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A Ventilation Strategy Based on Confluent Jets : An Experimental and Numerical StudyJanbakhsh, Setareh January 2015 (has links)
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.
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Installation and Operation of Air-Sea Flux Measuring System on Board Indian Research ShipsKumar, Vijay January 2017 (has links) (PDF)
Exchange of mass (water vapor), momentum, and energy between atmosphere andocean has profound influence on weather and climate. This exchange takes place at the air-sea interface, which is part of the marine atmospheric boundary layer. Various empirical relations are being used for estimating these fluxes in numericalweather and climate models but their accuracies are not sufficiently verified or tested over the Indian Ocean. The main difficulty is that vast areas of open oceans are not easily accessible. The marine environment is very corrosive and unattended long term and accurate measurements are extremely expensive. India has research ships that spend most of their time over the seas around India but that opportunity is yet to be exploited. To address this, an air-sea flux measurement system for operation on board research ships was planned. The system was tested on board Indian Research Vessels ORV SagarKanya during its cruise SK-296 in the Bay of Bengal (BoB) in July-August 2012, and NIO ship Sindhu Sadhana in June-July 2016. The complete set included instruments for measuring wind velocity, windspeed and direction, air and water temperature, humidity, pressure, all components of radiation and rainfall. In addition, ship motion was recorded at required sampling rate to correct for wind velocity. The set up facilitates the direct computation of sensible and latent heat fluxes using the eddy covariance method.
In this thesis, design and installation of meteorological and ship motion sensors onboard research ships, data collection and quality control, computation of fluxes of heat, moisture and momentum using eddy covariance method and their comparison with those derived from bulk method are described. A set of sensors (hereafter, flux measuring system) were mounted on a retractable boom, ~7 m long forward of the bow to minimize the flow disturbance caused by the ship superstructures. The wind observed in the ship frame was corrected for ship motion contaminations. During the CTCZ cruise period true mean wind speed was over 10 m/s and true wind direction was South/South-Westerly. True windspeedis computed combiningdata from the anemometer a compass connected to AWS and a GPS. Turbulent fluxes were computed from motion-corrected time-series of high frequency velocity, water vapor, and air temperature data. Covariance latent heat flux, sensible heat flux, and wind stress were obtained by cross-correlating the motion-corrected vertical velocity with fast humidity fluctuations measured with anIR hygrometer, temperate fluctuation from sonic anemometer and motion-corrected horizontal windfluctuations from sonic anemometer, respectively.
During the first attempt made in July-August 2012 as part of a cruise of CTCZ monsoonresearch program, observations were mainly taken in the North Bay of Bengal. The mean air-temperature and surface pressure were ~28 Deg C and ~998 hPa, respectively. Relative humidity was ~80%. Average wind speed varied in the range 4-12 m/s. The mean latent heat flux was 145 W/m2 , sensible heat flux was ~3 W/m2 and average sea-air temperature difference was ~ 0.7°C.
The Bay of Bengal boundary layer experiment (BoBBLE) was conducted during June-July 2016 and the NIO research ship Sindhu Sadhana was deployed. The same suite of sensors installed during CTCZ were used during BoBBLE. During daytime, peaks of hourly net heat fluxes (Qnet ) were around 600 Wm-2(positive if into the sea), whereas, night time values were around -250 W m-2. Sea surface temperature was always >28°C and maximum air temperature exceeded 29°C. During the experimental period the mean Qnet was around -24 Wm-2 from both eddy covariance and conventional bulk methods, but there are significant differences on individual days.The new flux system gives fluxes which are superior to what was available before.
