Desempenho acústico de diferentes tipologias de peitoris ventilados / Acoustic performances of various types of windows ventilated sills

Oiticica, Maria Lúcia Gondim da Rosa

07 May 2010

Orientador: Stelamaris Rolla Bertoli / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-16T13:37:38Z (GMT). No. of bitstreams: 1 Oiticica_MariaLuciaGondimdaRosa_D.pdf: 8031849 bytes, checksum: 7b186c29405cc5443f860aedc6138082 (MD5) Previous issue date: 2010 / Abstract: Com a crise energética na década de 60, varias discussões foram levantadas com o propósito de estimular as edificações a estarem inseridas em um contexto sustentável. As edificações, por serem grandes consumidoras dos recursos naturais, buscam ser mais eficientes energeticamente que outras quando estas proporcionam as mesmas condições ambientais com menor consumo energético. Para tal, a bioclimatologia que relaciona o estudo do clima aplicado à arquitetura, quando focada nas decisões arquitetônicas, torna-se uma excelente ferramenta para se obter valores de consumo energéticos mais baixos. Nas regiões de clima quente úmido, a utilização do peitoril ventilado como estratégia de projeto bioclimático, é uma ferramenta de projeto muito bem aplicada dentro deste conceito. O peitoril ventilado é um dispositivo geralmente executado em concreto, em formato geralmente em "L" invertido, sobreposto a uma abertura localizada no peitoril abaixo das janelas, que tem por finalidade atuar como fonte complementar do movimento de ar proporcionado pelas aberturas. A presença deste elemento nas aberturas das edificações pode proporcionar uma redução do consumo de energia, uma vez que estimula a climatização natural, mas ao mesmo tempo permite a passagem de ruído para o interior das edificações. Este trabalho tem o objetivo de investigar o desempenho acústico de diversos protótipos de peitoril ventilado, utilizados em fachadas como estratégia passiva de projeto bioclimático. Como método de avaliação acústica foi medido o grau de isolamento acústico dos peitoris ventilados através da diferença de nível sonoro padronizado mantendo-se fixa a área de abertura e variando as características construtivas do elemento de fachada investigado. Diante dos diversos materiais construtivos utilizados nos protótipos foi possível verificar significativas alterações na atenuação acústica dos diferentes modelos investigados. Com isto, registra-se que a utilização de uma estratégia passiva de projeto bem aplicada poderá propiciar em melhora nas condições acústica no interior das edificações, estimulando assim a utilização da climatização natural e consequentemente contribuindo para um menor consumo energético. / Abstract: With the energy crisis in the 60s, several discussions have been raised with the intention of stimulating the buildings to be included in a sustainable context. The buildings, being large consumers of natural resources, seek to be more energy efficient than others when they provide the same environmental conditions with lower energy consumption. To this end, the bioclimatology that connects the study of climate applied to architecture, when focused on architectural decisions, it is an excellent tool to obtain values of lower energy consumption. In regions of warm humid climate, the use of ventilated window sill as bioclimatic design strategy is a very well implemented project tool in this concept. The ventilated window sill is a device generally in "L" inverted, made on concrete, overlaid with a sill opening located below the window, mainly act as a supplementary movement of air source provided by openings. The presence of this element in the openings of buildings can provide a reduction in energy consumption since it stimulates the natural climatization, but at the same time allows the passage of noise to the interior of buildings. This work aims to investigate the sound insulation of a wall containing different prototypes of ventilated windows sill commonly used in walls as a passive bioclimatic design. The presence of this element in the openings of buildings can provide a reduction in energy consumption since it stimulates the natural air conditioning, but at the same time allows the passage of noise to the interior of buildings. This work aims to investigate the sound insulation of a wall containing different prototypes of ventilated windows sill commonly used in walls as a passive bioclimatic design. As methodology, different settings of ventilated window sill were inserted in façade of flat opening building but made of different materials. The sound insulation performance of each element used in a façade were compared and analyzed. In preliminary results it was possible to verify changes in acoustic attenuation of different types of ventilated windows sill investigated. That is, records that the use of a passive strategy and implemented the project could offer in improving thermal and acoustic conditions inside the buildings with lower energy consumption. / Doutorado / Arquitetura e Construção / Doutor em Engenharia Civil

