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DSpace Community: http://hdl.handle.net/2117/3892 Tue, 21 May 2013 10:20:02 GMT 2013-05-21T10:20:02Z webmaster.bupc@upc.edu Universitat Politècnica de Catalunya. Servei de Biblioteques i Documentació no Desarrollo de herramientas para la evaluación preliminar de la peligrosidad de corrientes detríticas http://hdl.handle.net/2117/19291 Title: Desarrollo de herramientas para la evaluación preliminar de la peligrosidad de corrientes detríticas Authors: Bregoli, Francesco; Bateman Pinzón, Allen; Medina Iglesias, Vicente César de; Hurlimann Ziegler, Marcel Abstract: Con el objetivo de proporcionar recomendaciones para la alerta temprana de fenómenos potencialmente desencadenantes de corrientes detríticas (“Debris Flow”), uno de los temas principales es la identificación preliminar de zonas de riesgo. Esta identificación es sustancialmente diferente de los mapas de riesgo que se suelen realizar por las autoridades de cuenca con el fin de dar una guía para planes de gestión del territorio. En el caso de alerta temprana, una identificación más aproximativa de las zonas de riesgo es suficiente. En esta perspectiva, los dos componentes del riesgo, peligrosidad y vulnerabilidad, se pueden estimar de una manera simplificada. En este trabajo se han desarrollado unas herramientas para la evaluación rápida de peligro por corrientes detríticas. Se han adaptado metodologías existentes y modelos simplificados y se ha llevado a cabo un útil paquete común de metodologías para una rápida evaluación de la peligrosidad. Se modelan tanto la iniciación como la propagación de corrientes detríticas. Uno de los requisitos del proyecto es definir una herramienta utilizable en diferentes contextos donde el nivel de detalle en los datos de entrada puede ser muy variado. Para lograr este objetivo se define un enfoque multinivel. La metodología se aplica en tres cuencas con características diferentes. Thu, 16 May 2013 12:17:48 GMT http://hdl.handle.net/2117/19291 2013-05-16T12:17:48Z Bregoli, Francesco; Bateman Pinzón, Allen; Medina Iglesias, Vicente César de; Hurlimann Ziegler, Marcel no Con el objetivo de proporcionar recomendaciones para la alerta temprana de fenómenos potencialmente desencadenantes de corrientes detríticas (“Debris Flow”), uno de los temas principales es la identificación preliminar de zonas de riesgo. Esta identificación es sustancialmente diferente de los mapas de riesgo que se suelen realizar por las autoridades de cuenca con el fin de dar una guía para planes de gestión del territorio. En el caso de alerta temprana, una identificación más aproximativa de las zonas de riesgo es suficiente. En esta perspectiva, los dos componentes del riesgo, peligrosidad y vulnerabilidad, se pueden estimar de una manera simplificada. En este trabajo se han desarrollado unas herramientas para la evaluación rápida de peligro por corrientes detríticas. Se han adaptado metodologías existentes y modelos simplificados y se ha llevado a cabo un útil paquete común de metodologías para una rápida evaluación de la peligrosidad. Se modelan tanto la iniciación como la propagación de corrientes detríticas. Uno de los requisitos del proyecto es definir una herramienta utilizable en diferentes contextos donde el nivel de detalle en los datos de entrada puede ser muy variado. Para lograr este objetivo se define un enfoque multinivel. La metodología se aplica en tres cuencas con características diferentes. High-speed debris-flows generating 2D impulse waves: Experimental analysis http://hdl.handle.net/2117/19255 Title: High-speed debris-flows generating 2D impulse waves: Experimental analysis Authors: Bregoli, Francesco; Bateman Pinzón, Allen; Medina Iglesias, Vicente César de Abstract: When a landslide or a debris-flow falls in a water body, a big wave, known as impulse wave or landslide tsunami wave, can be generated. That phenomenon can be highly destructive and unlikely predicted, involving dams and shorelines. Disastrous past events have been extensively analyzed and experimental studies have been carried out by different authors, but do not fully account for the description of the phenomenon. In the present study we introduce a new experimental set up installed in the fluvial-morphodynamic laboratory of the GITS team in the Technical University of Catalonia. The experimental device consists of a wheeled box sliding on a steep slope flume, releasing granular material, which enters a 2D basin. Defining a set of governing parameters and after several run of experiment, a description of the behavior of the waves was attempted. First results are here presented and analyzed. Wed, 15 May 2013 14:03:26 GMT http://hdl.handle.net/2117/19255 2013-05-15T14:03:26Z Bregoli, Francesco; Bateman Pinzón, Allen; Medina Iglesias, Vicente César de no When a landslide or a debris-flow falls in a water body, a big wave, known as impulse wave or landslide tsunami wave, can be generated. That phenomenon can be highly