285 research outputs found
Free-Form, High Energy Performance, Transparent Envelope
This article examines, from the energy viewpoint, a new lightweight, slim, high energy efficient, light-transmitting envelope system, providing for seamless, free-form designs for use in architectural projects. The research was based on envelope components already existing on the market, especially components implemented with granular silica gel insulation, as this is the most effective translucent thermal insulation there is today. The tests run on these materials revealed that there is not one that has all the features required of the new envelope model, although some do have properties that could be exploited to generate this envelope, namely, the vacuum chamber of vacuum insulated panels (VIP), the monolithic aerogel used as insulation in some prototypes, reinforced polyester barriers. By combining these three design components — the high-performance thermal insulation of the vacuum chamber combined with monolithic silica gel insulation, the free-form design potential provided by materials like reinforced polyester and epoxy resins—, we have been able to define and test a new, variable geometry, energy-saving envelope system
A New Envelope with Highly Energy-Efficient Insulation
This article examines, from the insulation viewpoint, a new lightweight, slim, highly energy-efficient, light-transmitting envelope system, providing seamless, free form designs for use in architectural projects. The research was based on envelope components that are already on the market, especially components implemented with granular silica gel insulation, because this is the most effective translucent thermal insulation available today. The tests run on these materials revealed that there is no single component that has all the features required of the new envelope model. However, some do have properties that could be exploited to generate this envelope, namely the vacuum chamber of VIP panels, monolithic aero gel used as insulation in some prototypes and reinforced polyester barriers. By combining these three design components, the high-performance thermal insulation of the vacuum chamber, combined with monolithic silica gel insulation and the free-form design potential provided by materials like reinforced polyester and epoxy resins, we have been able to define and test a new, variable geometry, envelope insulation system with excellent energy-saving level
Síntesis de monómeros m-terfenildicarboxílicos para la preparación de membranas de naturaleza poliamídica
Mediante la reacción de Suzuki-Miyaura se han obtenido una serie de ácidos m-terfenilo3,3”-dicarboxílico con diferentes sustituyentes en la posición 5’. El acoplamiento se ha realizado a partir del ácido 3-carboxi-fenilborónico y los correspondientes derivados de 1,3dibromobenceno sustituidos en C-5, utilizando catalizadores de (PPh3)4Pd0. Se pretende preparar estos compuestos con un rendimiento y coste razonables, así como proporcionar una descripción experimental detallada y reproducible. En última instancia, en investigaciones posteriores a este TFG, los derivados terfenílicos se emplearan como comonómeros, junto a diaminas, en la formación de las membranas poliamídicas.Grado en Químic
Aprovechamiento del caucho proveniente de neumáticos fuera de uso en elastómeros autorreparables
El objetivo general de este trabajo de investigación ha sido evaluar
el potencial de aprovechamiento del caucho procedente de
neumáticos fuera de uso (NFU), para mejorar el rendimiento de
cauchos autorreparables. Para ello, se han correlacionado la macro y
microestructura del polvo de caucho de NFU (GTR) y del producto
desvulcanizado derivado (dGTR), con las propiedades y el
comportamiento de un caucho estireno-butadieno (SBR)
autorreparable.Departamento de Física de la Materia Condensada, Cristalografía y MineralogíaDoctorado en Ingeniería Industria
Free-Form, High Energy Performance, Transparent Vacuum Envelope
El artículo examina un nuevo sistema envolvente ligero, delgado, con ahorro energético, libre de formas diseñado para su uso en proyectos de arquitectura
F²TE³: A Transparent semi-monocoque VIP Envelope
This article examines a new lightweight, slim, high energy efficient, light-transmitting, self-supporting envelope system, providing for seamless, free-form designs for use in architectural projects. The system exploits vacuum insulation panel technology. The research was based on envelope components already existing on the market and patents and prototypes built by independent laboratories, especially components implemented with silica gel insulation, as this is the most effective transparent thermal insulation there is today. The tests run on these materials revealed that there is not one that has all the features required of the new envelope model, although some do have properties that could be exploited to generate this envelope, namely, the vacuum chamber of vacuum insulation panels, the use of monolithic aerogel as insulation in some prototypes, and reinforced polyester barriers. These three design components have been combined and tested to design a new, variable geometry, energy-saving envelope system that also solves many of the problems that other studies ascribe to the use of vacuum insulation panels
F2TE3: A Transparent semi-monocoque VIP Envelope
This article examines a new lightweight, slim, high energy efficient, light-transmitting, self-supporting envelope system, providing for seamless, free-form designs for use in architectural projects. The system exploits vacuum insulation panel technology. The research was based on envelope components already existing on the market and patents and prototypes built by independent laboratories, especially components implemented with silica gel insulation, as this is the most effective transparent thermal insulation there is today. The tests run on these materials revealed that there is not one that has all the features required of the new envelope model, although some do have properties that could be exploited to generate this envelope, namely, the vacuum chamber of vacuum insulation panels, the use of monolithic aerogel as insulation in some prototypes, and reinforced polyester barriers. These three design components have been combined and tested to design a new, variable geometry, energy-saving envelope system that also solves many of the problems that other studies ascribe to the use of vacuum insulation panels
Simulation study on the fleet performance of shared autonomous bicycles
Rethinking cities is now more imperative than ever, as society faces global
challenges such as population growth and climate change. The design of cities
can not be abstracted from the design of its mobility system, and, therefore,
efficient solutions must be found to transport people and goods throughout the
city in an ecological way. An autonomous bicycle-sharing system would combine
the most relevant benefits of vehicle sharing, electrification, autonomy, and
micro-mobility, increasing the efficiency and convenience of bicycle-sharing
systems and incentivizing more people to bike and enjoy their cities in an
environmentally friendly way. Due to the uniqueness and radical novelty of
introducing autonomous driving technology into bicycle-sharing systems and the
inherent complexity of these systems, there is a need to quantify the potential
impact of autonomy on fleet performance and user experience. This paper
presents an ad-hoc agent-based simulator that provides an in-depth
understanding of the fleet behavior of autonomous bicycle-sharing systems in
realistic scenarios, including a rebalancing system based on demand prediction.
In addition, this work describes the impact of different parameters on system
efficiency and service quality and quantifies the extent to which an autonomous
system would outperform current bicycle-sharing schemes. The obtained results
show that with a fleet size three and a half times smaller than a station-based
system and eight times smaller than a dockless system, an autonomous system can
provide overall improved performance and user experience even with no
rebalancing. These findings indicate that the remarkable efficiency of an
autonomous bicycle-sharing system could compensate for the additional cost of
autonomous bicycles
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