen dichas rejillas, son diversas variaciones en la distribución de velocidades del tanque y principalmente dentro del sedimentador, afectando las condiciones óptimas del flujo para la sedimentación de partículas y por ende la eficiencia en la remoción de sedimentos dentro del tanque. Con los resultados obtenidos mediante la aplicación de CFD fue posible relacionar la hidrodinámica del sedimentador con su diámetro y estructura de rejillas, logrando tener un flujo idóneo en el tanque para al sano desarrollo de los peces y un flujo con velocidad total máxima de 2 cm/s dentro del sedimentador, suficiente para lograr la sedimentación de partículas, y con ello generar un sistema con características de auto-limpieza.
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Moghimi, Ardekani Mohammad. „Optical thermal and economic optimisation of a linear Fresnel collector“. Thesis, University of Pretoria, 2017. http://hdl.handle.net/2263/61313.

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Solar energy is one of a very few low-carbon energy technologies with the enormous potential to grow to a large scale. Currently, solar power is generated via the photovoltaic (PV) and concentrating solar power (CSP) technologies. The ability of CSPs to scale up renewable energy at the utility level, as well as to store energy for electrical power generation even under circumstances when the sun is not available (after sunset or on a cloudy day), makes this technology an attractive option for sustainable clean energy. The levelised electricity cost (LEC) of CSP with thermal storage was about 0.16-0.196 Euro/kWh in 2013 (Kost et al., 2013). However, lowering LEC and harvesting more solar energy from CSPs in future motivate researchers to work harder towards the optimisation of such plants. The situation tempts people and governments to invest more in this ultimate clean source of energy while shifting the energy consumption statistics of their societies from fossil fuels to solar energy. Usually, researchers just concentrate on the optimisation of technical aspects of CSP plants (thermal and/or optical optimisation). However, the technical optimisation of a plant while disregarding economic goals cannot produce a fruitful design and in some cases may lead to an increase in the expenses of the plant, which could result in an increase in the generated electrical power price. The study focused on a comprehensive optimisation of one of the main CSP technology types, the linear Fresnel collector (LFC). In the study, the entire LFC solar domain was considered in an optimisation process to maximise the harvested solar heat flux throughout an imaginary summer day (optical goal), and to minimise cavity receiver heat losses (thermal goal) as well as minimising the manufacturing cost of the plant (economic goal). To illustrate the optimisation process, an LFC was considered with 12 design parameters influencing three objectives, and a unique combination of the parameters was found, which optimised the performance. In this regard, different engineering tools and approaches were introduced in the study, e.g., for the calculation of thermal goals, Computational Fluid Dynamics (CFD) and view area approaches were suggested, and for tackling optical goals, CFD and Monte-Carlo based ray-tracing approaches were introduced. The applicability of the introduced methods for the optimisation process was discussed through case study simulations. The study showed that for the intensive optimisation process of an LFC plant, using the Monte Carlo-based ray-tracing as high fidelity approach for the optical optimisation objective, and view area as a low fidelity approach for the thermal optimisation objective, made more sense due to the saving in computational cost without sacrificing accuracy, in comparison with other combinations of the suggested approaches. The study approaches can be developed for the optimisation of other CSP technologies after some modification and manipulation. The techniques provide alternative options for future researchers to choose the best approach in tackling the optimisation of a CSP plant regarding the nature of optimisation, computational cost and accuracy of the process.
Thesis (PhD)--University of Pretoria, 2017.
Mechanical and Aeronautical Engineering
PhD
Unrestricted
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Gomes, Marc Faria. „Internal ballistics simulation of a solid propellant rocket motor“. Master's thesis, Universidade da Beira Interior, 2013. http://hdl.handle.net/10400.6/1980.