destructive and unlikely predicted, involving dams and shorelines. Disastrous past events have been extensively analyzed and experimental studies have been carried out by different authors, but do not fully account for the description of the phenomenon. In the present study we introduce a new experimental set up installed in the fluvial-morphodynamic laboratory of the GITS team in the Technical University of Catalonia. The experimental device consists of a wheeled box sliding on a steep slope flume, releasing granular material, which enters a 2D basin. Defining a set of governing parameters and after several run of experiment, a description of the behavior of the waves was attempted. First results are here presented and analyzed. Setup of an experimental device for high-speed debris flows generating 2D impulse waves http://hdl.handle.net/2117/18074 Title: Setup of an experimental device for high-speed debris flows generating 2D impulse waves Authors: Bateman Pinzón, Allen; Bregoli, Francesco; Medina Iglesias, Vicente César de; Rast, Manuel; Bentz, Clara Abstract: Landslides and debris flows falling into reservoirs, natural lakes, fjords or seas can generate impulse waves, which can be assimilated to tsunami-water waves. Such wave’s behavior can be highly destructive regarding dams and other structures and infrastructures as well as people living along shorelines. Destructive observed past events, such Vajont Dam in Italy (1963) or Lituya Bay in Alaska (1958), are not enough to describe and finally properly prevent the phenomenon. Experimental studies on the topic have been carried out in one-dimensional (1D) and two-dimensional (2D) water basins with a sliding block or sliding granular material. Due to the lack of studies on the effect of granular material falling in a 2D basin and to explore new ranges of governing parameters of experiments, the present research work is being carried out. In the Fluvial-Morphodynamics Laboratory of GITS in the Technical University of Catalonia, a facility to study that phenomenon is set up. The whole project was founded through the project “Debris Flow” (CGL 2009-13039) by the Spanish Ministry of Science and Technology. The system consists of a steep slope flume releasing granular material in a two dimensional basin. The main drawback was to develop a system able to reach high speed mass movement which was achieved building a metallic wheeled box, sliding in rails with a very low roughness. The second issue was to define a system able to measure the velocity of the granular material and its depth, solved processing images of a high speed camera. Finally a grid on the water surface, done by laser sheets, was set. The water surface being filmed and the resulting images successively processed, the produced wave can be measured. All the measurement systems are designed to not distort the process. First results relative on a first set of experiments are presented and preliminary discussed. Tue, 05 Mar 2013 14:58:23 GMT http://hdl.handle.net/2117/18074 2013-03-05T14:58:23Z Bateman Pinzón, Allen; Bregoli, Francesco; Medina Iglesias, Vicente César de; Rast, Manuel; Bentz, Clara no Landslides and debris flows falling into reservoirs, natural lakes, fjords or seas can generate impulse waves, which can be assimilated to tsunami-water waves. Such wave’s behavior can be highly destructive regarding dams and other structures and infrastructures as well as people living along shorelines. Destructive observed past events, such Vajont Dam in Italy (1963) or Lituya Bay in Alaska (1958), are not enough to describe and finally properly prevent the phenomenon. Experimental studies on the topic have been carried out in one-dimensional (1D) and two-dimensional (2D) water basins with a sliding block or sliding granular material. Due to the lack of studies on the effect of granular material falling in a 2D basin and to explore new ranges of governing parameters of experiments, the present research work is being carried out. In the Fluvial-Morphodynamics Laboratory of GITS in the Technical University of Catalonia, a facility to study that phenomenon is set up. The whole project was founded through the project “Debris Flow” (CGL 2009-13039) by the Spanish Ministry of Science and Technology. The system consists of a steep slope flume releasing granular material in a two dimensional basin. The main drawback was to develop a system able to reach high speed mass movement which was achieved building a metallic wheeled box, sliding in rails with a very low roughness. The second issue was to define a system able to measure the velocity of the granular material and its depth, solved processing images of a high speed camera. Finally a grid on the water surface, done by laser sheets, was set. The water surface being filmed and the resulting images successively processed, the produced wave can be measured. All the measurement systems are designed to not distort the process. First results relative on a first set of