Análise da qualidade do ar : um estudo de séries temporais para dados de contagem

Silva, Kelly Cristina Ramos da

30 April 2013

Made available in DSpace on 2016-06-02T20:06:08Z (GMT). No. of bitstreams: 1 5213.pdf: 2943691 bytes, checksum: 6d301fea12ee3950f36c4359dd4a627e (MD5) Previous issue date: 2013-04-30 / Financiadora de Estudos e Projetos / The aim of this study was to investigate the monthly amount of unfavourable days to pollutant dispersion in the atmosphere on the metropolitan region of S ão Paulo (RMSP). It was considered two data sets derived from the air quality monitoring on the RMSP: (1) monthly observations of the times series of annual period and (2) monthly observations of the times series of period form May to September. It was used two classes of models: the Vector Autoregressive models (VAR) and Generalized Additive Models for Location, Scale and Shape (GAMLSS). The techniques presented in this dissertation was focus in: VAR class had emphasis on modelling stationary time series; and GAMLSS class had emphasis on models for count data, like Delaporte (DEL), Negative Binomial type I (NBI), Negative Binomial type II (NBII), Poisson (PO), inflated Poisson Zeros (ZIP), Inverse Poisson Gaussian (PIG) and Sichel (SI). The VAR was used only for the data set (1) obtaining a good prediction of the monthly amount of unfavourable days, although the adjustment had presented relatively large residues. The GAMLSS were used in both data sets, and the NBII model had good performance to data set (1), and ZIP model for data set (2). Also, it was made a simulation study to better understanding of the GAMLSS class for count data. The data were generated from three different Negative Binomial distributions. The results shows that the models NBI, NBII, and PIG adjusted well the data generated. The statistic techniques used in this dissertation was important to describe and understand the air quality problem. / O objetivo deste trabalho foi investigar a quantidade mensal de dias desfavoráveis à dispersão de poluentes na atmosfera da região metropolitana de São Paulo (RMSP). Foram considerados dois conjuntos de dados provenientes do monitoramento da qualidade do ar da RMSP: (1) um contendo observações mensais das séries temporais do período anual e (2) outro contendo observações mensais das séries temporais do período de maio a setembro. Foram utilizadas duas classes de modelos: os Modelos Vetoriais Autorregressivos (VAR) e os Modelos Aditivos Generalizados para Locação, Escala e Forma (GAMLSS), ressaltando que as técnicas apresentadas nessa dissertação da classe VAR têm ênfase na modelagem de séries temporais estacionárias e as da classe GAMLSS têm ênfase nos modelos para dados de contagem, sendo eles: Delaporte (DEL), Binomial Negativa tipo I (NBI), Binomial Negativa tipo II (NBII), Poisson (PO), Poisson Inflacionada de Zeros (ZIP), Poisson Inversa Gaussiana (PIG) e Sichel (SI). O modelo VAR foi utilizado apenas para o conjunto de dados (1), obtendo uma boa previsão da quantidade mensal de dias desfavoráveis, apesar do ajuste ter apresentado resíduos relativamente grandes. Os GAMLSS foram utilizados em ambos conjuntos de dados, sendo que os modelos NBII e ZIP melhor se ajustaram aos conjuntos de dados (1) e (2) respectivamente. Além disso, realizou-se um estudo de simulação para compreender melhor os GAMLSS investigados. Os dados foram gerados de três diferentes distribuições Binomiais Negativas. Os resultados obtidos mostraram que, tanto os modelos NBI e NBII como o modelo PIG, ajustaram bem os dados gerados. As técnicas estatísticas utilizadas nessa dissertação foram importantes para descrever e compreender o problema da qualidade do ar.

Análise de séries temporais

Análise multivariada

Modelos de regressão

Dados de contagem

Ar - qualidade

Superdispersão

Multivariate time series model

Air quality

Over dispersion

Att bygga energisnålt med olika ventilationssystem / To build energy efficient with various ventilation systems

Bengtsdottir, Fanney, Hagerup Norrman, Christel

January 2018

Ett ventilationssystem i en byggnad ska tillföra en tillräcklig mängd frisk luft och skapa ett undertryck för att minska fuktrelaterade problem. Idag finns flera typer av ventilationssystem tillgängliga, några med värmeåtervinning, vilka bidrar med olika funktioner och begränsningar. Studien undersöker skillnaden mellan frånluftsventilation (F), frånluftsvärmepump (FVP) samt fläktstyrt till- och frånluftssystem med roterande återvinning (FTX) i NNE-hus. Tre enfamiljshus i Kronobergs län blev strategiskt utvalda för insamling av data, mätningar, intervjuer och beräkningar. Därefter gjordes en utvärdering och jämförelse mellan systemens prestanda med avseende på termisk komfort, luftomsättning, effektbehov, energianvändning och kostnader. Resultaten visar att kriterierna för termisk komfort uppfylls i samtliga hus under tiden för undersökningar och den specifika energiförbrukningen för de olika husen är mindre än hälften av det maximalt tillåtna. El- och värmeeffektbehovet är minst för F-systemet enligt resultaten men FVP är mest lönsam med hänsyn till återvinning. FVP är även mest lönsam med avseende på ackumulerade kostnader. Resultaten är begränsade för ett specifikt uteklimat under perioden för undersökningen. För en större översikt och tillförlitlighet i beräkningar rekommenderas studier som sträcker sig över ett år. / A ventilation system in a building provides sufficient amount of fresh air and create a negative pressure to reduce moisture-related problems. Today several ventilation systems, some with different energy recovery, are available and those inherence different features and limitations. This study examines differences between exhaust air ventilation without heat recovery (F), exhaust air heat pump (FVP) and exhaust and supply air ventilation with a rotating heat exchanger (FTX) in nearly zero-energy houses. Three single-family houses in Kronoberg County were strategically chosen for the data collection, measurements, interviews and calculations to evaluate and compare their system’s performances in terms of thermal comfort, air circulation, heat recovery effects, energy use and financial attractiveness. The results show that the criteria for thermal comfort are satisfied and the specific energy consumption are within the current requirements in all these houses. Under the period of investigation, the house without heat recovery requires minimum quantity of electricity for ventilation system where as the house with FVP is the most energy efficient. Also, the house with an FVP shows to be the most cost-efficient with lowest accumulated costs. The results are limited for a specific outdoor climate during the studied period. Therefore, examinations over a longer term in different contexts are recommended for a more comprehensive view.

