1 |
Finite Element Simulation of the Atomization of Liquid Membrane in Gene GunLin, Wei-ting 14 August 2012 (has links)
In recent years, with advances in medical treatment, the demand of medical beauty market has increased year by year. With the continuous innovation of nanotechnology, medical technology with nanometer level is becoming the one of the most important issue of the development of medical biotechnology in recent years. In order to make the products effective, the products have to be transported into the human skin. In traditional medical treatments, the devices of contacting type or invading type were adopted, and might cause some infected problems. To avoid these situations, some medical companies have developing the non-contact type device¡Ð gene gun. This device use nitrogen as motive force to atomize the thin film of the injection products, then delivering these products to derma.
This research utilizes computational fluid dynamics software to build the FEM simulation model of Venturi tube inside of a gene gun. Then, analyzing the speed and atomization of fluid which inside or outside of Venturi tube. A FEM simulated mechanism for the atomization of multiphase flow was constructed in this research successfully. The effects of variations of some geometric parameters of Venturi tube on the atomization of thin film were studied also. The obtained results can shorten cost and time in relevant development.
|
2 |
Cavitation Induced by Rotation of Liquid / Cavitation Induced by Rotation of LiquidKozák, Jiří January 2020 (has links)
Tato disertační práce se zabývá experimentálním a numerickým výzkumem kavitace vyvolané rotací. Pro potřeby tohoto výzkumu byla využita transparentní osově symetrická Venturiho dýza, díky čemuž bylo možné zkoumat dynamiku kavitujícího proudění pomocí analýzy vysokorychlostních nahrávek.
|
3 |
Modelování kavitujícího proudění / Modeling of cavitating flowFrölich, Kamil January 2010 (has links)
his thesis deals with the problems of cavitation flow in a Venturi tube. It is made for a multi-phase (water-vapour) flow calculation of two geometry tubes. Results of numerical calculations for the flow geometry (dimensions) are compared with performed experiment. Numerical flow calculation was performed in the Fluent 2.3.26.
|
4 |
Modelagem teórica e experimental de um reator de cavitação hidrodinâmica com tubo de Venturi para pré-tratamento de bagaço de cana-de-açúcar /Bimestre, Thiago Averaldo. January 2020 (has links)
Orientador: Celso Eduardo Tuna / Resumo: A agroindústria nacional brasileira dispõe de uma grande variedade de unidades agrícolas que geram elevada quantidade de resíduos como o bagaço de cana-de-açúcar. Mesmo diante da crescente utilização desse material, o excedente ainda é da ordem de milhões de toneladas, causando problemas de estocagem e poluição ambiental. Devido a sua estrutura complexa e sua recalcitrância, a etapa de pré-tratamento representa o desafio mais crítico para a viabilização da utilização do bagaço de cana-de-açúcar dentro do contexto de uma biorrefinaria. O pré-tratamento busca facilitar o acesso aos componentes estruturais da biomassa, permitindo sua utilização na cadeia produtiva. Existem diferentes métodos de pré-tratamento como os físicos, químicos e biológicos ou uma combinação de todos esses, de modo que a geração de resíduos ambientalmente perigosos e/ou altos insumos energéticos é o gargalo. Neste sentido, rotas tecnológicas alternativas vem sendo estudadas e a cavitação hidrodinâmica desponta-se como uma promissora rota para o pré-tratamento de biomassa liberando grandes magnitudes de energia e induzindo a transformações físicas e químicas, favorecendo o rompimento da matriz carboidrato-lignina. Neste contexto, este trabalho empregou a cavitação hidrodinâmica para potencializar o pré-tratamento alcalino do bagaço de cana-de-açúcar. Para isto, projetou-se um reator de cavitação hidrodinâmica com tubo de Venturi utilizando como base uma abordagem computacional para a dinâmica dos fluidos. ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The Brazilian national agroindustry has a large variety of agricultural units that generate high amounts of waste such as sugarcane bagasse. Even with the increasing use of this material, the surplus is still in the order of millions of tons, causing problems of stocking and environmental pollution. Due to its complex structure and recalcitrance, the pretreatment stage represents the most critical challenge for the feasibility of using sugarcane bagasse within the context of biorefinery. Pretreatment seeks to facilitate access to the structural components of biomass, allowing its use in the production chain. There are different pretreatment methods such as physical, chemical, physicochemical and biological or a combination of all of these, so that the generation of environmentally hazardous waste and / or high energy inputs is the bottleneck. In this sense, alternative technological routes have been studied and hydrodynamic cavitation emerges as a promising route for biomass pretreatment releasing large energy magnitudes and inducing physical and chemical transformations, favoring the rupture of the carbohydrate-lignin matrix. In this context, this thesis employed hydrodynamic cavitation as a physical means to improve the alkaline pre-treatment of sugarcane bagasse. The hydrodynamic cavitation reactor with Venturi tube was modeled by a computational approach to fluid dynamics, in order to evaluate the influence of the pressure ratio, the length and diameter of the throat and ... (Complete abstract click electronic access below) / Doutor
|
5 |
Automatizované pracoviště pro měření vzduchotechnických veličin / Automatized working place for measuring of airflow parametersSmělý, Jakub January 2013 (has links)
This thesis describes the design work for the measurement of air values. The first part describes the airflow, pressure build-up in pipes and losses due to airflow losses. There is also a description of fans and explain their characteristics depending on the pressure generated by airflow. The next part describes the design of the measuring chamber, electronics and control for fully automatic measurement of air quantities.
|
Page generated in 0.0509 seconds