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Regionalização hidrológica de vazões e de cargas difusas de sólidos suspensos totais para o programa ProdutorES de Água e o pagamento de serviços ambientais. Estudo de caso: bacia hidrográfica do rio Benevente, ES / Hydrological regionalization of flows and loads of total suspend solids for the program Producers of Water and the payment of environmental services. Case study of river basin Benevente, ESCesar Sperchi Henrique 19 November 2009 (has links)
O sistema de pagamento por serviços ambientais de uma bacia hidrográfica pode ser economicamente atrativo e ecologicamente importante. Programas como o Produtor de Água compensam economicamente proprietários a montante da bacia que utilizam de manejo adequado do uso do solo, e do reflorestamento, para evitar a erosão hídrica, o aumento de cargas poluidoras difusas, e aumentar a disponibilidade e qualidade de água. Por conseqüência usuários de água, a jusante da bacia, são beneficiados, por exemplo, as estações de tratamento de água. Este trabalho tem como objetivo, a partir de metodologias de pagamentos de serviços ambientais, regionalizar hidrologicamente a quantidade e qualidade de água do rio Benevente para dar subsídios ao programa de produtores de água de sua bacia hidrográfica. O trabalho foi desenvolvido na parte média e alta da bacia hidrográfica do Benevente, localizada ao sul do Estado do Espírito Santo, com área de drenagem de aproximadamente 1260 \'KM POT.2\'. Á área de drenagem do local do estudo é de 825,24 \'KM POT.2\'. Parte da metodologia consistiu no levantamento de dados quantitativos e qualitativos de água ao longo do rio Benevente, nos últimos anos. De posse dos dados de vazão, concentração de SST e da área de drenagem, foram calculadas as cargas específicas difusas de SST, em termos de Kg/ha.ano e as cargas totais difusas em termos de ton/ano. A carga específica média de SST para a bacia foi de 194 Kg/ha.ano, a carga total média de SST foi de 11.238 ton/ano. A metodologia de regionalização hidrológica de cargas de SST por meio de curvas de permanência mostrou que há uma ampla variação de cargas produzidas na bacia sobre diferentes condições hidrológicas. Por exemplo, para uma faixa de permanências de 40% a 60% a variação de produção específica regional de SST foi de 58,54 a 825,14 Kg/ha.ano. A utilização da metodologia das curvas de permanência quali-quantitativas para a proposição de cenários ambientais em vista das mudanças de uso e ocupação do solo, propostos pelos programas de PSA, permitiu estimar o Percentual de Abatimento de Sedimentação (P.A.S) e consequentemente o Percentual de Abatimento de Erosão (P.A.E), na bacia. Encontrou-se um P.A.E de 36,9% entre o cenário atual e o cenário com amento de 20% da área florestal da bacia. Com este resultado estimou-se um total arrecadado na bacia pelo P.S.A de 825.195 R$/ano. Com as metodologias propostas também foi calculada a perda de solo atual da bacia, em relação à estação de amostragem mais a jusante. A taxa estimada foi de 200.123 ton/ano. / Systems of payment for environmental services of a catchment area can be economically attractive and ecologically important. Programs such as Producers of Water economically compensate owners upstream of the basin using the proper management of land use, and reforestation to prevent erosion, increased pollution loads diffuse and increase the availability and quality of water. Consequently water users downstream of the basin, are benefited, for example, sewage water treatment. This paper aims, methodologies from payments for environmental services, regionalization of hydrologically the quantity and quality of water from the river Benevente to aid the program producer of water from its watershed. The study was conducted in the middle and upper catchment of the Benevente, located south of Espírito Santo, with drainage area of approximately 1260 \'KM POT.2\'. The drainage area of the study is 825.24 \'KM POT.2\'. Part of the survey methodology consisted of qualitative and quantitative data of water along the river Benevente in recent years. With these data we calculated the diffuse specific loads of TSS, in terms of Kg/ha.year. The specific load average TSS for the basin was 194 Kg/ha.year, the total load average SST was 11,238 Ton/year. The methodology of regionalization of hydrological loads of TSS through curves of duration showed that there remain a wide range of loads in the basin produced on different hydrological conditions. For example, for a range of stays of 40% to 60% of the variation of specific regional production of TSS was 58.54 to 825.14 Kg/ha.year . Using the methodology of the curves remain qualitative and quantitative for the proposition environmental scenarios in view of land use change and land use, proposed by the PSA program, estimated the rate of reduction on Sedimentation (PAS) and consequently the rate Abatement of Erosion (PAE) in the basin. Found a PAE of 36.9% from the current scenario and the scenario with budget of 20% of the forest area of the basin. With this estimated result a total collected in the basin by the PSA for R$ 825,195/year. With the proposed methodology was also calculated the soil loss on the basin in relation to the sampling station further downstream. The rate was estimated at 200,123 ton/year.