NNE-house

exhaust air ventilation (F)

exhaust air heat pump (FVP)

FTX

thermal comfort

air quality

moisture

heat output

energy consumption

economy

NNE-hus

frånluftsventilation (F)

frånluftsvärmepump (FVP)

FTX

termisk komfort

luftkvalitet

fukt

effektbehov

energibehov

ekonomi

Building Technologies

Husbyggnad

Modelagem e simulação da dispersão das emissões de fluoreto gasoso de uma redução eletrolítica de alumínio. / Modeling and simulation of the dispersion of gaseous fluoride emissions from an electrolytic reduction of aluminum.

GOMES, Valério de Araújo.

20 March 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-03-20T14:01:59Z No. of bitstreams: 1 VALÉRIO DE ARAÚJO GOMES - DISSERTAÇÃO PPGEQ 2007..pdf: 2306567 bytes, checksum: aa927c50f8346bfbe8e90901136c65fe (MD5) / Made available in DSpace on 2018-03-20T14:01:59Z (GMT). No. of bitstreams: 1 VALÉRIO DE ARAÚJO GOMES - DISSERTAÇÃO PPGEQ 2007..pdf: 2306567 bytes, checksum: aa927c50f8346bfbe8e90901136c65fe (MD5) Previous issue date: 2017 / A determinação de concentração de poluentes lançados na atmosfera é um elemento importante na previsão de impactos ambientais causados por emissões de efluentes industriais, sendo fundamental na avaliação de viabilidade de novas plantas, ou mesmo para plantas existentes. Em função da ampliação dos parques industriais e da aproximação dos centros urbanos, cada vez mais fica evidente a necessidade de dispor de dados de simulações da qualidade do ar, para tomar decisões em relação ao tipo de tratamento dos efluentes gasosos, posicionamento de plantas, projetos de chaminés (altura), e principalmente do tipo de controle e processo que será necessário para minimizar as concentrações lançadas no meio ambiente. O presente trabalho teve como objetivo, principalmente, desenvolver uma rotina aplicada as emissões de fluoreto gasoso proveniente de reduções eletrolíticas de alumínio. A referência adotada foi o modelo desenvolvido pela Environmental Research & Technology Inc. chamado BLP – Buoyant Line and Point Source (modelo fundamentado na distribuição gaussiana), aplicando algumas considerações específicas. A implementação foi realizada utilizando o Mathcad 11 Enterprise Edition. Posteriormente ao desenvolvimento foram feitas várias simulações com informações coletadas pelo programa de monitoramento de fontes estacionárias da Alumar e comparados com os dados coletados na estação de monitoramento contínuo de qualidade do ar localizada na vila de Coqueiro (intermediações do limite da fábrica, 2,500 Km). Complementarmente, também foi realizada uma simulação para comparar o resultado do modelo proposto com os resultados do CALPUFF (software comercial referendado pela EPA – Environmental Protection Agency) que foi utilizado durante a elaboração do estudo de impacto ambiental da complementação da sala de cubas – linha 3. O modelo proposto apresentou uma correlação de 82% com os dados históricos coletados na estação localizada na vila de Coqueiro e um erro de 4,35% quando comparado com as simulações do CALPUFF. / The determination of the pollutants concentration released into the atmosphere is an important element in the prediction of environmental impacts caused by emissions from industrial effluents, being fundamental in the feasibility evaluation of new plants, or even for existing plants. Due to the industrial parks expansion and the approximation of urban centers, it is increasingly evident that there is a need for air quality simulation data to make decisions regarding the type of treatment of gaseous effluents, plant positioning, chimneys dimensions (height), and especially of the type of control and process that will be necessary to minimize the concentrations released in the environment. The main objective of this work was to develop a routine applied to the emission of gaseous fluoride from electrolytic smelting of aluminum. The reference adopted was the model developed by Environmental Research & Technology Inc called BLP - Buoyant Line and Point Source (model based on the Gaussian distribution), applying some specific considerations. The implementation was performed using Mathcad 11 Enterprise Edition. After the development, several simulations were carried out with information collected by Alumar's stationary source monitoring program and compared to the data collected at the continuous air quality monitoring station located in the village of Coqueiro (distant 2,500 km). In addition, simulations were also carried out to compare the results of the proposed model with the results from CALPUFF (commercial software endorsed by the EPA - Environmental Protection Agency) that was used during the elaboration of the environmental impact study of the complementation of the potroom - line 3. The proposed model presented a correlation of 82% with the historical data collected at the station located in the village of Coqueiro and an error of 4.35% when compared to the simulations of the CALPUFF.

