Global ETD Search

1	Measurement of Thermal Properties of Seafood Radhakrishnan, Sudhaharini 14 July 1997 (has links) Thermal properties of ten different seafood were measured in this research. They included bluefish (<i>Pomatomus saltatrix</i>), croaker (<i>Micropogonias undulatus</i>), spanish mackerel (<i>Scomberomorus maculatus</i>), pink salmon (<i>Oncorhynhus gorbuscha</i>), black seabass (<i>Atractoscion nobilis</i>), spot (<i>Leiostomus xanthurus</i>), shrimp(<i>Pandalus borealis</i>), tilapia (<i>Tilapia aurea</i>), grey sea trout(</i>Cynoscion regalis</i>), and yellow fin tuna (<i>Thunnus albacares</i>) (Wheaton, et al. 1985). Thermal properties measured were thermal conductivity, thermal diffusivity, and specific heat from 5 to 30<sup>o</sup>C. Enthalpy was measured from -40 to 30<sup>o</sup>C. Moisture and fat content were measured. Thermal conductivity and thermal diffusivity were measured by a rapid transient technique using a bead thermistor probe. Specific heat and enthalpy were measured using a differential scanning calorimeter. Moisture content and fat content were measured by the AOAC specified oven dry method and ether extraction method, respectively. The measured thermal properties agreed well with the scarcely available literature values. They were then statistically correlated with moisture and fat content. Based on statistical analysis, mathematical models relating thermal properties and composition were proposed and compared with the models available in the literature. Models for thermal conductivity and specific heat were recommended to predict these properties of meats and fish with similar composition. / Master of Science differential scanning calorimeter thermistor seafood thermal properties
2	The Development of a Pragmatic Methodology for the More Accurate Determination of the Core Body Temperature of Broiler Embryos During Incubation Durojaye, Oluwaseun Ayobami 11 August 2017 (has links) Avian embryonic development, hatchability, and post-hatch performance are greatly affected by temperature. Therefore, a pragmatic, minimally invasive, and industrially applicable method for the precise and accurate measurement of embryonic temperature is needed. The objective of this research was to develop such a method. Preliminary research concerning air cell depth profiles and the relationships of eggshell thickness to thermal gradients across the shells of broiler hatching eggs were determined. This provided information for appropriately positioning and timing wired thermistor probe insertion into egg air cells for the practical and accurate estimation of embryo temperature. The relationship between air cell temperature readings using transponders and wired thermistor probe network assemblies were likewise determined. Embryo temperature estimation using probes was shown to be a satisfactory, but their depth should be adjusted daily by 0.042 cm after Day 12 of incubation in order to mirror transponder temperature readings. transponder thermistor incubation eggshell temperature air cell
3	Use of First-Principle Numerical Models to Enhance the Understanding of the Operational Analysis of Space-Based Earth Radiation Budget Instruments Priestley, Kory James 19 August 1997 (has links) NASA's Clouds and the Earth's Radiant Energy System (CERES) program is a key component of the Earth Observing System (EOS). The CERES Proto-Flight Model (PFM) instrument is to be launched on NASA's Tropical Rainfall Measuring Mission (TRMM) spacecraft in November, 1997. Each CERES instrument will contain three scanning thermistor bolometer radiometers to monitor the longwave, 5.0 to >100 microns, and shortwave, 0.3 to 5.0 microns, components of the Earth's radiative energy budget. High-level, first-principle dynamic electrothermal models of the CERES radiometric channels have been completed under NASA sponsorship. These first-principle models consist of optical, thermal and electrical modules. Optical characterization of the channels is ensured by Monte-Carlo-based ray-traces. Accurate thermal and electrical characterization is assured by transient finite-difference formulations. This body of research presents the evolution of these models by outlining their development and validation. Validation of the models is accomplished by simulating the ground calibration process of the actual instruments and verifying that the models accurately predict instrument performance. The result of this agreement is a high confidence in the model to predict other aspects of instrument performance. / Ph. D. radiometry thermistor bolometers remote sensing CERES