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In the design and development of solid propellant rocket motors, the use of numerical tools able to simulate, predict and reconstruct the behaviour of a given motor in all its operative conditions is particularly important in order to decrease all the planning and costs. This study is devoted to present an approach to the numerical simulation of a given SPRM internal ballistics, NAWC no. 13, during the quasi steady state by means of a commercial numerical tool, ANSYS FLUENT. The internal ballistics model constructed in this study is a 2-D axisymmetric model, based on several assumptions. Among them is the assumption that there is no contribution of the erosive burning and the dynamic burning in the burning rate model. The results of the internal ballistics simulation are compared with the results found in the bibliographical research, thus validating the model that has been set up. The validation of the results also allows us to conclude that the assumptions made in the construction of the model are reasonable. Suggestions and recommendations for further study are outlined.
Na concepção e desenvolvimento de motores foguete sólidos, o uso de ferramentas numéricas capazes de simular, prever e reconstruir o comportamento de um dado do motor em todas as condições operativas ´e particularmente importante, a fim de diminuir todos os custos e planeamento. Este estudo ´e dedicado a apresentar uma abordagem para a simulação numérica de balística interna de um determinado motor foguete de propelente sólido, Naval Air Warfare Center no. 13, durante a fase quasi steady state por meio de uma ferramenta numérica comercial, ANSYS FLUENT. O modelo de balística interna construído neste estudo é um modelo axissimétrico 2-D. Tem por base vários pressupostos. Entre eles, está o pressuposto de que não há contribuição da queima erosiva e da queima dinâmica no modelo da taxa de queima. Os resultados da simulação balística interna são comparados com os resultados encontrados na pesquisa bibliográfica, validando assim, o modelo que foi construído. A validação dos resultados também nos permite concluir que os pressupostos assumidos na construção do modelo são razoáveis. Sugestões e recomendações para um estudo mais aprofundado são delineadas.
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Bücher zum Thema "ANSYS FLUEN"

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Introduction to ANSYS Fluent 2022. SDC Publications, 2022.

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Introduction to ANSYS Fluent 2020. Taylor & Francis Group, 2020.

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Matsson, John. Introduction to ANSYS Fluent 2022. SDC Publications, 2022.

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Introduction to ANSYS Fluent 2021. Taylor & Francis Group, 2021.

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Introduction to ANSYS Fluent 2019. Taylor & Francis Group, 2020.

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Hami, Abdelkhalak El, und Bouchaib Radi. Fluid-Structure Interactions and Uncertainties: Ansys and Fluent Tools. Wiley & Sons, Incorporated, John, 2017.

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Hami, Abdelkhalak El, und Bouchaib Radi. Fluid-Structure Interactions and Uncertainties: Ansys and Fluent Tools. Wiley & Sons, Incorporated, John, 2017.

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Hami, Abdelkhalak El, und Bouchaib Radi. Fluid-Structure Interactions and Uncertainties: Ansys and Fluent Tools. Wiley & Sons, Incorporated, John, 2017.

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Hami, Abdelkhalak El, und Bouchaib Radi. Fluid-Structure Interactions and Uncertainties Vol. 6: Ansys and Fluent Tools. Wiley & Sons, Incorporated, John, 2017.

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Buchteile zum Thema "ANSYS FLUEN"

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Sharma, Ishan, Ashish Mishra und Rakesh Mehrotra. „Performance Evaluation of Impact Stilling Basin Using ANSYS Fluent“. In Lecture Notes in Civil Engineering, 139–49. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1303-6_11.

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Vaithianathan, N., und S. Annamalai. „Ansys Fluent Analysis of a Thermo-Hydrodynamically Lubricated Journal Bearing“. In Recent Advances in Manufacturing, Automation, Design and Energy Technologies, 615–20. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-4222-7_69.

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Parmar, Mann P., Deep R. Patel, Vivek K. Patel und Rajesh S. Patel. „Thermal Simulation of Li-Ion Battery Pack Using ANSYS Fluent“. In Recent Advances in Mechanical Infrastructure, 265–74. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-4176-0_22.

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Hamdamov, Muzaffar Muhiddinovich, Akram Ismoilovich Ishnazarov und Khusniddin Abdujalilovich Mamadaliev. „Numerical Modeling of Vertical Axis Wind Turbines Using ANSYS Fluent Software“. In Lecture Notes in Computer Science, 156–70. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-30258-9_14.

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Khujaev, Ismatulla Ko’shaevich, Rabim Alikulovich Fayziev und Muzaffar Muhiddinovich Hamdamov. „Numerical Solution of the Combustion Process Using the Computer Package Ansys Fluent“. In Lecture Notes in Computer Science, 26–37. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-30258-9_3.