Engenharia Química.

Dispersão Atmosférica

CALPUFF

Qualidade do ar - simulação

Emissão de fluoreto gasoso

Buoyant Line and Point Source - BLP

Poluição do ar

Gases e atmosfera

Redução eletrolítica de alumínio

Air pollution

Gases and atmosphere

Air quality - simulation

Air dispersion

Compostos organicos volateis na atmosfera urbana da região metropolitana de São Paulo / Volatile organic compounds in urban atmosphere of metropolitan area of São Paulo

Albuquerque, Edler Lins de

14 May 2007

Orientador: Edson Tomaz / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-10T00:00:54Z (GMT). No. of bitstreams: 1 Albuquerque_EdlerLinsde_D.pdf: 18576988 bytes, checksum: f5a08b5bbd306ca352ba5e96455e69d8 (MD5) Previous issue date: 2007 / Resumo: Realizou-se um estudo experimental dos Compostos Orgânicos Voláteis (COV) encontrados na atmosfera urbana da Região Metropolitana de São Paulo (RMSP). O objetivo principal foi medir as concentrações de COV, procurando identificar, por meio de análises multivariadas, relações entre estas concentrações, parâmetros meteorológicos e concentrações de outros poluentes. Métodos de amostragem passiva e ativa foram empregados utilizando tubos de aço contendo o sólido adsorvente TENAX TA. A quantificação das amostras ocorreu por dessorção térmica automática e cromatografia gasosa com detecção por ionização em chama. Analisou-se COV selecionados, incluindo alcanos, cicloalcanos e compostos aromáticos. Diversos aspectos foram investigados em estudos específicos: emissão veicular, variabilidade diária das concentrações, emprego da amostragem passiva, potencial para formar ozônio etc. As concentrações registradas em cada campanha variaram bastante em função de aspectos associados a características locais das fontes de emissão, horários de coleta, fatores sazonais e meteorológicos. Verificou-se que tolueno, m,p-xilenos, n-hexano, etilbenzeno e 1,2,4-trimetilbenzeno foram os COV encontrados em maiores concentrações na maioria dos estudos realizados, estando os mesmos entre os mais emitidos pelos veículos e entre aqueles com maior potencial para formar ozônio. No local monitorado, o perfil de variação temporal das concentrações de COV foi diferente em função de condições sazonais e/ou meteorológicas. A validação da amostragem passiva possibilitou estimar taxas de amostragem dos COV, as primeiras da literatura científica para vários compostos e as primeiras obtidas numa atmosfera urbana de cidades brasileiras. Isto viabilizou a realização de um monitoramento passivo simultâneo em oito locais diferentes, permitindo verificar as vantagens deste tipo de coleta. Acredita-se que os resultados desta pesquisa possam auxiliar na criação de planos de monitoramento para os COV / Abstract: The aim of this research was an experimental study of Volatile Organic Compounds (VOCs) found in the urban atmosphere of Metropolitan Area of São Paulo (MASP). The main purpose was to measure atmospheric concentrations of VOCs. Multivariate analyses were used to identify relationships among VOCs concentration, meteorological parameters and concentrations of other pollutants. Passive and active sampling methods were applied. Steel tubes packed with adsorbent TENAX TA were employed. The samples were quantified by automatic thermal desorption and gas chromatography with flame ionization detection. Selected VOCs were analyzed, including alkanes, cycloalkanes and aromatic compounds. Many topics related to VOCs were investigated: vehicular emissions, time variation of concentrations, employ of passive sampling, potential of ozone formation etc. For this, some specific studies were conducted. VOCs concentration vary a lot in each campaign in function of aspects associated to local characteristics of emission sources, sampling time, season and meteorological factors. In most of performed studies toluene, m,p-xylenes, n-hexane, ethylbenzene and 1,2,4-trimethylbenzene were VOCs found in higher concentrations. Additionally, such compounds were also found among VOCs with higher vehicular emission factors and higher ozone forming potentials. At the monitoring site, VOCs concentrations have shown distinct profile of time variation for different seasonal and meteorological conditions. VOCs uptake rates were estimated from the validation of passive sampling process. These uptake rates were the first found for many VOCs and the first found in an urban atmosphere of Brazilian cities. This fact became possible to perform a simultaneous passive monitorization campaign in eight different sites at MASP, verifying the advantages of this type of sampling strategy. It is believed that the results of this research may aid in the creation of monitoring programs for VOCs / Doutorado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química

Compostos orgânicos voláteis

Ar - Poluição

Ar - Análise

Análise multivariada

Amostragem ambiental

VOCs

Atmosphere - Pollution

Air - Analysis

Multivariate analysis

Environmental sampling

Air quality

Avaliação da qualidade ambiental interior de um edifício climatizado artificialmente com ênfase na análise do conforto térmico / Evaluation of indoor environmental quality of an artificially conditioned building, focusing on thermal comfort analysis