4	Síntese e caracterização elétrica de materiais com comportamento termistor à base de óxidos de manganês, de níquel e de cobalto / Synthesis and electrical characterization of ceramic thermistors based on manganese, nickel and cobalt oxides Ferreira Junior, Jose Mario 17 December 2007 (has links) Materiais cerâmicos à base de óxidos de manganês, de níquel e de cobalto foram preparados por meio de mistura de óxidos seguida de homogeneização e sinterização controlada em 1250 °C. Os óxidos foram caracterizados por meio das técnicas de difração de raios X, fluorescência de raios X, termogravimetria e determinação de distribuição de tamanho de partículas por espalhamento laser. A caracterização dos corpos sinterizados foi feita por meio de análise por microscopia eletrônica de varredura, difração de raios X e fluorescência de raios X. O comportamento termistor foi estudado por meio de medidas de resistividade elétrica pela técnica dc de duas pontas de prova entre temperatura ambiente e 220 °C. Os principais resultados mostram ser possível a preparação de termistores em ampla faixa de resposta elétrica por meio da variação da composição relativa dos óxidos de manganês, de níquel e de cobalto. / Ceramic tliermistors based on manganese, nickel and cobalt oxides were prepared by mixing these oxides followed by pressing and sintering at 1250 °C range. The oxides were characterized by X-ray diffraction, X-ray fluorescence, thermogravimetry and differential thermal analysis, and by the determination of particle size distribution by laser scattering. After sintering. X-ray diffraction. X-ray fluorescence and scanning electron microscopy analyses were carried out. The thermistor behavior was studied by two-probe dc electrical resistivity measurements in the room temperature-220 °C range. The main results show the possibility of designing thermistors with the required electrical response by suitable choice of the relative concentrations of the precursor oxides. NTC NTC sensor de temperatura temperature sensor termistor thermistor
5	Síntese e caracterização elétrica de materiais com comportamento termistor à base de óxidos de manganês, de níquel e de cobalto / Synthesis and electrical characterization of ceramic thermistors based on manganese, nickel and cobalt oxides Jose Mario Ferreira Junior 17 December 2007 (has links) Materiais cerâmicos à base de óxidos de manganês, de níquel e de cobalto foram preparados por meio de mistura de óxidos seguida de homogeneização e sinterização controlada em 1250 °C. Os óxidos foram caracterizados por meio das técnicas de difração de raios X, fluorescência de raios X, termogravimetria e determinação de distribuição de tamanho de partículas por espalhamento laser. A caracterização dos corpos sinterizados foi feita por meio de análise por microscopia eletrônica de varredura, difração de raios X e fluorescência de raios X. O comportamento termistor foi estudado por meio de medidas de resistividade elétrica pela técnica dc de duas pontas de prova entre temperatura ambiente e 220 °C. Os principais resultados mostram ser possível a preparação de termistores em ampla faixa de resposta elétrica por meio da variação da composição relativa dos óxidos de manganês, de níquel e de cobalto. / Ceramic tliermistors based on manganese, nickel and cobalt oxides were prepared by mixing these oxides followed by pressing and sintering at 1250 °C range. The oxides were characterized by X-ray diffraction, X-ray fluorescence, thermogravimetry and differential thermal analysis, and by the determination of particle size distribution by laser scattering. After sintering. X-ray diffraction. X-ray fluorescence and scanning electron microscopy analyses were carried out. The thermistor behavior was studied by two-probe dc electrical resistivity measurements in the room temperature-220 °C range. The main results show the possibility of designing thermistors with the required electrical response by suitable choice of the relative concentrations of the precursor oxides. NTC sensor de temperatura termistor NTC temperature sensor thermistor
6	Variantes d’oxydes de métaux de transition : relations entre structure, transport et performances bolométriques / Relation between structure, electrical transport and bolometric performance in various transition metal oxides Guillaumont, Marc 18 May 2016 (has links) La détection infrarouge, autrefois réservée aux applications militaires et spatiales, connait depuis une dizaine d’années une mutation importante et s’ouvre de plus en plus vers des marchés "grand public". Cette démocratisation est principalement liée aux développements rapides que connaissent les technologies utilisant des bolomètres "non refroidis", qui profitent de leurs compatibilités avec les filières de la microélectronique.La technologie utilisée au CEA/LETI repose sur l’utilisation d’un matériau thermomètre à base de silicium amorphe (également noté "a-Si"). Ce dernier comporte de nombreux avantages dont, principalement, son excellente compatibilité avec les outils "classiques" de la microélectronique. Cependant, l’intégration d’un matériau thermomètre plus performant que le a-Si est nécessaire pour répondre aux défis à venir.Conscient de l’importance de cette problématique "matériau" le laboratoire CEA/LETI développe depuis plusieurs