Isolamento acústico

Acústica

Energia - Conservação

Bioclimatologia

Arquitetura e clima

Acoustic insulation

Acoustic

Energy - Conservation

Bioclimatology

Architecture and climate

Fonte geradora de impacto padronizado : construção e qualificação / Generating source of standardized impact : construction and qualification

Mojolla, Roberto, 1971-

27 August 2018

Orientador: Stelamaris Rolla Bertoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-27T02:02:34Z (GMT). No. of bitstreams: 1 Mojolla_Roberto_M.pdf: 4732831 bytes, checksum: e5a198764e38a4eea41b14c8e3fbcaa0 (MD5) Previous issue date: 2015 / Resumo: Uma das queixas mais frequentes entre moradores de edifícios residenciais é o incomôdo causado por ruídos de impactos nos sistemas piso-teto decorrentes do caminhar ou quedas de objetos. Segundo as normas nacionais e internacionais, avaliar o desempenho acústico destes sistemas depende do uso de equipamentos normalizados e certificados. Para atender aos métodos de avaliação do desempenho acústico sugerido pelas normas, é necessário importar grande parte dos equipamentos recomendados, causando transtornos de diversas ordens. A avaliação da isolação acústica de pisos submetidos a impactos depende do uso de uma fonte de impacto padronizado (Standard Tapping Machine). Este é o equipamento padronizado para excitação de pisos na avaliação do nível de pressão sonora de impactos. A norma NBR 15575-3 (2013) indica a utilização do método de medição e avaliação do desempenho acústico de pisos com relação ao ruído de impactos proposto pela ISO 140-7 (1998) e ISO 717-2 (2013). No anexo A da norma ISO 140-7 (1998) são descritas as características e funções que a máquina de impacto padronizado deve cumprir. Esta pesquisa teve como objetivo construir e qualificar para uso uma fonte sonora de impacto padronizado. Para construção da fonte, observando as indicações do Anexo A da norma ISO 140-7 (1998), as partes que compõem o equipamento foram desenhadas, confeccionadas e montadas. Para qualificar o protótipo da fonte foram realizadas medidas em campo do nível de pressão sonora de impacto em sistemas piso-teto compartilhado em edifícios, conforme recomendado pela norma NBR 15575-3 (2013), empregando uma máquina de impactos comercial e repetindo o procedimento com o protótipo construído. A comparação dos níveis de pressão sonora de impacto padronizado, obtidos em função de frequências, validou numericamente a utilização do protótipo nas medições em campo realizadas. Estas medições quantificaram e qualificaram o isolamento sonoro oferecido pelos sistemas piso-teto ensaiados com relação ao ruído de impacto. Foram incorporadas inovações ao protótipo por meio da adoção de rolamentos lineares como guias para queda dos martelos e a inserção de peças resilientes sobre os contados de elevação dos martelos, reduzindo a emissão de ruído aéreo de funcionamento / Abstract: One of the most frequent complaints among inhabitants of residential buildings is the annoyance caused by noise impacts in the floor-ceiling systems resulting from walking or falling objects. According to national and international standards, assess the acoustic performance of these systems depends on the use of standardized and certified equipment. To meet the methods of assessing the acoustic performance suggested by the standards it is necessary to import most of the recommended equipment, causing disturbances of several orders. Assessment of acoustic insulation flooring subjected to impacts depends on use of a standardized source of impacts (Standard Tapping Machine). This is the standard equipment for floors excitation in the evaluation of sound pressure level impacts. The NBR 15575-3 (2013) indicates the use of the method of measurement and evaluation of acoustic performance levels with respect to noise impacts proposed by the ISO 140-7 (1998) and ISO 717-2 (2013). In Annex A of ISO 140-7 (1998) the features and functions are described that the machine must meet standardized impacts. This research aimed to construct and qualify to use a sound source of standardized impacts. For construction of the source, checking the indications in Annex A of ISO 140-7 (1998), the component parts of the equipment are designed, made and assembled. To qualify the prototype of the source were carried out measures in the field of sound pressure level of impact in floor-ceiling shared systems in buildings, as recommended by the standard 15575-3 (2013), using a commercial impact machine and repeating the procedure with the prototype built. Comparison of sound pressure levels of standardized impacts, obtained as a function of frequency, numerically validated the use of the prototype in measurements performed in the field. These measurements quantify and qualify the sound insulation provided by floor-ceiling systems tested with respect to the impact of noise. Innovations were incorporated into the prototype through the adoption of linear bearings as guides for the fall of the hammers and the inclusion of resilient pieces on the numbered elevation of hammers, reducing the emission of airborne noise operation / Mestrado / Arquitetura, Tecnologia e Cidade / Mestre em Arquitetura, Tecnologia e Cidade