Ana Flávia Silveira Silva

25 November 2010

Ocupantes de ambientes internos climatizados artificialmente estão expostos contínua e prolongadamente a condições ambientais muitas vezes desfavoráveis à execução de suas atividades e à manutenção da saúde. O objetivo desta pesquisa foi avaliar alguns parâmetros de qualidade do ar interior e de conforto térmico de um edifício climatizado artificialmente e relacioná-los à utilização de sistema de condicionamento de ar com distribuição pelo piso em ambientes que não são caracterizados como escritórios abertos. Considerando que o edifício estudado apresenta usos distintos de seus pavimentos, optou-se pela avaliação de dois deles, um pavimento cujo layout é de salas de aula e outro de escritório semi-aberto. Os parâmetros foram analisados em três momentos distintos. O primeiro se caracteriza por três ciclos semestrais de medições de temperatura, umidade relativa e velocidade do ar, concentração de aerossóis, dióxido de carbono e fungos. A segunda etapa consiste em uma campanha única de medições, com duração de quatro dias, permitindo a realização de perfis de temperatura e umidade relativa, avaliação das velocidades do ar em pontos de desconforto e cálculo dos índices de conforto térmico PMV (Predicted Mean Vote) e PPD (Predicted Percentage of Dissatisfied). Em um terceiro e último momento, aplicou-se o questionário de qualidade ambiental interior aos ocupantes de ambos os pavimentos. Resultados obtidos nos ciclos permitiram identificar concentrações de fungos e dióxido de carbono acima dos limites indicados. Os perfis de temperatura revelaram a predominância das mesmas abaixo do recomendado. O cálculo dos índices PMV e PPD apontaram para um cenário de maior conforto térmico nos ambientes estudados com temperatura operativa igual a 24 graus Celsius. Os resultados dos questionários corroboraram as medições de temperatura, indicando a prevalência das sensações térmicas relacionadas ao frio entre os ocupantes do edifício, em especial aqueles do sexo feminino. Ficou evidenciado que o conforto térmico nos ambientes pesquisados é um fator perturbador das atividades exercidas em ambos os pavimentos. Houve um grande número de relatos de ocupantes com sintomas típicos da Síndrome dos Edifícios Doentes (SED), sugerindo que medidas relativas à qualidade ambiental devem ser tomadas em prol da saúde, bem estar e produtividade dos ocupantes do edifício. Concluiu-se que a operação e manutenção do sistema de condicionamento de ar com insuflamento pelo piso em ambientes distintos de escritórios abertos são mais complexas e, por isso, dificultam o alcance de uma qualidade ambiental interior satisfatória. / Occupants of artificially conditioned indoor spaces are continuously and lengthily exposed to environmental conditions mostly adverse to their activities performance and health maintenance. The purpose of this research was to evaluate some indoor air quality and thermal comfort parameters of an artificially conditioned building, and relate them to the employment of underfloor air conditioning system in spaces that differ from open-plan office spaces. Considering the studied building presents different activities on each of its floors it was necessary to choose two of them, one characterized by classrooms layout and the other by a semi open-plan office layout. The on-site data collection took place in three different steps. Step one was distinguished by three six-month cycles of air temperature, relative humidity and air velocity measurements, and fungi, particulate matter and carbon dioxide concentrations. The second step consisted of a four-day single campaign of measurements, when air temperature and relative humidity profiles were carried out, air velocity was quantified in complaining areas, and the Predicted Mean Vote (PMV) and Predicted Percentage of Dissatisfied (PPD) thermal comfort indexes were determined. During the third and last step, indoor environmental quality questionnaire surveys were distributed to the occupants of both studied floors. Data analysis and assessment originated from the cycles identified exceeding fungi and carbon dioxide concentrations. Temperature profiles indicated their prevalence below the recommended range. PMV and PPD indexes determination pointed to a scenery of best thermal environmental conditions for the researched spaces, with an operative temperature of 24 Celsius degrees. The results of the questionnaire surveys supported the air temperature measurements, showing supremacy of cold related thermal sensations among the occupants, especially those of female gender. It was evident that the thermal comfort of the studied environments is a disturbing factor for the activities practiced on both floors. There was a great number of occupants reporting Sick Building Syndrome (SBS) typical symptoms, what suggested actions related to indoor environmental quality should be taken in order to provide the desired health, welfare and productivity for the building occupants. It was conclusive that the operation and maintenance of underfloor air conditioned systems in indoor environments unlike open-plan offices are more complex and therefore make it harder to reach an acceptable indoor environmental quality.

