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

Silva, Ana Flávia Silveira

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.

Air conditioning

Condicionamento de ar

Conforto térmico

Distribuição de ar pelo piso

Indoor air quality

Indoor environmental quality

Qualidade ambiental interior

Qualidade do ar interior

Sick building syndrome

Síndrome dos edifícios doentes

Thermal comfort

Underfloor air distribution

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

Optimalizace větrání divadelní haly / Optimizing theater hall ventilation

Lenhart, Marek

January 2018

This master’s thesis is focuses on flow theory and optimizing current state of air distribution in theater hall by CFD simulations. A part of this thesis is project solution of one variant.

Větrání tělocvičny / Ventilation of sports hall

Urban, Ondřej

January 2018

The master thesis deals with flow modeling in the CFD program. By means of which the opti-mal version of the air distribution diffuser in the sports hall will be selected. The first variant will bring fresh air through textile diffusers. The second variant will bring fresh air through flooded large circular diffusers. The tested parameter of the indoor environment will be the flow velocity and the age of the air. The better-performing version will be processed as an implementation documentation.

Vzduchotechnické jednotky / Air handling units

Cakl, Dominik

January 2020

The diploma thesis deals with the analysis of problems of unevenly stratified air flow in air handling units and subsequent optimization with respect to speed ratios, energy efficiency and legislative requirements. Methods of solving the problem are theoretical and experimental, while the theoretical part deals with air distribution by means of air-conditioning fans with a focus on their aerodynamics, pressure conditions and other requirements, which are an integral part of properly designed equipment. In the experimental part of the thesis was applied a proposal of an innovative technical approach to a specific model of air conditioning assembly, which was implemented in the laboratories of the Institute of Building Services.

Optimalizace vzduchotechniky wellness / OPTIMIZATION OF WELLNESS AIR CONDITION

Kysilka, Michal

January 2013

The theme of diploma thesis is a design optimization of air distribution in swimming-pool hall with regard to free water surface evaporation. This problem was solved according to determined criterions with the aid of CFD simulation. Experimental measurement part of the thesis deals with evaporation problems where own formula for this physical phenomenon is determined. This formula is compared with already known algorithms. Author suggests that such formula might be integrated in CFD software.

Optimalizace mikroklimatu v kabinách malých dopravních letadel / Optimization of Cabin Environment in Small Transport Aircraft

Fišer, Jan

January 2011

The thesis deals with design and optimization of environment in cabins of small transport aircrafts, especially in terms of thermal comfort and quality of ventilation. The design of air distribution systems and structural design were optimized and most important parts of cabin design with highest impact on the quality of thermal comfort and ventilation were identified based on literature research and experience of the author. The chosen modifications and their influence on the microclimate inside the cabin were investigated using the CFD model, which was validated by results obtained from measurements of flow and temperature fields in the cabin mock-up of small transport aircraft EV-55. Next optimizations were investigated: The type of air distribution system, The geometry of ducts of air distribution system, Thickness of thermal insulation and Emissivity of internal surfaces. Thermal comfort was assessed based on the methodology of the equivalent temperature and comfort zones diagram developed by H. O. Nilsson and for assessing the quality of ventilation the concept of based on index of the age of the air was used. Fifty cases were simulated in total and base of its results Modified mixing ventilation with original air ducts geometry have been evaluated as an optimum. The ducts geometry of Modified mixing ventilation system was suggested by author specially for the thesis. In combination with high thermal insulation of walls and high emissivity of the interior, then this system of ventilation ensures maximum thermal comfort and quality of ventilation for the investigated range of environmental and operational conditions.

A Ventilation Strategy Based on Confluent Jets : An Experimental and Numerical Study