experiments are presented and preliminary discussed. Simulación numérica del flujo de un tramo fluvial con una turbina de paso situada en su lecho y los efectos en el comportamiento de su lámina libre http://hdl.handle.net/2117/17399 Title: Simulación numérica del flujo de un tramo fluvial con una turbina de paso situada en su lecho y los efectos en el comportamiento de su lámina libre Authors: Oller Aramayo, Sergio A.; Bateman Pinzón, Allen; Nallim, Liz; Oller Martínez, Sergio Horacio Abstract: Las turbinas de paso o WCT (Water Current Turbines) abren nuevas y mayores posibilidades, con grandes ventajas en cuanto al aprovechamiento hidroeléctrico. Éstas evitan las construcciones de costosas presas y reducen considerablemente el impacto medioambiental que producen otras soluciones de aprovechamiento energético. Pero a su vez esta solución plantea una serie de nuevos retos tecnológicos, debido a sus diseños sin todavía ningún tipo de estandarización y pocos antecedentes en su utilización. Además, a todo esto hay que agregar la complejidad que añade el estudio del comportamiento del flujo del río donde deben instalarse. El modelo que se analiza en el presente trabajo representa un tramo fluvial con una turbina de paso axial situada en su lecho. Dicho modelo se analiza mediante la técnica de simulación numérica CFD (Computational Fluid Dynamics) y la turbina de paso se representa introduciendo en el cauce del río un bloque constituido por un medio continuo poroso para representar las perturbaciones que esta introduce y sus intercambios energéticos con el flujo del cauce. En este artículo se analizan las velocidades alcanzadas en las distintas zonas del río, presiones, líneas de corriente, y el comportamiento de la lámina libre que resulte de la presencia de la turbina representada a través de un bloque de medio poroso. Con este trabajo se estudia un eslabón importante en la cadena de desarrollos necesarios para el diseño y factibilidad de aplicación y puesta en marcha de una turbina de paso que está actualmente en desarrollo por los autores. (Oller et al., Revista Iberoamericana de Ingeniería Mecánica, Vol.16 Nº1 pp. 03-16 (2012)). Thu, 17 Jan 2013 13:48:28 GMT http://hdl.handle.net/2117/17399 2013-01-17T13:48:28Z Oller Aramayo, Sergio A.; Bateman Pinzón, Allen; Nallim, Liz; Oller Martínez, Sergio Horacio no WCT, CFD (Computational Fluid Dynamics), Lecho Fluvial, Medios Porosos Las turbinas de paso o WCT (Water Current Turbines) abren nuevas y mayores posibilidades, con grandes ventajas en cuanto al aprovechamiento hidroeléctrico. Éstas evitan las construcciones de costosas presas y reducen considerablemente el impacto medioambiental que producen otras soluciones de aprovechamiento energético. Pero a su vez esta solución plantea una serie de nuevos retos tecnológicos, debido a sus diseños sin todavía ningún tipo de estandarización y pocos antecedentes en su utilización. Además, a todo esto hay que agregar la complejidad que añade el estudio del comportamiento del flujo del río donde deben instalarse. El modelo que se analiza en el presente trabajo representa un tramo fluvial con una turbina de paso axial situada en su lecho. Dicho modelo se analiza mediante la técnica de simulación numérica CFD (Computational Fluid Dynamics) y la turbina de paso se representa introduciendo en el cauce del río un bloque constituido por un medio continuo poroso para representar las perturbaciones que esta introduce y sus intercambios energéticos con el flujo del cauce. En este artículo se analizan las velocidades alcanzadas en las distintas zonas del río, presiones, líneas de corriente, y el comportamiento de la lámina libre que resulte de la presencia de la turbina representada a través de un bloque de medio poroso. Con este trabajo se estudia un eslabón importante en la cadena de desarrollos necesarios para el diseño y factibilidad de aplicación y puesta en marcha de una turbina de paso que está actualmente en desarrollo por los autores. (Oller et al., Revista Iberoamericana de Ingeniería Mecánica, Vol.16 Nº1 pp. 03-16 (2012)). Improving risk management for flash floods and debris flow events http://hdl.handle.net/2117/15903 Title: Improving risk management for flash floods and debris flow events Authors: Uijlenhoet, Remko; Sempere Torres, Daniel; Velasco Montes, David; Berenguer Ferrer, Marc; Bateman Pinzón, Allen; Germann, Urs; Thielen, Jutta; Beven, K.; Zappa, Massimiliano; Demarchi, M.; Bertoli, M.; Gaechter, M.; Velasco, E.; Wittwer, C.; Sánchez-Diezma Guijarro, Rafael; Vilaclara, E.; Pegram, Geoffrey; Papa, M.; Escaler, I.; Lombardi, G.; Santiago, A.; Zawadzki, Isztar Mon, 21 May 2012 15:36:58 GMT http://hdl.handle.net/2117/15903 2012-05-21T15:36:58Z Uijlenhoet, Remko; Sempere Torres, Daniel; Velasco Montes, David; Berenguer Ferrer, Marc; Bateman Pinzón, Allen; Germann, Urs; Thielen, Jutta; Beven, K.; Zappa, Massimiliano; Demarchi, M.; Bertoli, M.; Gaechter, M.; Velasco, E.; Wittwer, C.; Sánchez-Diezma