Condicionamento de ar

Conforto térmico

Distribuição de ar pelo piso

Qualidade ambiental interior

Qualidade do ar interior

Síndrome dos edifícios doentes

Air conditioning

Indoor air quality

Indoor environmental quality

Sick building syndrome

Thermal comfort

Underfloor air distribution

Simulation thermo-aéraulique de la ventilation et du transport de polluants dans des cavités : application à la qualité de l'air intérieur et au confort thermique / Thermal and airflow simulation of ventilation and transport of pollutants in cavities : Application to indoor air quality and thermal comfort

Koufi, Lounes

15 December 2015

La présente thèse porte sur la prédiction numérique de l’impact des transferts thermique et massique sur la qualité de l’air et sur le confort thermique à l’intérieur des cavités ventilées ou non et remplies de polluant. En effet, les cavités ventilées sont généralement considérées comme étant une approximation pour la modélisation des locaux ventilés.Pour mener à bien cette étude, nous avons choisi un modèle numérique basé sur la résolution des équations régissant les transferts de quantité de mouvement, de chaleur et de masse. La première partie du mémoire est consacrée à quelques généralités sur la ventilation, la qualité de l’air et le confort thermique ainsi qu’à la revue bibliographique des travaux réalisés. La démarche suivie est décrite dans le chapitre 2. Celle-ci est basée sur l’approximation de Boussinesq. Le modèle RNG k-ε est utilisé pour traiter la turbulence. La discrétisation des équations est réalisée à l’aide de la méthode des volumes finis associée à l’algorithme SIMPLEC pour traiter le couplage pression-vitesse. Dans la seconde partie, nous considérons d’abord la convection thermique et la convection thermosolutale dans des cavités fermées. Le principal but visé est: a) de valider le modèle considéré en confrontant nos résultats avec ceux de la littérature et b) d’étudier l’influence du nombre de Rayleigh thermique et du rapport de flottabilité. Les résultats obtenus révèlent que le modèle adopté prédit correctement les transferts thermique et massique.Ensuite, nous appliquons cette approche au cas des cavités bidimensionnelles ventilées soumises à des gradients de température et de concentration. Les indices de qualité de l’air et d’efficacité de la ventilation sont calculés et discutés. Nous achevons ce travail en analysant l’influence de la ventilation sur la qualité de l’air intérieur dans une pièce tridimensionnelle en régime transitoire. Cette analyse concerne différents scénarios de ventilation mécanique simple flux en vue de trouver la meilleure configuration en termes d’efficacité et de qualité de l’air intérieur. / This thesis deals with the numerical prediction of heat and mass transfer impact on the air quality and thermal comfort within either ventilated or not cavities filled with pollutants. Indeed, ventilated areas are first modeled to be as ventilated cavities in a first approximation.To carry out this study, we adopt a numerical model based on solving equations governing momentum, heat and mass transfer. The first part of this thesis is dedicated to some generalities on ventilation, air quality and thermal comfort and the bibliographic review of previous works. The adopted approach is described in Chapter 2. It is based on the Boussinesq approximation. The RNG k-ε model is used to handle turbulence. The finite-volume method (FVM) is used to discretize of the set of equations, and the pressure-velocity coupling is achieved via the SIMPLEC algorithm. In the second part, we consider the thermal convection and thermosolutal convection in closed cavities. The main aim is a) to validate the considered model by comparing our results with those of literature, and b) to investigate influence of the thermal Rayleigh number and the buoyancy ratio. Our findings indicate that the model accurately predicts heat and mass transfer.Then, we apply this approach to the case of two-dimensional ventilated cavities subjected to temperature and concentration gradients. The indices of air quality and ventilation efficiency are calculated and discussed. We end this work by analyzing the influence of ventilation on the quality of indoor air in a three-dimensional room in transient regime. This investigation covers different scenarios from the simple flow mechanical ventilation which aims to find the best configuration in terms of efficiency and quality of indoor air.

Simulation numérique

Transfert aéraulique

Convection

Ventilation

Tranferts thermique et massique

Qualité de l'air intérieur

Confort thermique

Numerical simulation

Aeraulic transfer

Advection

Ventilation

Heat and mass transfer

Indoor air quality

Thermal comfort

697.9

Impact des polluants gazeux du sol sur la qualité de l'air intérieur des bâtiments / Impact of soil gas pollutants on indoor air quality