Acústica arquitetônica

Edificios - Desempenho

Isolamento acústico

Ruído

Architetural acoustics;

Buildings - Performance

Acoustic insulation

Noise

The development of an acoustic insulation solution using mushroom mycelium as an alternative to synthetic foams

Brito Guerrero de Escalante, Adrián

January 2023

In the past decades, humanity is facing the consequences of the irresponsible production of plastics and the expansion of industries such as industrial agriculture, Therefore, the development of new sustainable alternative materials has become increasingly popular as a science field. That is the case of mycelium composites, a biodegradable material made out of agricultural and the thread-like roots of mushrooms called mycelium. The mycelium, when growing, binds all the particles of organic matter together, creating a stiff material that takes the shape of the mold where it was cultivated. The material is lightweight, fire resistant, provides acoustic and thermal insulation and has good behavior under compression efforts. So far, research has been conducted on testing the properties of the material, but there is a lack of knowledge on how to address this material from a design perspective. How to design with it, how to make it appealing to the users or how to value its intrinsic characteristics. For that, the design thinking methodology "Design thinking bootleg" was followed and theory and methods under the perspective of "Design for emotion" and the approach of "Material driven design" that facilitates design processes where the material is the main driver. An acoustic insulation solution was developed as a result, since it was concluded to be the most competitive application among the different possibilities of mycelium composites. The product aims for a certain emotional response in the users, seeking the development of an emotional connection and creating awareness about the role mushrooms play in nature and the use of sustainable materials. Eventually, the product succeeded in transmitting more than mere curiosity, especially after explaining the story behind it. Overall, the product is still far from competing against plastics in terms of scalability and speed of production. However, research on this topic is increasing exponentially and the material proves to have a lot of potential, so it is expected to be improved in the next few years.

mycelium composites

design thinking

design for emotion

sustainability

acoustic insulation

fungi

mushrooms.

Engineering and Technology

Teknik och teknologier

Vibro-acoustic products from re-cycled raw materials using a cold extrusion process : a continuous cold extrusion process has been developed to tailor a porous structure from polymeric waste, so that the final material possesses particular vibro-acoustic properties

Khan, Amir

January 2008

A cold extrusion process has been developed to tailor a porous structure from polymeric waste. The use of an extruder to manufacture acoustic materials from recycled waste is a novel idea and the author is not aware of any similar attempts. The extruder conveys and mixes the particulates with a reacting binder. The end result is the continuous production of bound particulates through which a controlled amount of carbon dioxide gas that is evolved during the reaction is used to give the desired acoustic properties. The cold extrusion process is a low energy consuming process that reprocesses the post manufacturing waste into new vibro-acoustic products that can be used to meet the growing public expectations for a quieter environment. The acoustical properties of the developed products are modelled using Pade approximation and Johnson-Champoux-Allard models. Applications for the developed products are widespread and include acoustic underlay, insulation and panels in buildings, noise barriers for motorways and railway tracks, acoustic insulation in commercial appliances and transport vehicles.