Guijarro, Rafael; Vilaclara, E.; Pegram, Geoffrey; Papa, M.; Escaler, I.; Lombardi, G.; Santiago, A.; Zawadzki, Isztar no Flow structure and resistance in flexible vegetated channels http://hdl.handle.net/2117/15630 Title: Flow structure and resistance in flexible vegetated channels Authors: Velasco Montes, David; Bateman Pinzón, Allen; Redondo Apraiz, José Manuel Abstract: The present paper helps to understand the behaviour of the flow through plants, as a first approximation to the environmental interactions happening in natural rivers. Wed, 21 Mar 2012 10:34:48 GMT http://hdl.handle.net/2117/15630 2012-03-21T10:34:48Z Velasco Montes, David; Bateman Pinzón, Allen; Redondo Apraiz, José Manuel no The present paper helps to understand the behaviour of the flow through plants, as a first approximation to the environmental interactions happening in natural rivers. Numerical analysis of MHD-thermofluid flows considering sandwich structures as applied to liquid breeding blankets for fusion technology http://hdl.handle.net/2117/15199 Title: Numerical analysis of MHD-thermofluid flows considering sandwich structures as applied to liquid breeding blankets for fusion technology Authors: Mas de les Valls Ortiz, Elisabet; Batet Miracle, Lluís; Medina Iglesias, Vicente César de; Fradera, Jordi; Sedano, L.A. Abstract: Lead lithium flowing inside breeding blanket’s channels in a fusion reactor is subject to a Hartmann number of 104 and a Grashof number 109􀀀12. Since under such conditions buoyancy can be of the same order of magnitude as the electromagnetic force, a deep understanding of the coupled phenomena is required. In the present study, a horizontal channel with dimensions, mean velocity and thermal load taken from HCLL blanket design, and considering a Hartmann number of 3000, is analysed using di erent thermal strategies. The unstable nature of the resulting flow is studied, as well as its influence on relevant thermal parameters. Fri, 17 Feb 2012 10:23:06 GMT http://hdl.handle.net/2117/15199 2012-02-17T10:23:06Z Mas de les Valls Ortiz, Elisabet; Batet Miracle, Lluís; Medina Iglesias, Vicente César de; Fradera, Jordi; Sedano, L.A. no Lead lithium flowing inside breeding blanket’s channels in a fusion reactor is subject to a Hartmann number of 104 and a Grashof number 109􀀀12. Since under such conditions buoyancy can be of the same order of magnitude as the electromagnetic force, a deep understanding of the coupled phenomena is required. In the present study, a horizontal channel with dimensions, mean velocity and thermal load taken from HCLL blanket design, and considering a Hartmann number of 3000, is analysed using di erent thermal strategies. The unstable nature of the resulting flow is studied, as well as its influence on relevant thermal parameters. Experimental and theoretical modelling of 3D gravity currents http://hdl.handle.net/2117/13839 Title: Experimental and theoretical modelling of 3D gravity currents Authors: Larocca, Michelle; Bateman Pinzón, Allen Wed, 09 Nov 2011 18:46:35 GMT http://hdl.handle.net/2117/13839 2011-11-09T18:46:35Z Larocca, Michelle; Bateman Pinzón, Allen no Computational fluid dynamics Development of preliminary assessment tools to evaluate debris flow risks http://hdl.handle.net/2117/10802 Title: Development of preliminary assessment tools to evaluate debris flow risks Authors: Bregoli, Francesco; Ciervo, F; Medina Iglesias, Vicente César de; Bateman Pinzón, Allen; Hurlimann Ziegler, Marcel; Chevalier, G.; Papa, M Abstract: In the framework of the IMPRINTS European Research Project (FP7), a toolbox for fast assessment of debris flow hazard has been developed. The aim of this toolbox is to implement different existing models inside a common package useful for a fast evaluation of potential hazard. The initiation and propagation of the debris flow is included. One of the requirements of the projects is to define different scenarios with different detail levels in data input. As an example of this, the results could be obtained just using topographical data or improve accuracy by adding geological and hydrological data. Tue, 28 Dec 2010 19:31:33 GMT http://hdl.handle.net/2117/10802 2010-12-28T19:31:33Z Bregoli, Francesco; Ciervo, F; Medina Iglesias, Vicente César de; Bateman Pinzón, Allen; Hurlimann Ziegler, Marcel; Chevalier, G.; Papa, M no Debris Flow, Hazard Assessment, Run-out, Shallow Landslide, In-Channel, Initiation In the framework of the IMPRINTS European Research Project (FP7), a toolbox for fast assessment of debris flow hazard has been developed. The aim of this toolbox is to implement different existing models inside a common package useful for a fast evaluation of potential hazard. The initiation and propagation of the debris flow is included. One of the requirements of the projects is to define different scenarios with different detail levels in data input. As an example of this, the results could be obtained just using topographical data or improve accuracy by adding geological and hydrological data.