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Dai, Jianing, Yulin Yan, Erhao Li, Zhengyu Gong, Ling Zhang und Zhixing Gu. „Study on the 3-D Natural Circulation Characteristics of LFR Under Steady State by Using Ansys Fluent“. In Springer Proceedings in Physics, 930–40. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-1023-6_79.

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AbstractAs one of the Generation IV reactors, Lead-based Fast Reactor (LFR) has been considered to be great promising owing to its advantages in nuclear safety, sustainable development of nuclear energy and nuclear waste disposal. Owing to the excellent thermal expansion characteristics of Lead-based coolant materials, the primary cooling system of LFR can operate in natural circulation driven mode. The CFD (Computational Fluid Dynamics)-based thermal-hydraulics and safety analyses of nuclear reactors, especially liquid metal pool-type reactors have attracted great attentions in recent years. In this paper, the entire 3-D geometric model of a 10 MWth natural circulation driven LFR primary cooling system was established and simulated by ANSYS Fluent, in which the mesh was partitioned by utilizing structured meshing technology, and the porous medium model was utilized to fine the reactor core simulation. The results showed that the above LFR can operate safely in natural circulation mode, and has excellent natural circulation characteristics for the primary cooling system.
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Teixeira, Inês M., Diogo B. Esteves, Nelson J. Rodrigues, Luís A. Martins, José C. Teixeira, Ana C. Ferreira und Senhorinha F. Teixeira. „Thermal Comfort Assessment of a Small House in Portugal Using EnergyPlus and Ansys Fluent“. In Lecture Notes in Electrical Engineering, 917–24. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-6223-3_94.

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Hairudin, Wan Masrurah, Norilmi Amilia Ismail und Zaidi Mohd Ripin. „Simulation of Flow Distribution Inside Small Cavity at Two Way Radio by CFD (Ansys Fluent)“. In Lecture Notes in Mechanical Engineering, 393–98. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-15-0002-2_41.

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Štoller, Jiří, und Branislav Dubec. „Design and Assessment of Shape of Protective Structure by Usage of CFD Software Environment Ansys Fluent“. In Durability of Critical Infrastructure, Monitoring and Testing, 200–210. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-3247-9_23.

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Chaybi, Ilham. „Mathematical Modelling of a Tilt-Rotor by an Integral Method and CFX Modelling by ANSYS Fluent“. In Sustainable Aviation, 233–41. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-34181-1_20.

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Konferenzberichte zum Thema "ANSYS FLUEN"

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Welahettige, Prasanna, und Knut Vaagsaether. „Comparison of OpenFOAM and ANSYS Fluent“. In Proceedings of The 9th EUROSIM Congress on Modelling and Simulation, EUROSIM 2016, The 57th SIMS Conference on Simulation and Modelling SIMS 2016. Linköping University Electronic Press, 2018. http://dx.doi.org/10.3384/ecp171421005.

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Лобода, Ю. А. „ЧИСЛЕННОЕ МОДЕЛИРОВАНИЕ ТРАЕКТОРИЙ КАПЕЛЬ ВУТ В ANSYS FLUENT“. In XXVIII Международный симпозиум «Оптика атмосферы и океана. Физика атмосферы». Crossref, 2022. http://dx.doi.org/10.56820/oaopa.2022.29.79.001.

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В докладе представлены результаты численного моделирования в пакете ANSYS Fluent траекторий капель, образующихся при распыления водоугольного топлива (ВУТ) пневмомеханическими форсунками. Смоделированы траектории двух качественно различных систем: угольных «капель-частиц» и водоугольных капель. Установлено, что траектории движущихся «капель-частиц» и капель ВУТ в вихревой камере имеют форму спиралей, при этом время нахождения горящих «капель-частиц» и капель ВУТ в топке пропорционально их диаметру, что позволяет обеспечить практически полное их выгорание.
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Azhar, Mohammed, und Jay Sanyal. „Numerical Study of Water Flooding Simulations Using ANSYS Fluent“. In The 4th World Congress on Momentum, Heat and Mass Transfer. Avestia Publishing, 2019. http://dx.doi.org/10.11159/icmfht19.113.

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Azhar, Mohammed. „Numerical Study of Nucleate Boiling Flows Using ANSYS Fluent“. In The 4th World Congress on Momentum, Heat and Mass Transfer. Avestia Publishing, 2019. http://dx.doi.org/10.11159/icmfht19.114.