620.1

Proposta de elemento vazado acústico / Proposal acoustic hollow element

Araujo, Bianca Carla Dantas de

15 March 2010

O conforto ambiental requer a busca de alternativas de projeto que promovam menos impacto energético na arquitetura. Em locais de climas quentes e úmidos, a ventilação natural é uma das estratégias de projeto; inseridos nesta visão, os elementos vazados (cobogós ou combogós, com são popularmente conhecidos no nordeste brasileiro) agem como componentes arquitetônicos que proporcionam permanente ventilação natural, proteção solar e iluminação natural, além de facilidade de fabricação. Apesar do uso secular dos elementos vazados, eles perderam espaço na produção arquitetônica contemporânea, e são raras pesquisas com vistas a aprimorar seu potencial como alternativa passiva de projeto. Entretanto, existe consciência dos problemas acústicos correlatos que advém da sua utilização na ventilação natural, tais como o comprometimento na isolação dos ruídos externos e na privacidade entre ambientes. O presente trabalho, por esses motivos, tem por proposta desenvolver um elemento vazado acústico, objetivando utilizá-lo na minoração do problema da dicotomia entre os aspectos térmicos e acústicos envolvidos. O desempenho do isolamento sonoro in situ dos elementos criados foi avaliado com base na Norma ISO 140-5, tendo sido também estudado o desempenho da ventilação natural através de simulações computacionais, utilizando métodos da dinâmica dos fluidos computacional - CFD. Foram desenvolvidos 4 tipos de blocos, todos eles avaliados em diferentes montagens numa parede do tipo fachada, segundo 3 condições: fechados e abertos (com e sem material absorvente). Os resultados revelaram o quão susceptível é a transmissão do ruído em aberturas de ventilação, entretanto, resultados satisfatórios de isolamento sonoro foram obtidos, principalmente em uma das montagens (bloco tipo 3, caixa), a qual apresentou desempenho similar ao bloco fechado com um Índice de Redução de Ruído Padrão Global (Dntw) de 27 dB. Esta montagem apresenta relação de área aberta satisfatória para promover a ventilação natural dentro de um ambiente (confirmada pelo melhor desempenho comparativo de ventilação dos blocos simulados), além de apresentar isolamento sonoro superior ao de outros (poucos) elementos existentes no mercado, com o objetivo de promover a ventilação natural e reduzir a transmissão de ruído para se obter bom desempenho. / The environmental comfort requires the search for design alternatives that promote less energy impact on architecture. In places with hot and humid climates, natural ventilation is one of design strategies; into this vision, the hollow elements (cobogós or combogós, as popularly known in northeastern Brazil) act as architectural components that provide permanent natural ventilation, sun protection and natural lighting, and ease of manufacture. Despite the secular use of hollow elements, they lost space in contemporary architectural production, and there are few surveys with a view to enhancing its potential as an alternative passive design. However, there is awareness of the problems related noise that comes from its use in natural ventilation, such as commitment in the isolation of external noise and privacy between environments. In this work, for these reasons, the proposal is to develop an element hollow sound, aiming to use it in alleviating the problem of the dichotomy between the thermal and acoustic aspects involved. The performance of sound insulation in situ of the elements created was assessed based on the ISO 140-5, was also studied the performance of natural ventilation through computer simulations, using methods of computational fluid dynamics - CFD. Were developed 4 types of blocks, all studied at different mounts on a wall like facade, according to 3 conditions: closed and open (with and without sound absorption material). The results revealed how likely is the transmission of noise from the vent, however, satisfactory sound insulation were obtained, especially in one of the mounts (block type 3, box), which presented a performance similar to a closed block with index Noise Reduction Global Standard (Dntw) of 27 dB. This assembly has an open area ratio of satisfactory to promote natural ventilation in an environment (confirmed by the comparative performance of simulated ventilation of the blocks), while maintaining sound insulation than the other (few) elements in the market, with the objective to promote natural ventilation and reduce noise transmission to achieve good performance