Diallo, Thierno Mamadou Oury

10 October 2013

L’entrée des polluants gazeux du sol (Radon, COV,…) dans les environnements intérieurs peut occasionner des risques sanitaires significatifs. Or les modèles d’évaluation de risques sanitaires liés à ces polluants gazeux du sol contiennent beaucoup d’incertitudes qui peuvent conduire à une mauvaise appréciation des risques. Dans un premier temps, cette thèse contribue à l’amélioration des modèles d’évaluation des risques. Dans un second temps, elle propose le développement d’un modèle de dimensionnement des Systèmes de Dépressurisation du Sol (SDS) passifs utilisés pour protéger les bâtiments des pollutions gazeuses venant du sol. L’amélioration des modèles a porté sur la prise en compte des principaux phénomènes de convection et diffusion à l’interface entre le sol et le bâtiment, en tenant compte des différentes typologies de soubassement. La première contribution porte sur le développement de modèles analytiques fournissant les débits d’air dus à la convection à travers le sol pour différents types de soubassement : dallage indépendant, dalle portée, vide sanitaire et cave. Les bâtiments avec des murs enterrés et les soubassements avec un lit de gravier sous le plancher bas sont également traités. Une méthodologie permettant la prise en compte de la fissuration et des points singuliers du plancher bas est aussi proposée. La deuxième contribution porte sur la prise en compte du transfert couplé des polluants des sols par convection et diffusion auprès des fondations. Une étude numérique a permis une meilleure compréhension du comportement des polluants à l’interface sol/bâtiment. Sur la base de cette compréhension, des lois semi-empiriques d’estimation des flux d’entrée de polluant dans les bâtiments sont proposées. Les différents modèles développés ont été validés numériquement avec un modèle CFD et expérimentalement avec des données issues de la littérature. La confrontation de ces modèles avec ceux existants a montré les améliorations apportées. L’impact de la typologie du soubassement sur le transfert de polluants gazeux des sols a été constaté. Une première application des modèles est illustrée par leur intégration dans un code de simulation thermo-aéraulique multizone afin de pouvoir étudier l’impact de ces polluants sur la qualité de l’air intérieur. Ce travail se termine par le développement d’un modèle de dimensionnement des Systèmes de Dépression du Sol (SDS) passifs. Ce modèle aéraulique de dimensionnement des SDS a été validé par des mesures effectuées au CSTB dans une maison expérimentale. Les premières applications du modèle de dimensionnement portent notamment sur l’impact de la météorologie (vent et tirage thermique) sur le fonctionnement du SDS passif et sur l’impact des stratégies de ventilation du bâtiment sur le fonctionnement du SDS passif. On voit ainsi l’intérêt de l’utilisation d’un tel modèle pour tester l’aptitude de ce système de protection des bâtiments dans des situations environnementales données. / Transfer of soil gas pollutants (Radon, VOC) into buildings can cause significant health risks. However, analytical models used today to estimate health risks associated with these pollutants contain many uncertainties which can lead to poor risk assessment. Initially, the main objective of this thesis is to contribute to the improvement of these models for risk assessment. Secondly, we propose the development of air flow model for passive Sub slab Depressurization Systems (SDS) design used to protect buildings. The improvement of models focused on the inclusion of the main phenomena of convection and diffusion at building/soil interface, taking into account different types of building substructures. The first improvement concerns the assessment of convection phenomenon through the development of analytical models to quantify air flow rates entering through many kinds of building substructures: floating slab, bearing slab, crawl space and basement. Buildings with buried walls and substructures with a sub slab gravel layer are also treated. A methodology taking into account the presence of cracks, holes and singular leakages of the slab is also proposed. The second improvement of the models is the inclusion of coupled transfer of convection and diffusion near foundations. A numerical study allowed a better understanding of the behavior of pollutants at soil / building interface. Based on this understanding, semi-empirical laws for estimating soil gas pollutants entry rate into buildings are proposed. The various models developed have been validated numerically using a CFD model and experimentally with data from the literature when available. The impact of building substructure on pollutant transfer has been highlighted. A first application of the model is illustrated by their integration into a multizone simulation code to study the impact of these transfers on indoor air quality. Finally, the work ends with the development of a model for designing passive sub slab depressurization systems. The design model developed is validated with in situ experimental data. Preliminary applications using this model focused at first on the impact of meteorological conditions (stack effect, wind) on the sub slab system running. At second, the impact of ventilation strategies on sub slab depressurization performance is studied. Thus, we see the potential interest of this model to test the effective running of passive sub slab depressurization systems in given configuration.

Polluants gazeux du sol

Radon

COV

Bâtiment

Modélisation

Modèles d’évaluation des expositions

Qualité de l’air intérieur

Système de dépressurisation du sol

Dimensionnement

Soil gas pollutants

Radon

COV

Building

Modeling

Risk assessment model

Indoor air quality

Sub-slab depressurization

Design

Etude expérimentale et numérique des performances de la ventilation mécanique par insufflation : qualité de l’air intérieur dans les bâtiments résidentiels / Experimental and numerical study of the supply-only ventilation system performances : indoor air quality in residential buildings