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Gurecky, William, und Erich Schneider. „Development of an MCNP6-ANSYS FLUENT Multiphysics Coupling Capability“. In 2016 24th International Conference on Nuclear Engineering. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/icone24-60937.

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This work presents a novel core multiphysics coupling method and its application to geometries and thermal hydraulic operating conditions typical of U.S. PWRs. Monte Carlo based radiation transport from the MCNP v6.1.0 package and finite volume thermal hydraulic (TH) packages provided by ANSYS-FLUENT v14.0 are combined to produce results with intra-pin resolved spatial resolution equivalent to state-of-the-art reactor physics and multi-physics suites. The Virtual Environment for Reactor Applications (VERA) whose development is spearheaded at Oak Ridge National Laboratory is one such example package. Results from the MCNP-FLUENT coupling framework are compared to a deterministic solution provided by the MPACT-COBRA-TF (MPACT-CTF) package available in VERA. Comparisons between the MCNP-FLUENT methodology and the MPACT-CTF solutions are provided for a single pin case. Good power and eigenvalue agreement (+/−4%, 352[pcm] respectively) is achieved at hot full power conditions.
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Hnatiuc, M., A. Sabau und K. Chetehouna. „Hydrodynamic Characteristic Studies of Underwater ROV. ANSYS – Fluent Simulation“. In 2019 IEEE 25th International Symposium for Design and Technology in Electronic Packaging (SIITME). IEEE, 2019. http://dx.doi.org/10.1109/siitme47687.2019.8990682.

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Loboda, Yuliya A. „Numerical simulation of WCF droplets trajectories using Ansys Fluent“. In 28th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, herausgegeben von Oleg A. Romanovskii und Gennadii G. Matvienko. SPIE, 2022. http://dx.doi.org/10.1117/12.2644552.

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Fernando, Vinul Nuwanjith, und Dulini Yasara Mudunkotuwa. „Bio-Inspired Aircraft Wing Modification Analysis in ANSYS Fluent“. In 2021 10th International Conference on Information and Automation for Sustainability (ICIAfS). IEEE, 2021. http://dx.doi.org/10.1109/iciafs52090.2021.9605821.

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Selvanayagam, Jeyatharsan, Cristhian Aliaga und John Stokes. „CFD Simulation of S-Duct Test Case Using ANSYS FLUENT“. In AIAA Propulsion and Energy 2019 Forum. Reston, Virginia: American Institute of Aeronautics and Astronautics, 2019. http://dx.doi.org/10.2514/6.2019-3847.

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Kumar, Munendra, und Shashank Aggarwal. „Flow Analysis of Rigid and Flexible Vegetation Using ANSYS Fluent“. In ASCE India Conference 2017. Reston, VA: American Society of Civil Engineers, 2018. http://dx.doi.org/10.1061/9780784482025.017.

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Berichte der Organisationen zum Thema "ANSYS FLUEN"

1

Dunham, Ryan Q. Rosin-Rammler Distributions in ANSYS Fluent. Office of Scientific and Technical Information (OSTI), August 2012. http://dx.doi.org/10.2172/1048829.

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Fernandez, Ruben, Hernando Lugo und Georfe Dulikravich. Aerodynamic Shape Multi-Objective Optimization for SAE Aero Design Competition Aircraft. Florida International University, Oktober 2021. http://dx.doi.org/10.25148/mmeurs.009778.

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The SAE Regular Class Aero Design Competition requires students to design a radio-controlled aircraft with limits to the aircraft power consumption, take-off distance, and wingspan, while maximizing the amount of payload it can carry. As a result, the aircraft should be designed subject to these simultaneous and contradicting objectives: 1) minimize the aerodynamic drag force, 2) minimize the aerodynamic pitching moment, and 3) maximize the aerodynamic lift force. In this study, we optimized the geometric design variables of a biplane configuration using 3D aerodynamic analysis using the ANSYS Fluent. Coefficients of lift, drag, and pitching moment were determined from the completed 3D CFD simulations. Extracted coefficients were used in modeFRONTIER multi-objective optimization software to find a set of non-dominated (Pareto-optimal or best trade-off) optimized 3D aircraft shapes from which the winner was selected based to the desired plane performance.
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