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Energy-efficient Industrial processes : An investigation in the power consumption, power number, thrust force and torque requirement on a rotating bed reactorAli Haji, Kasim January 2021 (has links)
Rotating bed reactors are used throughout the process industry. They are usedboth in the chemical industry and other industrial sectors, such as pharmaceuticals and the textile industry in decolorization due to by-products or contaminants.SpinChem AB manufactures rotary bed reactors (RBRs) to perform chemical reactions between liquids and solids. The solid material consists of spherical particles0.1 mm - 1 mm in diameter that are packed between two cylindrical spaces in theRBR. The goal of this project work is to determine the power number, the axial force thatthe RBRn experiences, the torque requirement on the motor and power consumptionof the the RBR when a fully developed turbulent flow is achieved. The purpose ofthe work is to optimize the technology from the energy usage point of view, makethe product simple and easily accessible for chemical and industrial processes as acontribution to the development of sustainable society. In order to achieve the purpose and goal of the projects, Computational Fluid Dynamics (CFD) combined withexperimental models were used. Computation were made in COMSOL Multiphysicsfor two turbulence models. In it, the rotating machinery was used with moving meshtechnique for both the standard k−ε model and the SST k−ω turbulence models.The result is then compared with the empirical models. Investigation were done for two models of the rotating bed reactors (RBRs). Onemodel is called RBR S2 with relatively small size and RBR S14 which is a muchlarger version. For RBR S2 the experimental results turned out to be, an output ofpower number which is 3.4, torque requirement of 0.03 Nm, power consumption of3 W and a thrust force of 0.11 N. While the simulation results turned out to bean output of power number which is about 1.2, torque requirement of 0.013 Nm, apower consumption of 2 W and thrust force of 0.8 N. Similarly, the experimentalresult for RBR S14 was as follows. A power number of 0.53, torque requirement of0.41 Nm, power consumption of 6 W and a thrust force of 4.16 N. The simulationresults turned out to be, a power number of 0.34, torque requirement of 0,40 Nm,a power consumption of 4.14 W and thrust force of 3.61 N. With the help of the calculated power numbers, the power required to rotate theRBR can then be determined. Power number is determined when a fully developedturbulent flow is achieved. For RBRS2, a fully developed turbulent flow is achievedat Re = 2.8·104 and the angular velocity at that Reynolds number is about 830RPM. At that speed, the power is shown to be about 4 W for RBRS2. For RBRS14,a fully developed turbulent flow is achieved at Re = 1.5 · 105 and then the speed atthat Reynols number is about 83 RPM. The power need at that stage is shown tobe about 20 W. / Roterande bäddreaktorer används inom hela processindustrin. De används bådeinom den kemiska industrin och andra industriella sektor såsom, läkemedel och textilindustrin vid avfärgning på grund av biprodukter eller föroreningar. SpinChemAB tillverkar roterande bed reaktorer (RBR) för att utföra kemiska reaktioner mellan vätska och fasta material. Det fasta materialet består av sfäriska partiklar på0,1 mm - 1 mm i diameter som packas mellan två cylindrar i RBRn. Målet med detta projektarbete var att bestämma effekt nummer, effekt som krävsvid det effekt nummer, kravet på vridmoment från motorn samt den axiella kraftensom den roterande bäddreaktorn upplever när ett fullt utvecklat turbulent flöde uppnåtts. Syftet med arbetet var optimera teknologin ur energianvändningssynpunkt, göra den enkel och lättillgänglig för kemiska och industriella processer som ett bidragför hållbar samhällsutveckling. För att kunna uppnå syftet och målet med projekten användes, avancerade beräkningsmetoder i födes mekanik (CFD) i kombinationmed experimentella modeller. Beräkningar gjordes i COMSOL Multiphysics för tvåturbulenta modeller. I de användes roterande maskineriet med en medföljande mesh (moving mesh) för både standard k-ε modellen och SST k-ω modellen. Resultatet jämfördes sedan med de empiriska modellerna. Undersökningarna gjordes för två modeller av RBR. Ena modellen heter RBR S2med relativt små tillstorlek och RBR S14 som är mycket större version. För RBR S2visar den experimentella resultaten ett effekt nummer på 3,4, vridmoment på 0,03Nm, effekt förbrukning på 3 W och en axiellkraft ("thrust force") på 0,11 N. Simuleringsresultatet visar ett effekt nummer på 1,2, vridmoment på 0,013 Nm, effektförbrukning på 2 W och en axiellkraft på 0,8 N. För RBR S14 visade det experimentella resultatet ett effekt nummer på 0,53, vridmoment på 0,41 Nm, effektförbrukning på 6 W och en axiellkraft ("thrust force") på 4,16 N. Simuleringsresultatetvisade att effekt nummer var 0,34, vridmoment på 0,40 Nm, effektförbrukning på4,14 W och en axiellkraft på 3,61 N. Med hjälp av de framräknade effektnummer kan effekten som behövs rotera RBRnbestämmas. Effektnummer bestäms när ett fullt utvecklat turbulent flöde uppnåtts. För RBRS2 uppnås ett fullt utvecklat turbulent flöde vid Re = 2,8·04 och vinkelhastigheten är 830 RPM vid det Reynolds nummer. Effekten som krävs för att drivaRBRn vid det läge är ca 4 W för RBRS2. För RBRS14 uppnås ett fullt utvecklatturbulent flöde vid Re = 1,5·105 och då har vi en hastighet på 83 RPM. Vid denhastighet visas effekten vara ca 20 W.