Acoustic comfort of buildings

Acoustic insulation

Acústica arquitetônica

Architectural acoustics

Conforto acústico das construções

Elemento Vazado

Hollow elements

Isolamento acústico

Proposta de elemento vazado acústico / Proposal acoustic hollow element

Bianca Carla Dantas de Araujo

15 March 2010

O conforto ambiental requer a busca de alternativas de projeto que promovam menos impacto energético na arquitetura. Em locais de climas quentes e úmidos, a ventilação natural é uma das estratégias de projeto; inseridos nesta visão, os elementos vazados (cobogós ou combogós, com são popularmente conhecidos no nordeste brasileiro) agem como componentes arquitetônicos que proporcionam permanente ventilação natural, proteção solar e iluminação natural, além de facilidade de fabricação. Apesar do uso secular dos elementos vazados, eles perderam espaço na produção arquitetônica contemporânea, e são raras pesquisas com vistas a aprimorar seu potencial como alternativa passiva de projeto. Entretanto, existe consciência dos problemas acústicos correlatos que advém da sua utilização na ventilação natural, tais como o comprometimento na isolação dos ruídos externos e na privacidade entre ambientes. O presente trabalho, por esses motivos, tem por proposta desenvolver um elemento vazado acústico, objetivando utilizá-lo na minoração do problema da dicotomia entre os aspectos térmicos e acústicos envolvidos. O desempenho do isolamento sonoro in situ dos elementos criados foi avaliado com base na Norma ISO 140-5, tendo sido também estudado o desempenho da ventilação natural através de simulações computacionais, utilizando métodos da dinâmica dos fluidos computacional - CFD. Foram desenvolvidos 4 tipos de blocos, todos eles avaliados em diferentes montagens numa parede do tipo fachada, segundo 3 condições: fechados e abertos (com e sem material absorvente). Os resultados revelaram o quão susceptível é a transmissão do ruído em aberturas de ventilação, entretanto, resultados satisfatórios de isolamento sonoro foram obtidos, principalmente em uma das montagens (bloco tipo 3, caixa), a qual apresentou desempenho similar ao bloco fechado com um Índice de Redução de Ruído Padrão Global (Dntw) de 27 dB. Esta montagem apresenta relação de área aberta satisfatória para promover a ventilação natural dentro de um ambiente (confirmada pelo melhor desempenho comparativo de ventilação dos blocos simulados), além de apresentar isolamento sonoro superior ao de outros (poucos) elementos existentes no mercado, com o objetivo de promover a ventilação natural e reduzir a transmissão de ruído para se obter bom desempenho. / The environmental comfort requires the search for design alternatives that promote less energy impact on architecture. In places with hot and humid climates, natural ventilation is one of design strategies; into this vision, the hollow elements (cobogós or combogós, as popularly known in northeastern Brazil) act as architectural components that provide permanent natural ventilation, sun protection and natural lighting, and ease of manufacture. Despite the secular use of hollow elements, they lost space in contemporary architectural production, and there are few surveys with a view to enhancing its potential as an alternative passive design. However, there is awareness of the problems related noise that comes from its use in natural ventilation, such as commitment in the isolation of external noise and privacy between environments. In this work, for these reasons, the proposal is to develop an element hollow sound, aiming to use it in alleviating the problem of the dichotomy between the thermal and acoustic aspects involved. The performance of sound insulation in situ of the elements created was assessed based on the ISO 140-5, was also studied the performance of natural ventilation through computer simulations, using methods of computational fluid dynamics - CFD. Were developed 4 types of blocks, all studied at different mounts on a wall like facade, according to 3 conditions: closed and open (with and without sound absorption material). The results revealed how likely is the transmission of noise from the vent, however, satisfactory sound insulation were obtained, especially in one of the mounts (block type 3, box), which presented a performance similar to a closed block with index Noise Reduction Global Standard (Dntw) of 27 dB. This assembly has an open area ratio of satisfactory to promote natural ventilation in an environment (confirmed by the comparative performance of simulated ventilation of the blocks), while maintaining sound insulation than the other (few) elements in the market, with the objective to promote natural ventilation and reduce noise transmission to achieve good performance

Acústica arquitetônica

Conforto acústico das construções

Elemento Vazado

Isolamento acústico

Acoustic comfort of buildings

Acoustic insulation

Architectural acoustics

Hollow elements

Vibro-acoustic products from re-cycled raw materials using a cold extrusion process. A continuous cold extrusion process has been developed to tailor a porous structure from polymeric waste, so that the final material possesses particular vibro-acoustic properties.

Khan, Amir

January 2008

A cold extrusion process has been developed to tailor a porous structure from polymeric waste. The use of an extruder to manufacture acoustic materials from recycled waste is a novel idea and the author is not aware of any similar attempts. The extruder conveys and mixes the particulates with a reacting binder. The end result is the continuous production of bound particulates through which a controlled amount of carbon dioxide gas that is evolved during the reaction is used to give the desired acoustic properties. The cold extrusion process is a low energy consuming process that reprocesses the post manufacturing waste into new vibro-acoustic products that can be used to meet the growing public expectations for a quieter environment. The acoustical properties of the developed products are modelled using Pade approximation and Johnson-Champoux-Allard models. Applications for the developed products are widespread and include acoustic underlay, insulation and panels in buildings, noise barriers for motorways and railway tracks, acoustic insulation in commercial appliances and transport vehicles.