Rahmeh, Mireille

04 July 2014

La mauvaise qualité de l'air intérieur a été classée parmi les cinq principaux risques environnementaux sur la santé publique (EPA, 2013). La ventilation est une solution bien connue pour réduire la variété de contaminants qui pourraient être trouvés à l'intérieur de bâtiments résidentiels. Cependant, comme l'air propre est un facteur essentiel pour une vie saine et un bâtiment sain, une faible consommation d'énergie est essentielle pour une planète saine. Pour ces raisons, différentes recherches scientifiques sont menées pour l'amélioration des performances des systèmes de ventilation afin de créer un équilibre entre la distribution de l'air et la qualité de l'air intérieur d’un côté et le confort thermique et l'efficacité énergétique d’un autre côté. Un des systèmes de ventilation existants est la ventilation mécanique par insufflation (VMI). Son principe consiste à introduire mécaniquement de l’air neuf depuis l’extérieur, après l’avoir filtré et préchauffé. Les systèmes existant à ce jour en France introduisent l’air via un ou deux points d’insufflation (situés généralement au centre de l’habitation). Quant à l'évacuation de l’air vicié, celui-ci est véhiculé par les sorties naturelles installées dans chaque pièce de la maison. L’objectif de ce travail est tout d’abord d’étudier les performances de la ventilation par insufflation dans un environnement réel puis de trouver des pistes d’amélioration qui permettront d’atteindre une meilleure qualité de l’air intérieur. En se basant sur deux études préliminaires présentées par le chapitre II, on a installé un système à insufflation répartie (un point d’insufflation/pièce de vie) dans une maison réelle où l’on a mené des expérimentations. Des scénarios d’émission de polluant ont été effectués à l’aide de la technique de gaz traceur. L’étude a montré que, malgré un débit de ventilation global du système VMI inférieur à celui du système de référence (ventilation mécanique par extraction hygroréglable B), la VMI fournit des résultats satisfaisants. En outre, elle aide à lutter contre le confinement des chambres et à réduire à l'intérieur, les concentrations des particules provenant des sources extérieures. Une étude numérique est réalisée en utilisant un modèle aéraulique et de transfert de masse multizone. Les résultats ont montré un bon accord avec l'expérience et sont prometteurs pour l’avenir ; une étude paramétrique permettant d'améliorer la performance de la VMI vient parachever ce travail. / Poor indoor air quality has been ranked among the top five environmental risks on public health (EPA, 2013). The ventilation is a well-recognized solution for reducing the variety of contaminants that could be found inside residential buildings. However, as well as clean air is an essential factor for a healthy life and a healthy building, low energy consumption is significant for a healthy planet. For these reasons, scientific research are conducted to improve the performance of ventilation systems in order to obtain a balance in the controversial relationship between the air distribution and indoor air quality on the one hand and the thermal comfort and energy efficiency on the other hand. One of the existing ventilation systems is the Supply-Only Ventilation (SOV), known also as positive input ventilation (PIV). It functions by mechanically introducing fresh, filtered and preheated air into the center of the building. So far, the existing systems in France introduce air through one or two supply points (usually located in the center of the house). As for the evacuation, steal air goes out through natural vents installed in each room of the house. The aim of this study is to evaluate the performance of this system in terms of indoor air quality in a real environment and to find improvement field that will help in increasing the indoor air quality. Based on preliminary studies and on the airflow path principle required by French regulation, we decided to investigate a Multi Supply-Only Ventilation system (M-SOV). The idea is to have an insufflation point in the bedrooms and living room, while the free air outlets are located in the utility rooms (kitchen, bathroom and toilets). Different emission scenarios are experimentally simulated using tracer gas methods. The study shows that even though the flow rate of this system is lower than the extract only ventilation system (EOV), it provides satisfactory results. In addition, it helps fight against the confinement room and reduce the indoor particles concentrations originated from outdoor sources. A numerical study using a multizone airflow and contaminant transport model is performed. The numerical results show a good agreement with that of the experimental ones. Moreover, they are promising for the future parametric study in order to improve the SOV performance.

Ventilation mécanique par insufflation

Qualité de l’air intérieur

Transfert de polluant

Particules

Expérimentation à l’échelle réelle

Modélisation multizone

Supply-only ventilation

Indoor air quality

Contaminant transfer

Particles

Full-scale experiment

Multizone modeling

Développement d'une méthode analytique et d'un microanalyseur miniaturisé pour la détection des BTEX dans l'air / Development of an analytical method and a miniaturized analyzer to detect BTEX in air

Nasreddine, Rouba

26 April 2016

Les BTEX est une famille de polluants très répandue en air intérieur. Ils présentent des effets nocifs sur la santé humaine à des faibles concentrations ce qui a emmené le législateur à fixer des seuils afin de limiter l'exposition des gens. L'objectif de ce travail de recherche est de développer et de mettre en place une méthode analytique sensible, précise et rapide basée sur un dispositif de mesure. Le dispositif ainsi mis en place est un chromatographe en phase gazeuse miniaturisé équipé d'un mini détecteur à photo ionisation dédié à la détection des BTEX en temps quasi-réel. Le système analytique est très portable ayant une consommation gazeuse très faible assurant une autonomie élevée sur de longues durées. Son mode de fonctionnement se base sur l'échantillonnage de l'air dans une boucle connecté à une vanne six voies. L'injection de l'échantillon sur une colonne analytique placée dans un four pour la séparation est assurée par le changement de la position de la vanne avant la détection par photo ionisation. Le nouveau dispositif miniaturisé a été déployé lors de deux campagnes intensives menées dans un collège énergétiquement performant. Cette étude a porté sur la surveillance temporelle de la concentration des polluants présents en air intérieur, y compris les BTEX. Les résultats ainsi obtenus pour les BTEX avec notre dispositif ont été comparés à ceux fournis par d'autres techniques dites techniques de référence. Ces campagnes de terrain ont permis donc de valider les performances analytiques, la robustesse et l'autonomie de cette nouvelle méthodologie. / BTEX are very widespread indoor air pollutants. Their harmful effects on human health had led the legislator to set thresholds in order to limit the population exposure. The aim of this thesis is to develop a sensitive, accurate and fast analytical method based on a measurement device. Therefore, the device implemented is a miniaturized gas chromatography (GC) equipped with a mini photo ionization detector dedicated to BTEX detection in indoor air in near-real time. The miniaturized GC is very portable with a very low gas consumption which enhances its autonomy over a long period. Its operation mode is based on air sampling inside a sample loop which is connected to a six port valve. The injection over a heated analytical column is ensured by switching the valve position before detection by a photo ionization detector. This novel device was used in real conditions during two field campaigns conducted in an energy efficient college. This study focused on the temporal monitoring of indoor air pollutant concentrations including BTEX. The results obtained with our miniaturized device for BTEX were compared to those given by other techniques known as reference techniques. These field campaigns have therefore enabled us to validate the analytical performances, the robustness and the autonomy of this novel analytical method.