Janbakhsh, Setareh

January 2015

This study presents air distribution systems that are based on confluent jets; this system can be of interest for the establishment of indoor environments, to fulfill the goals of indoor climate and energy-efficient usage. The main objective of this study is to provide deeper understanding of the flow field development of a supply device that is designed based on wall confluent jets and to investigate the ventilation performance by experimental and numerical methods. In this study, the supply device can be described as an array of round jets on a flat surface attached to a side wall. Multiple round jets that issue from supply device apertures are combined at a certain distance downstream from the device and behave as a united jet or so-called confluent jets. Multiple round jets that are generated from the supply device move downward and are attached to the wall at the primary region, due to the Coanda effect, and then they become wall confluent jets until the floor wall is reached. A wall jet in a secondary region is formed along the floor after the stagnation region. The characteristics of the flow field and the ventilation performance of conventional wall confluent jets and modified wall confluent jets supply devices are investigated experimentally in an office test room. The study of the modified wall confluent jets is intended to improve the efficiency of the conventional one while maintaining acceptable thermal comfort in an office environment. The results show that the modified wall confluent jets supply device can provide acceptable thermal comfort for the occupant with lower airflow rate compared to the conventional wall confluent jets supply device. Numerical predictions using three turbulence models (renormalization group (RNG k– ε), realizable (Re k– ε), and shear stress transport (SST k– ω) are evaluated by measurement results. The computational box and nozzle plate models are used to model the inlet boundary conditions of the nozzle device. In the isothermal study, the wall confluent jets in the primary region and the wall jet in the secondary region, when predicted by the three turbulence models, are in good agreement with the measurements. The non-isothermal validation studies show that the SST k– ω model is slightly better at predicting the wall confluent jets than the other two models. The SST k– ω model is used to investigate the effects of the nozzle diameter, number of nozzles, nozzle array configuration, and inlet discharge height on the ventilation performance of the proposed wall confluent jets supply device. The nozzle diameter and number of nozzles play important roles in determining the airflow pattern, temperature field, and draught distribution. Increased temperature stratification and less draught distribution are achieved by increasing the nozzle diameter and number of nozzles. The supply device with smaller nozzle diameters and fewer nozzles yields rather uniform temperature distribution due to the dominant effect of mixing. The flow behavior is nearly independent of the inlet discharge height for the studied range. The proposed wall confluent jets supply device is compared with a mixing supply device, impinging supply device and displacement supply device. The results show that the proposed wall confluent jets supply device has the combined behavior of both mixing and stratification principles. The proposed wall confluent jets supply device provides better overall ventilation performance than the mixing and displacement supply devices used in this study. This study covers also another application of confluent jets that is based on impinging technology. The supply device under consideration has an array of round jets on a curve. Multiple jets issue from the supply device aperture, in which the supply device is positioned vertically and the jets are directed against a target wall. The flow behavior and ventilation performance of the impinging confluent jets supply device is studied experimentally in an industrial premise. The results show that the impinging confluent jets supply device maintains acceptable thermal comfort in the occupied zone by creating well-distributed airflow during cold and hot seasons.

Multiple interacting jets

round jets

confluent jets

wall jet

ventilation strategy

air distribution system

air supply device

ventilation performance

thermal comfort

energy-saving potential

measurement

numerical predictions

RANS turbulence models

renormalization group (RNG k– ε)

realizable (Re k– ε)

Mikroklima bazénových hal / Indoor environment of pool halls

Halla, Ondřej

January 2019

The diploma thesis deals with the problems of the indoor environment of swimming pool halls. Firstly, it describes issues and principles of designing HVAC system in the areas with high humidity production. Thesis then focuses on various approaches to calculations of evaporation from the water surface and different possibilities of dehumidification including different types of HVAC units. This knowledge was applied to the design of HVAC system for particular assigned building, for which are proposed two different solutions. Thesis includes experimental part, its aim is to analyse one specific critical part of the hall. Based on local surveying and long-term measurements a few possibilities of improvement are suggested.

Ventilation for reduced indoor spread of Covid 19 and similar diseases : A literature review focusing on hospital environments / Ventilation för minskad inomhusspridning av Covid 19 och liknande sjukdomar : En litteraturstudie med fokus på sjukhusmiljöer