Re-cycling polymeric waste

Cold extrusion

Vibro-Acoustic materials

Thermal insulation materials

Acoustic insulation materials

Porous polymeric materials

Vývoj tepelně izolačních materiálů na bázi odpadních textilních vláken / Development of thermal insulating materials based on waste textile fibers

Přikrylová, Pavlína

January 2017

The increasing quantity of waste represents serious environmental, social and economic problem. Wastes produced from industry and households. A large part of the economy transforms a certain amount of raw materials to waste in their production, because it is currently emphasis is placed on finding sustainable sources of raw materials. One of the suitable secondary raw materials can be discarded textiles or waste from the textile industry. These kinds of textile waste often ends up in landfills or incinerators, so it is from an ecological and environmentally advantageous to their further use. The diploma thesis deals with the study and development of thermal and acoustic insulation materials based on textile fibers. It focuses on the legislative requirements for waste management for the sorting of textile wastes and their subsequent modification before reuse. Further it contains kinds of textile fibers and bonding technologies thermal and acoustic insulation materials. Finally, an evaluation of thermal insulation, acoustic and mechanical properties of fibrous insulation materials.

On Life Cycle Assessment in the Built Environment: from Conventional Sustainability to Regeneration and Glocal Architecture

Quintana Gallardo, Alberto

17 December 2023

Tesis por compendio / [ES] La idea general de esta tesis es estudiar el papel que el Análisis de Ciclo de Vida (ACV) puede jugar como una herramienta para la toma de decisiones durante la fase de proyecto de una obra de construcción. El ACV es una metodología que permite el cálculo de los impactos ambientales de cualquier actividad humana. Este trabajo está construido en tres niveles, el estudio de materiales de construcción individualmente, las soluciones constructivas y por último el conjunto del edificio. A medida que los capítulos progresan, el foco del estudio se aleja desde las particularidades asociadas con los materiales hasta llegar al estudio del ciclo de vida de los edificios. El capítulo uno corresponde con el primer nivel. En este capítulo, varios biocomposites que contienen resina bio-epoxi se comparan con la placa de yeso laminado en términos de sus impactos medioambientales y sus propiedades mecánicas. En el caso de las soluciones constructivas, esta tesis analiza, además de los impactos ambientales, otros parámetros relevantes, tales como el comportamiento acústico y térmico. Sin un comportamiento adecuado en esos aspectos. las soluciones constructivas sostenibles no pueden considerarse una alternativa a las convencionales. En el caso del capítulo 2, se comparan varios tipos de particiones que combinan los biocomposites estudiados en el primer capítulo con absorbentes acústicos convencionales y no convencionales en términos de sus impactos medioambientales y su aislamiento a ruido aéreo. El tercer capítulo continúa tratando las soluciones constructivas. En este caso se analiza el uso de paneles de fachada formados a partir de residuo de paja de arroz generada en el parque natural de la Albufera. Una fachada compuesta por estos paneles se compara a una fachada de doble hoja de ladrillo. El estudio lidia con la comparación de sus impactos ambientales, su aislamiento a ruido aéreo y su transmitancia térmica. Además se analiza el comportamiento higrotérmico de la fachada de paja. El último capítulo compara los impactos ambientales de una casa de madera pensada para ser una referencia de la media europea en cinco ciudades diferentes. Las ciudades estudiadas son Munich, Ljubljana, Portorož, Madrid, and Valencia. El propósito es comprender como las barreras hacia la sostenibilidad regenerativa cambian dependiendo de la ubicación. En referencia a los resultados, el primer capítulo indica que los composites propuestos pueden ser una alternativa sostenible a la placa de yeso laminado al reducir un 50% su impacto ambiental. El segundo capítulo muestra que reemplazar la placa de yeso laminado y la lana mineral de las particiones por los biocomposites y con un material basado en residuo de lana de oveja puede reducir las emisiones de carbono un 60%. El tercer capítulo señala la importancia de encontrar manera de utilizar la paja de arroz de la albufera como materia prima. Además, la fachada de paja de arroz analizada demuestra no solo ser beneficiosa para el medio ambiente (evita la emisión de 52 kg de CO2 eq. por metro cuadrado), sino también demuestra ser una alternativa adecuada en términos de su comportamiento acústico, térmico e higrotérmico. Debido a los beneficios ambientales que el uso de los paneles de paja supone para el medio ambiente, la paja de arroz puede ser considerada como un material glocal. El último capítulo muestra que las medidas de sostenibilidad convencional, como el uso de la madera en la estructura y el aumento del