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121	Experimental study of the development flow region on stepped chutes Murillo Munoz, Rafael Eduardo 15 February 2006 (has links) The development flow region of stepped chutes was studied experimentally. Three configuration of chute bed slopes 3.5H:1V, 5H:1V, and 10H:1V were used to study the flow characteristics. Each model had five horizontal steps and with constant step height of 15 cm. Constant temperature anemometry was used to investigate the velocity field characteristics as well as local void fraction. Pressure transducers were used to examine the pressure distribution. The conditions of aerated and non-aerated cavity were studied. It was found that the temperature anemometry is a valuable tool in the study of water flow problems due to its good spatial and temporal resolution. It is recommended that the constant overheat ratio procedure should be used in dealing with non-isothermal water flows. Flow conditions along the development flow region were found to be quite complex with abrupt changes between steps depending whether or not the flow jet has disintegrated. The flow on this region does not resemble a drop structure and after the first step, the step cavity condition does not affect the flow parameters. Pressure distribution was also found to be complex. It was found that there are no conclusive pressure profiles either on the step treads nor on step risers. No correlation was observed with the values of pool depth. The instantaneous characteristics of the velocity field along the jet of a drop structure were also studied. It was concluded that the cavity condition does not affect the velocity field of the sliding jet. The shear stress layer at the jet/pool interface was quantified. / May 2006 flow characteristics two phase flow anemometers measuring instruments velocity distribution velocity profile pressure distribution pressure measurement drop structure water jets cascades spillways
122	Pressure Sensor Development Using Hard Anodized Aluminum Diaphragm And Thin Film Strain Gauges Rajendra, A 04 1900 (has links) The sensor is a device that converts a form of energy concerning which the information is sought, called the measurand, to a form (electrical) in which it can be usefully processed or interpreted. Sensors rely on physical or chemical phenomena and materials where those phenomena appear to be useful. Those phenomena may concern the material itself or its geometry. Hence, the major innovations in sensors come from new materials, new fabrication techniques or both. Normally, thin film sensors are realized by depositing a sensing film on a suitable substrate. There could be many combination of metals and insulating materials being deposited depending upon the application or sensing requirements. In general, sensors for various applications are fabricated using a variety of liquid phase technologies (also called as wet methods) and gas phase technologies (also called as dry methods) of deposition. Hence sensor fabrication technology requires various combination of processing technologies and newer materials. In the present work, an attempt is made to design and fabricate a thin film based pressure sensor using a combination of wet and dry deposition techniques. The diaphragm, used for sensing the pressure is coated with a hard anodic coating (Al2O3) using a wet technology, viz. pulse hard anodizing technique, for electrical insulation requirement. The piezo-resistive strain sensing films were deposited onto this coating by dry method, namely, DC Magnetron sputtering technique.. Chapter 01 gives a brief overview of sensors, their classification, principles of sensing,characteristics, materials used in the fabrication of sensors like conductors and insulators, the components of a sensor. Chapter 02 gives brief information about various techniques of depositions viz., liquid phase technologies (wet methods) and vapour phase technologies (dry methods) used to fabricate the sensors. Also, information regarding the coating property evaluation and coating characterization techniques is included. The chapter 03 presents a detailed account of work carried out to obtain an electrically insulating layer by the development of pulse hard anodizing process for aluminum alloy diaphragm, necessary process optimization and testing. The details related to the development, fabrication and testing of thin film based pressure sensors using aluminum alloy diaphragm with hard anodic coating are presented in Chapter 04. The thin film strain gauges were deposited using DC magnetron sputtering technique. The information about mask design, deposition process parameters, calibration etc is also included. Chapter 05 provides summary of the work carried out and conclusions. The scope of carrying out further work is also outlined. Pressure Sensors Pressure - Measuring Instruments Pressure Sensors - Fabrication Sensors Anodization Sensor Fabrication Technology Strain Sensor Strain Gauges Hard Anodising Sensorics Aluminum Diaphragm Instrumentation