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User perspectives and usability insights in a self-service portal : Uncovering Opportunities for enhancing the user experienceMatloobtalab, Mehrnaz, Iversen, Philip January 2023 (has links)
In the era of digital transformation, the need for more efficient self-service technologies has increased, particularly after the COVID-19 pandemic, which highlighted the importance of reducing physical interactions. Although there is some research on self-service technologies, there is a lack of research on the usability of internal self-service portals which are used within organizations. This study aims to address this gap by applying the Technology Acceptance Model (TAM) and the design principles within Human-Computer Interaction (HCI) field to examine the usability of a self-service portal in a university in Sweden. The study adopts a mixed-method approach, incorporating data collection techniques such as cognitive walkthrough and semi-structured interviews for qualitative data, as well as System Usability Scale (SUS) questionnaire, and some other quantitative measurements for collecting data. Findings from the quantitative analysis through the System Usability Scale (SUS) results indicate a good to borderline OK design, with user satisfaction affected by the number of clicks and time required to complete tasks. Findings from the qualitative analysis reveal important factors influencing user experience, including user perception of the portal's design, learnability, impact of access to multiple systems, influence of easy-to-reach IT assistance, impact of insufficient information and guidance, lack of awareness, user desires, and suggestions for the design. The study concludes with the development of design guidelines based on the identified themes, aiming to enhance the usability of the self-service portal. These findings contribute to the understanding of self-service portals' usability within organizational contexts and provide actionable recommendations for improving the design and the user experience.
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Desenvolvimento de metodologias para o reconhecimento de estruturas quiescentes em mapas solares observados pelo Telescópio Solar para Ondas Submilimétricas (SST)Pereira, André Luiz Garcia 20 August 2018 (has links)
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Previous issue date: 2018-08-20 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The Submillimeter Solar Telescope (SST) operates simultaneously and independently with a
multibeam focal array at 212 and 405 GHz. Since 1999, the SST daily monitors in different
modes of observation the solar activity generating binary files from which solar maps can be
extracted. The identification of Active Regions in these maps is affected by the strong
atmospheric attenuation and inaccuracies of the telescope's pointing, therefore, maps are
visually inspected to manually extract the Active Regions. This is a lengthy process for
performing a statistical analysis over the 20-year data set already recorded. To automatize the
process artificial intelligence techniques of machine learning and computer vision were
proposed. A Convolutional Neural Network was created within the Keras framework for the
classification of the SST maps and then, a computer vision algorithm in the OpenCV framework
was used for the automatic detection of ARs. This hybrid approach allowed the identification
of more than 400 active regions between January 2002 and December 2017 and their physical
properties were statistically analysed. The results were validated comparing with previous
works which were carried out with a visual identification and manual extraction procedure, and
a good agreement was found. Moreover, we present for the first time, evidence of a positive
correlation between the brightness temperature at 212 GHz and the flux density at 2.8 GHz (the
S component) along the solar cycle. / O Telescópio Solar Submilimétrico (SST) opera simultaneamente e de forma independente,
com uma matriz focal multifeixe em 212 e 405 GHz. Desde 1999, o SST monitora diariamente
em diferentes modos de observação a atividade solar gerando arquivos binários dos quais mapas
solares podem ser extraídos. A identificação de Regiões Ativas nesses mapas é afetada pela
forte atenuação atmosférica e imprecisões dos apontamentos do telescópio, portanto, os mapas
são visualmente inspecionados para extração manual as Regiões Ativas. Este é um processo
demorado para a realização de uma análise estatística ao longo do conjunto de dados de 20 anos
já registrado. Para automatizar o processo, foram propostas técnicas de inteligência artificial de
aprendizado de máquina e de visão computacional. Uma Rede Neural Convolucional foi criada
dentro do framework Keras para a classificação dos mapas SST e, em seguida, um algoritmo
de visão computacional no framework OpenCV para a detecção automática das Regiões Ativas.
Esta abordagem híbrida permitiu a identificação de mais de 400 Regiões Ativas entre janeiro
de 2002 e dezembro de 2017 e a análise estatística de suas propriedades físicas. Os resultados
foram validados a partir da comparação com trabalhos anteriores, que foram realizados com um
procedimento de identificação visual e extração manual, e foi encontrada boa concordância.
Além destes resultados, mostramos pela primeira vez evidências de uma correlação positiva
entre a temperatura de brilho em 212 GHz e o fluxo em 2.8 GHz (componente S).
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