Ourak Pour, Cyrus

January 2023

Today, a significant portion of individuals’ time is spent indoors, estimated at approximately 90% of their total time. This raises concerns about the transmission of Coronavirus Disease 2019 (COVID-19) instigating Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) and similar viruses and highlights the critical role of ventilation systems in indoor environments, which this study aims to investigate. Narrowing the focus to healthcare facilities, particularly hospitals in Sweden, the study includes the importance of ventilation systems in safeguarding the health safety and well-being of patients, healthcare workers in hospitals. To effectively combat the spread of the SARS-CoV-2 virus, it is crucial to have a thorough understanding of its viral characteristics, with a specific centre on airborne transmission size, virus longevity, and quantum of infection. Furthermore, it is essential to recognize the major impact of ventilation rate, thermodynamic factors such as temperature and humidity, as well as pollutants in effectively mitigating the transmission of SARS-CoV-2 and similar pathogens.  The comprehensive findings of this literature review underscore that, for hospitals in Sweden, a Heat Recovery Ventilation (HRV) system incorporating a plate heat exchanger is the most suitable ventilation system for this specific objective. Moreover, the recommended ventilation strategy is specifically tailored for implementation in wards or isolated rooms, where it is ideal for the incoming air to originate from the patient’s room floor, while the exit point is preferably located near or at the ceiling. In the context of this study, identified effective solutions involve the utilization and combination of high-efficiency filters and ultraviolet (UV) technology installed within ventilation system unit, particularly when an air recirculation system is used. Additionally, the implementation of RM3 (Rheem’s third generation products) UV-C technology for indoor use can be achieved without considerable intervention in ventilation system, depending on the type of ventilation system being utilized. In summary, this study enhances understanding of the complex relationship between ventilation systems, COVID-19 transmission and similar diseases, the optimization of thermodynamic factors, and selection of effective and practical measures. It provides valuable insights for designing effective ventilation strategies across various indoor environments, with a specific attention on healthcare facilities. / Idag spenderas en betydande del av individers tid inomhus, uppskattningsvis cirka 90% av deras totala tid. Detta väcker oro över överföringen av Coronavirussjukdom 2019 (COVID-19), som initierar Svårt Akut Respiratoriskt Syndrom Coronavirus 2 (SARS-CoV-2) och liknande virus och belyser den kritiska rollen som ventilationssystem spelar i inomhusmiljöer, som denna studie syftar till att undersöka. Genom att begränsa fokus till vårdinrättningar, särskilt sjukhus i Sverige, inkluderar studien vikten av ventilationssystem för att säkerställa hälsosäkerheten och välbefinnandet för patienter och vårdpersonal på sjukhus. För att effektivt bekämpa spridningen av SARS-CoV-2-viruset är det viktigt att ha en grundlig förståelse för dess virala egenskaper, med ett specifikt fokus på luftburen överföringsstorlek, viruslivslängd och infektionsmängd. Dessutom är det viktigt att identifiera den stora inverkan av luftomsättningstakt, termodynamiska faktorer som temperatur och fuktighet samt föroreningar för att effektivt minska överföringen av SARS-CoV-2 och liknande patogener. De omfattande resultaten av denna litteraturstudie understryker att värmeåtervinningsventilationssystem (HRV) med plattvärmeväxlare är det mest lämpliga ventilationssystemet för sjukhus i Sverige för detta specifika mål. Dessutom är den rekommenderade ventilationsstrategin speciellt anpassad för implementering på avdelningar eller isolerade rum, där den är idealisk för att inkommande luft ska komma från patientens rumsgolv, medan utgångspunkten företrädesvis är placerad nära eller i taket. I samband med denna studie involverar identifierade effektiva lösningar, användning och kombination av högeffektiva filter och ultraviolett (UV)-teknik installerad i ventilationssystemenhet, särskilt när ett luftcirkulationssystem används. Dessutom kan implementeringen av RM3 (Rheems tredje generationens produkter) UV-C-teknik för inomhusbruk uppnås utan betydande ingrepp i ventilationssystem, beroende på vilken typ av ventilationssystem som används. Sammanfattningsvis ökar denna studieförståelse för det komplexa förhållandet mellan ventilationssystem, COVID-19-överföring och liknande sjukdomar, optimering av termodynamiska faktorer och val av effektiva och praktiska åtgärder. Den ger värdefulla insikter för att utforma effektiva ventilationsstrategier i olika inomhusmiljöer, med särskild uppmärksamhet på vårdinrättningar.

COVID-19

SARS-CoV-2

Ventilation system

Mixing ventilation (MV)

Displacement ventilation (DV)

Under floor air distribution (UFAD)

Ultraviolet light (UV)

HEPA filter

COVID-19

SARS-CoV-2

Ventilationssystem

Blandningsventilation

Deplacementventilation

Luftfördelning under golv

Ultraviolett ljus

HEPA-filter

Energy Engineering

Energiteknik