123	Small Angle Measurement Using Optical Caustics From Hollow Cylinders - Few Investingations kulkarni, Milind Anant 05 1900 (has links) ‘Optical Caustics’ represent some of the most visually striking patterns of the light in nature.They occur when light rays from a source, such as the sun, get refracted, or reflected by curved media so as to bend and alter their path. They are ubiquitous and signify the regions of space in which many rays intersect to form bright singularities along a two-or a three-dimensional surface. The associated 2-D patterns (caustic patterns) could be simple or complex in ‘shape and size’ depending upon the optical arrangement used to produce them. Such patterns exhibit either a static or a dynamic behavior which can be controlled sensitively by the medium or the device used to produce them. The present thesis concerns with a few novel contributions in utilization of such optical caustics for the measurement of small angular rotation/tilt of objects. Utilizing a ‘hollow cylinder’ as a novel device for the generation of the optical caustics, the author proposed and demonstrated three new schemes of realizing a position-dependent-behavior of ‘Optical Caustic Patterns’. The said behavior is investigated both analytically as well as experimentally. The results of the investigation are then utilized to propose and demonstrate three methods of magnifying angular displacement of the hollow cylinder. The salient feature of the principle behind each of the said methods is illustrated in the figures below. The patterns in each of the above pictures correspond to two different positions of the hollow cylinder-the pattern in white color corresponds to the initial position while that in red color corresponds to new angular position of the cylinder. Defining S1 = ƒ (LΔΦ), S2= ƒ(TΔΦ) and S3= ƒ(ξ ΔΦ) as new signals from the proposed methods, it has been shown that each of them represent a magnified measure of the change in the angular position of the cylinder ΔΦ. Further, if a plane mirror is used in place of cylinder in the proposed methods, the corresponding signal S for the same change in the angular position ΔΦis represented by ΔD. For a chosen set of the experimental conditions, it is shown that for unit change in ΔΦ, the values of S1, S2 and S3 change 30, 37 and 62 times faster than ΔD. The investigations clearly demonstrate that hollow cylinders can be advantageously used as position-magnifying angle-sensing devices. The results of the investigations also suggest that in application areas such as auto collimation, torsion pendulum and design of motion control stages, this device is expected to bring in new advances. Measuring Instruments Angle Measurements Caustic Generator Optical Caustics Angle Measurement - Modelling Angular Displacements - Measurement Angle Measurement - Optical Methods Hollow Cylinder Instrumentation
124	Experimental study of the development flow region on stepped chutes Murillo Munoz, Rafael Eduardo 15 February 2006 (has links) The development flow region of stepped chutes was studied experimentally. Three configuration of chute bed slopes 3.5H:1V, 5H:1V, and 10H:1V were used to study the flow characteristics. Each model had five horizontal steps and with constant step height of 15 cm. Constant temperature anemometry was used to investigate the velocity field characteristics as well as local void fraction. Pressure transducers were used to examine the pressure distribution. The conditions of aerated and non-aerated cavity were studied. It was found that the temperature anemometry is a valuable tool in the study of water flow problems due to its good spatial and temporal resolution. It is recommended that the constant overheat ratio procedure should be used in dealing with non-isothermal water flows. Flow conditions along the development flow region were found to be quite complex with abrupt changes between steps depending whether or not the flow jet has disintegrated. The flow on this region does not resemble a drop structure and after the first step, the step cavity condition does not affect the flow parameters. Pressure distribution was also found to be complex. It was found that there are no conclusive pressure profiles either on the step treads nor on step risers. No correlation was observed with the values of pool depth. The instantaneous characteristics of the velocity field along the jet of a drop structure were also studied. It was concluded that the cavity condition does not affect the velocity field of the sliding jet. The shear stress layer at the jet/pool interface was quantified. flow characteristics two phase flow anemometers measuring instruments velocity distribution velocity profile pressure distribution pressure measurement drop structure water jets cascades spillways
125	Experimental study of the development flow region on stepped chutes Murillo Munoz, Rafael Eduardo 15 February 2006 (has links) The development flow region of stepped chutes was studied experimentally. Three configuration of chute bed slopes 3.5H:1V, 5H:1V, and 10H:1V were used to study the flow characteristics. Each model had five horizontal steps and with constant step height of 15 cm. Constant temperature anemometry was used to investigate the velocity field characteristics as well as local void fraction. Pressure transducers were used to examine the pressure distribution. The conditions of aerated and non-aerated cavity were studied. It was found that the temperature anemometry is a valuable tool in the study of water flow problems due to its good spatial and temporal resolution. It is recommended that the constant overheat ratio procedure should be used in dealing with non-isothermal water flows. Flow conditions along the development flow region were found to be quite complex with abrupt changes between steps depending whether or not the flow jet has disintegrated. The flow on this region does not resemble a drop structure and after the first step, the step cavity condition does not affect the flow parameters. Pressure distribution was also found to be complex. It was found that there are no conclusive pressure profiles either on the step treads nor on step risers. No correlation was observed with the values of pool depth. The instantaneous characteristics of the velocity field along the jet of a drop structure were also studied. It was concluded that the cavity condition does not affect the velocity field of the sliding jet. The shear stress layer at the jet/pool interface was quantified. flow characteristics two phase flow anemometers measuring instruments velocity distribution velocity profile pressure distribution pressure measurement drop structure water jets cascades spillways