BTEX

Méthode analytique

Chromatographie gazeuse

, détecteur à photo ionisation

Détection en temps quasi-réel

Qualité de l'air intérieur

Campagne de terrain

BTEX

Analytical method

Gas chromatography

Photo ionization detector

Near-real time detection

Indoor air quality

Field measurements

543

Intelligent information processing in building monitoring systems and applications

Skön, J.-P. (Jukka-Pekka)

10 November 2015

Abstract Global warming has set in motion a trend for cutting energy costs to reduce the carbon footprint. Reducing energy consumption, cutting greenhouse gas emissions and eliminating energy wastage are among the main goals of the European Union (EU). The buildings sector is the largest user of energy and CO2 emitter in the EU, estimated at approximately 40% of the total consumption. According to the International Panel on Climate Change, 30% of the energy used in buildings could be reduced with net economic benefits by 2030. At the same time, indoor air quality is recognized more and more as a distinct health hazard. Because of these two factors, energy efficiency and healthy housing have become active topics in international research. The main aims of this thesis were to study and develop a wireless building monitoring and control system that will produce valuable information and services for end-users using computational methods. In addition, the technology developed in this thesis relies heavily on building automation systems (BAS) and some parts of the concept termed the “Internet of Things” (IoT). The data refining process used is called knowledge discovery from data (KDD) and contains methods for data acquisition, pre-processing, modeling, visualization and interpreting the results and then sharing the new information with the end-users. In this thesis, four examples of data analysis and knowledge deployment are presented. The results of the case studies show that innovative use of computational methods provides a good basis for researching and developing new information services. In addition, the data mining methods used, such as regression and clustering completed with efficient data pre-processing methods, have a great potential to process a large amount of multivariate data effectively. The innovative and effective use of digital information is a key element in the creation of new information services. The service business in the building sector is significant, but plenty of new possibilities await capable and advanced companies or organizations. In addition, end-users, such as building maintenance personnel and residents, should be taken into account in the early stage of the data refining process. Furthermore, more advantages can be gained by courageous co-operation between companies and organizations, by utilizing computational methods for data processing to produce valuable information and by using the latest technologies in the research and development of new innovations. / Tiivistelmä Rakennus- ja kiinteistösektori on suurin fossiilisilla polttoaineilla tuotetun energian käyttäjä. Noin 40 prosenttia kaikesta energiankulutuksesta liittyy rakennuksiin, rakentamiseen, rakennusmateriaaleihin ja rakennuksien ylläpitoon. Ilmastonmuutoksen ehkäisyssä rakennusten energiankäytön vähentämisellä on suuri merkitys ja rakennuksissa energiansäästöpotentiaali on suurin. Tämän seurauksena yhä tiiviimpi ja energiatehokkaampi rakentaminen asettaa haasteita hyvän sisäilman laadun turvaamiselle. Näistä seikoista johtuen sisäilman laadun tutkiminen ja jatkuvatoiminen mittaaminen on tärkeää. Väitöskirjan päätavoitteena on kuvata kehitetty energiankulutuksen ja sisäilman laadun monitorointijärjestelmä. Järjestelmän tuottamaa mittaustietoa on jalostettu eri loppukäyttäjiä palvelevaan muotoon. Tiedonjalostusprosessi koostuu tiedon keräämisestä, esikäsittelystä, tiedonlouhinnasta, visualisoinnista, tulosten tulkitsemisesta ja oleellisen tiedon välittämisestä loppukäyttäjille. Aineiston analysointiin on käytetty tiedonlouhintamenetelmiä, kuten esimerkiksi klusterointia ja ennustavaa mallintamista. Väitöskirjan toisena tavoitteena on tuoda esille jatkuvatoimiseen mittaamiseen liittyviä haasteita sekä rohkaista yrityksiä ja organisaatioita käyttämään tietovarantoja monipuolisemmin ja tehokkaammin. Väitöskirja pohjautuu viiteen julkaisuun, joissa kuvataan kehitetty monitorointijärjestelmä, osoitetaan tiedonjalostusprosessin toimivuus erilaisissa tapauksissa ja esitetään esimerkkejä kuhunkin prosessivaiheeseen soveltuvista laskennallisista menetelmistä. Julkaisuissa on kuvattu energiankulutuksen ja sisäilman laadun informaatiopalvelu sekä sisäilman laatuun liittyviä data-analyysejä omakoti- ja kerrostaloissa sekä koulurakennuksissa. Innovatiivinen digitaalisen tiedon hyödyntäminen on avainasemassa kehitettäessä uusia informaatiopalveluita. Kiinteistöalalle on kehitetty lukuisia informaatioon pohjautuvia palveluita, mutta ala tarjoaa edelleen hyviä liiketoimintamahdollisuuksia kyvykkäille ja kehittyneille yrityksille sekä organisaatioille.

data integration

data mining

energy consumption

indoor air quality

information services

k-means

monitoring systems

multilayer perceptron

self-organizing map

asuinrakennukset

energiankulutus

ilmanlaatu

informaatiopalvelu

julkiset rakennukset

laskentamenetelmät

mallintaminen

mittaaminen

tiedonlouhinta