aislamiento, no son suficientes para llegar a construir edificios regenerativos ni de emisiones de carbono neutras (NZED). El uso de materiales de base biológica, un correcto diseño y nuevas tecnologías enfocadas a la eficiencia energética son fundamentales para alcanzar el objetivo de la sostenibilidad regenerativa. En general los resultados enfatizan la necesidad de utilizar el ACV como una herramienta para la toma de decisiones en fase de proyecto de un edificio. El ACV es la única metodología capaz de ofrecer una representación fiable de la influencia que un edificio tiene sobre el medio ambiente / [CA] La idea general d'aquesta tesi es estudiar del paper que l'Anàlisi de Cicle de Vida (ACV) podria jugar com a ferramenta per a la pressa de decisions durant la fase de projecte d'una obra de construcció. El ACV és una metodologia que permet el càlcul dels impactes ambientals de qualsevol activitat humana. Aquest treball està construït en tres nivells, el estudi de materials de construcció de manera individual, les solucions constructives i per últim l'edifici com a conjunt. A mesura que els capítols progressen, el focus s'allunya des de les particularitats dels materials fins arribar a l'estudi del cicle de vida dels edificis. El capítol 1 es correspon amb el primer nivell. En aquest capítol. diversos biocomposites formats amb resina bio-epoxi es comparen amb la placa de guix laminat en termes dels seus impactes ambientals y les propietats mecàniques. En el cas de les solucions constructives, aquesta tesi analitza, a més dels impactes ambientals, uns altres paràmetres rellevants, com el comportament acústic i tèrmic. Sense un comportament adequat en eixos aspectes, una solució constructiva composada de materials sostenibles no pot ser considerada una alternativa al mètodes de construcció convencional. En el cas del segon capítol, diversos tipus de particions que combinen els biocomposites estudiats en el primer capítol amb absorbents acústics convencionals i no convencionals en termes dels seus impactes ambiental i el seu aïllament a soroll aeri. El tercer capítol continua analitzant solucions constructives. En aquest cas s'analitza l'ús de panels de façana composats de residu de palla d'arròs generada al parc natural de l'Albufera de València. Una façana composta d'aquestos panells es compara amb una façana de doble fulla de maó. L'estudi tracta la comparació dels seus impactes ambientals, el seu aïllament acústic i la transmitància tèrmica. A més s'analitza el comportament higrotèrmic de la façana de palla.L'últim capítol compara els impactes ambientals de una casa de fusta pensada com una referència de la mitjana europea en cinc ciutats diferents. Les ciutats estudiades són Múnich, Liubliana, Portorož, Madrid, and València. L'objectiu es comprendre com les barreres cap a la sostenibilitat regenerativa canvien depenent de la ubicació del edifici. En el referent als resultats, el primer capítol indica que els compòsits proposats poden ser una alternativa sostenible a la placa de guix laminat al reduir un 50% el seu impacte ambiental. El segon capítol mostra que reemplaçar la placa de guix laminat i la llana mineral de les particions amb els biocomposites i amb un material basat en residu de llana d'ovella pot reduir les emissions de carboni un 60%. El tercer capítol senyala la importància de trobar maneres d'emprar la palla d'arròs de l'Albufera com a matèria prima. A més, la façana de palla d'arròs analitzada demostra ser no sols beneficiosa per al medi ambient (evita la emissió de 52 kg de CO2 eq. per metre quadrat), sinó també demostra ser una alternativa adequada en termes del seu comportament acústic, tèrmic i higrotèrmic. L'últim capítol mostra que mesures de sostenibilitat convencional, com emprar estructura de fusta i augmentar l'aïllament, no son suficients per arribar a construir edificis d'emissions neutres de carboni (NZEB). L'ús de materials de base biològica, un correcte disseny i noves tecnologies enfocades a l'eficiència energètica són fonamentals per arribar a la sostenibilitat regenerativa. En general, els resultats emfatitzen la necessitat d'utilitzar el ACV com a una ferramenta per a la pressa de decisions en la fase de projecte d'un edifici. El ACV és l'única metodologia capaç d'oferir una representació fiable de la influència que un edifici te sobre el medi ambient. / [EN] The overarching idea of this thesis is to analyze the role of Life Cycle Assessment (LCA) as a project decision-making tool. LCA is a methodology to conduct a sustainability analysis of any human activity. This work is constructed in three levels, the study of building materials individually, the constructions, such as façades and partitions, and finally, the whole building. As the chapters progress, the focus of the study zooms out from the particularities associated with materials until arriving at the study of the life cycle of buildings. Chapter one corresponds with the first level. In this chapter, several composite boards with bio-epoxy resin and natural fibers are compared to plasterboard in terms of their environmental impact and