126	Distributed temperature sensing with neodymium-doped optical fiber Lounsbury, Jimson S. 04 January 2011 (has links) Polymer electrolyte membrane (PEM) fuel cells are being studied for use as high efficiency power plants in alternative fuel vehicles. To maintain high efficiency the operating temperatures of the membranes in these fuel cells must be closely monitored and controlled. However, the environment inside of the fuel cell is not favorable for traditional temperature sensing, so a new optical-fiber-based, distributed temperature sensor was proposed to address this need. This thesis investigates the properties of neodymium-doped optical fiber for use as a distributed temperature sensor for PEM fuel cells. The optical absorption spectrum was measured to identify the energy band structure and determine upconversion excitation schemes. The temperature coefficient of the Nd³⁺-doped silica fiber fluorescence decay time was measured for several bands of emission. Finally, two-photon upconversion was attempted from the lower excited states of Nd:YAG and Nd:silica. / Graduation date: 2012 neodymium Nd:silica optical fiber temperature sensor distributed temperature sensor Optical fiber detectors Temperature measuring instruments Proton exchange membrane fuel cells Neodymium
127	Sistema de caracterização de depósitos sedimentares em função das respostas latentes acústica, elétrica e térmica Laskoski, Gustavo Theodoro 25 July 2014 (has links) CAPES / Esse trabalho tem como objetivo geral o estudo e integração de vários sensores na caracterização de depósitos sedimentares. As técnicas correntes de análise sedimentar são tipicamente caracterizadas por análises descritivas in situ e por técnicas laboratoriais \textit{a posteriori}. Em alguns casos, algumas respostas obtidas em laboratório não podem ser explicadas pela descrição realizada in situ, resultando em falsos positivos e até na necessidade de novas coletas. Um sistema que integre sensores e técnicas para análises sedimentares in situ serve como uma ferramenta de auxílio, onde a resposta fornecida pelo analisador sedimentológico independe do pesquisador que utilizará o equipamento. Além disso, os resultados serão fornecidos no momento da coleta e qualquer resultado fora da normalidade poderá ser comparado com uma nova análise no mesmo instante. O sistema de aquisição desenvolvido integra as respostas de sensores acústicos, elétricos e térmicos. Os sensores são montados numa placa de fibra de vidro e as placas são inseridas no depósito sedimentar. Uma primeira análise consiste em avaliar a resposta acústica. Nessa técnica duas placas sensoras separadas por uma determinada distância são utilizadas, onde um sinal elétrico é utilizado para geração do sinal acústico numa placa e é realizada a leitura do sinal acústico na outra placa sensora. A mesma proposta foi replicada para um sistema de eletrodos para avaliar a impedância elétrica do depósito sedimentar. Além disso, são utilizados sensores capacitivos para avaliar a variação da impedância em função das características do depósito sedimentar. Uma outra técnica empregada avalia a resposta térmica. Nesse caso, um conjunto de resistores são utilizados para aquecer o depósito sedimentar e um conjunto de termistores são utilizados para avaliar a variação térmica nas próximidades dos sensores. Nesse trabalho foram realizados testes para verificar a variação dos sensores utilizados nas situações limites de baixo e elevado grau de saturação de água nos depósitos sedimentares. Com base nos testes realizados, o sistema permite medir o grau de saturação de água em função das respostas elétrica e térmica. Nos ensaios de laboratório foram observadas grandes variações para diferentes tipos de solo, podendo ser utilizado na classificação de solos. Além disso, o sistema desenvolvido apresentou mostrou aplicabilidade no monitoramento ambiental, podendo ser utilizado na avaliação espaço-temporal da irradiação solar, temperatura e umidade do solo. / This work describes overall integration of various sensors and geotechnical characterization of sediments. The techniques of analysis are typically characterized by in situ descriptions and laboratory techniques. Sometimes, laboratory responses cannot be explained by descriptions performed in situ, resulting in false positives and the necessity of new measurements. The proposal of a system that integrates sensors and geotechnical analysis in situ provides a better response due to results independent of researcher. Furthermore, the results will be provided in real time and some measurements errors can be easily detected. In this work, the developed system integrates responses of acoustic, electrical, and thermal sensors. The sensors were built in a plate of fiberglass and they are inserted into sediments. A first proposal is the evaluation of acoustic response. In this situation, two sensing plates separated by a given distance is used, where an electric signal is used to generates an acoustic signal and a piezoelectric crystal in the other sensor plate is used to detected received signal. The same setup was employed in a set of electrodes, where an electrical signal is applied into two electrodes arranged in two separate plates and the electrical impedance response is evaluated . Besides that, capacitive sensors are inserted into sediments to measure electrical impedance as a function of the characteristics of sedimentary deposit. Other developed system evaluates the thermal response. In this sensor, a set of resistors is used to heat the sediments and a set of thermistors