mechanic characteristics. In the case of constructions, this thesis analyzes some important aspects related to their performance, such as acoustic and thermal insulation. Without at least a competent performance in those parameters, constructions composed of new sustainable materials cannot be considered alternatives to the conventional solutions. In chapter 2, several partition typologies combining the biocomposites and new and conventional acoustic absorbents are compared in terms of their environmental impacts and their airborne acoustic insulation. The third chapter, which also deals with constructions, analyzes the use of façade panels built using rice straw waste from the Albufera park in Valencia and compares it to the most common façade typology in Valencia, the double-layered brick wall. The study assesses the airborne acoustic insulation and the thermal transmittance of the straw construction experimentally. The hygrothermal performance of this material is also analyzed. The last chapter deals with the environmental impacts of buildings as a whole by comparing a European reference wood house in different locations in Europe. The environmental impacts of this house are studied over its whole life cycle in Munich, Ljubljana, Portorož, Madrid, and Valencia to understand how barriers towards regenerative sustainability change depending on location. When it comes to the results, the first chapter indicates that the bio-epoxy composites proposed can be a sustainable alternative to plasterboard by reducing the environmental impact by around 50%. The second chapter shows that replacing the plasterboard and the mineral wool in a drywall partition with the bio-composites and a sheep wool acoustic absorbent can reduce carbon emissions by almost 60%. The third chapter highlights the importance of finding ways of using the rice straw from the Albufera park as a raw material. Moreover, the rice straw façade analyzed demonstrated to be not only beneficial for the environment (avoids the emission of 52 kg of CO2e to the atmosphere per square meter), but also perfectly adequate to be a sustainable alternative to the most common façade typologies in Valencia in terms of acoustic, thermal and hygrothermal performance. Because of the environmental benefits of its use and the fact that it is a proximity material, the rice straw façade panels can be considered a glocal material. The last chapter shows that conventional sustainability measures, such as a wooden frame and high thermal insulation, are not enough to successfully build neither regenerative nor Nearly Zero Emissions Buildings (NZEB). The use of bio-based materials, designing towards passive efficiency, and new technologies are necessary to reach regenerative sustainability. Overall, the results emphasize the need to use LCA as a decision-making tool during the project stage of a building. LCA is the only tool that can provide an accurate representation of the influence a building will have on the environment over its lifespan. / The authors gratefully thank the Spanish Ministry of Economy, Industry and Competitiveness, for funding the project BIA2013-41537-R (BIAEFIREMAT ‘Development of new sustainable eco- materials and building systems for the building industry, based on the use of residues and renewable raw materials’). The project is co-funded by the European Regional Development Fund and it is included in the R+D National Programme for Research Aimed at the Challenges of Society. Authors EMS, EPN, and MDB gratefully acknowledge the European Commission for funding InnoRenew CoE (grant agreement #739574), under the H2020 Widespread-Teaming programme and Republic of Slovenia (investment funding of the Republic of Slovenia and the European Union’s European Regional Development Fund). Author AQG was supported in part by a STSM grant from COST Action CA16114 – Rethink Sustainability Towards a Regenerative Economy (RESTORE). / Quintana Gallardo, A. (2021). On Life Cycle Assessment in the Built Environment: from Conventional Sustainability to Regeneration and Glocal Architecture [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/180176 / Compendio

Análisis del ciclo de vida

Arquitectura sostenible

Evaluación del ciclo de vida

Edificios sostenibles

Huella de carbono

Materiales de construcción sostenibles

Acústica arquitectónica

Life Cycle Assessment

Sustainable buildings

Carbon footprint

Sustainable construction materials

Architectural acoustics

Acoustic insulation

Thermal insulation

Sustainable architecture design

FISICA APLICADA

Vývoj izolačních materiálů na bázi druhotných textilních vláken nižší kvality / Development of insulation materials based on secondary textile fibers of lower quality

Mlynářová, Jana

January 2021

This diploma thesis is focused on a suitable midification of acoustic and thermal insulation materials from recycled textile fibres of lower quality due to improvement of their reaction to fire. The aim is to find an effective flame retardant and to verify suitable method of flame retardant application onto this type of insulation material.