is used to measure temperature variation. In this work, some tests were performed to evaluate the varition of sensors in situations of low and high degree of water saturation. In addition, it is presented the developed instrumentation. Based on the tests performed, developed system allows the measurement of water saturation based on the electrical and thermal responses. Besides that, laboratory tests show variations for different types of soil, where it can be used for soil classification. Furthermore, the system can be used in environmental monitoring, where solar irradiation, temperature, and soil moisture data can be evaluated. Sedimentação e depósitos - Análise Detectores Instrumentos de medição - Testes Software - Desenvolvimento Métodos de simulação Engenharia elétrica Sedimentation and deposition - Analysis Detectors Measuring instruments - Testing Computer software - Development Simulation methods Electric engineering
128	Communication at icg: the internal communication audit as an integrated measuring instrument Walt, Samantha 31 March 2006 (has links) There is global agreement that in today's business environment an integrated approach to communication is a necessity. Although there is a need to evaluate the application and quality of integrated communication, after almost 20 years of existence, it is still viewed as a difficult concept to implement. Definitions of integrated communication still vary, with no universal consensus. Although the literature on communications does propose various implementation models for evaluating integrated communication, these models are predominantly marketing-related, with parameters pertaining to the customer-experience. As such, these models have serious shortcomings when it comes to measuring the employee-experience. In this study, employee relationships are seen as the building blocks of the strategic management of communication between an organisation and its external publics. Recognising this significance of employee relationships two decades ago, Cutlip, Center, and Broom (1985) proposed that no organisational relationships are as important as those with employees. They advocated that the first step in promoting positive external relationships is achieving good internal communication. The central thrust is that employees who are truly customer-focused need to work within an employee-centric environment. Customarily, the traditional internal communication audit is used to evaluate the employee environment, employee perceptions of communication and employee attitudes. However, traditional audits have limitations when it comes to measuring integration. Traditional audits do not evaluate the role of the employee in building customer relationships, or the extent to which employees are integrated into an organisation. There is, therefore, a need to extend the traditional internal communication audit, so as to evaluate integrated internal communication and its application and quality. Duncan (2001) maintains that integrated communication must first exist internally if a company is to effectively communicate externally. Therefore, the primary research objective of this study was to develop a measuring instrument (using elements from existing audits and models) to evaluate integrated internal communication. This entailed a literature review to determine the theoretical status of the concept of integrated communication and internal communication. A measuring instrument was then developed to evaluate integrated internal communication. The second objective was to apply the developed instrument so as to measure employee perceptions of communication at the International Colleges Group (ICG). These perceptions were measured through a group administered perception survey and personal interviews. Research results where used to determine the extent of integrated internal communication at ICG in accordance with four identifiable stages. Findings signifyed some success in the first stage of integrated communication. However, there was no indication of integrated communication in the later stages. The final objective was to test the shortcomings of the proposed instrument. / Communication Science / M.A. (specialisation in Organisational Communication Research and Practice) Internal communication Integrated communication Integrated internal communication Communication audit Integrated measuring instruments 658.45 Communication in organizations Communication Communication in personnel management Auditing, Internal
129	Padronização de feixes e metodologia dosimétrica em tomografia computadorizada MAIA, ANA F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:50:22Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:51Z (GMT). No. of bitstreams: 1 10890.pdf: 10562798 bytes, checksum: 063bd7e321751780a6d96cafecfe45bc (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP / FAPESP:01/06837-2 beams computerized tomography dosimetry image processing ion-mobility detectors ionization chambers multiwire proportional chambers quality assurance diagnostic techniques measuring instruments processing proportional counters radiation detectors tomography standards
130	Aplicação do método de Monte Carlo no estudo da padronização de radionuclídeos com esquema de desintegração complexos em sistema de coincidencias 4-pi-beta-gama TAKEDA, MAURO N. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:52:18Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:31Z (GMT). No. of bitstreams: 0 / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP beta decay coincidence spectrometry computerized simulation counting rates efficiency measuring instruments energy resolution experimental data four-pi detectors m codes monte carlo method

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