années des matériaux à base d’oxydes de métaux de transition déposés en couches minces.Cette étude s’appuie sur l’ensemble des variantes d’oxydes de métaux de transition étudié dans ce cadre. Cette palette de matériaux, qui se sont révélés très différents dans leur structure et, corrélativement, les mesures de transport dans chacun de ces types, nous ont permis de relier structure et mécanismes de conduction spécifiques à chacun. Une attention particulière a été portée aux mesures de TCR, ou « Temperature Coefficient of Resistance », (facteur à maximiser) et de bruit en 1/f (source de bruit à minimiser), les deux paramètres de choix pour le matériau thermistor.Des grandes tendances qui pilotent la performance d’un matériau thermistor pour la bolométrie ont pu être déduites de ces investigations. Les travaux présentés dans cette thèse permettent d’évaluer le potentiel de tel ou tel compétiteur avant d’en entreprendre le développement. / InfraRed detection, formerly reserved to defense and spatial applications, is currently undergoing deep changes which open new opportunities. Uncooled microbolometer technologies, compatible with classical semiconductors processes, are now able to produce low cost thermal imagers and this will open the door to customer markets in a close future.The technology developed in the CEA/LETI laboratory use the amorphous silicon (noted "a-Si") as the thermistor material. This material has many advantages, in particular, its excellent compatibility with the classical tools used in microelectronic industry. However, better performance in the thermistor material is still needed to address future applications.To handle this challenge, CEA/LETI laboratory is currently developing thermistors made of transition metal oxides thin films. The study presented hereby is based on various transition metal oxides samples deposited in the CEA/LETI Laboratory.Characterization of the structure and the electronic transport for each of these samples allowed us to put in evidence correlations between microscopic structure and conduction mechanisms. Two main figures of merit impacting the overall material performance were investigated : the TCR, Temperature Coefficient of Resistance (which must be maximized) and the 1/f noise (which must be minimized).Finally we conclude this work by highlighting majors outlines governing the performance of a thermistor. Films minces Bolomètre Thermistor Bruit en 1/f Oxydes de métaux de transition TCR Thin films Bolometer Thermistor 1/f noise Transition Metal Oxides Tcr 620
7	Development of a thermometric sensor for fructosyl valine and fructose using molecularly imprinted polymers as a recognition element Rajkumar, Rajagopal January 2007 (has links) Nature has always served as a model for mimicking and inspiration to humans in their efforts to improve their life. Researchers have been inspired by nature to produce biomimetic materials with molecular recognition properties by design rather than evolution. Molecular imprinting is one way to prepare such materials. Such smart materials with new functionalities are at the forefront of the development of a relevant number of ongoing and perspective applications ranging from consumer to space industry. Molecularly imprinted polymers were developed by mimicking the natural enzymes or antibodies that serve as host for binding target molecules. These imprints were used as a recognition element to substitute natural biomolecules in biosensors. The concept behind molecular imprinting is to mold a material (with the desired chemical properties) around individual molecules. Upon removal of the molecular templates, one is left with regions in the molded material that fit the shape of the template molecules. Thus, molecular imprinting results in materials that can selectively bind to molecules of interest. Imprinted materials resulted in applications ranging from chemical separation to bioanalytics. In this work attempts were made particularly in the development of molecularly imprinted polymer based thermometric sensors. The main effort was focused towards the development of an covalently imprinted polymer that would be able to selectively bind fructosyl valine (Fru-Val), the N-terminal constituent of hemoglobin A1c ß-chains. Taking into account the known advantages of imprinted polymers, e.g. robustness, thermal and chemical stability, imprinted materials were successfully used as a recognition element in the sensor. One of the serious problems associated with the development of MIP sensors and which lies in the absence of a generic procedure for the transformation of the polymer-template binding event into a detectable signal has been addressed by developing the "thermometric" approach. In general the developed approach gives a new insight on MIP/Analyte interactions. / In dem Bestreben, ihr eigenes Leben zu verbessern, haben die Menschen stets die Natur nachgeahmt und sich von ihr inspirieren lassen. Die Natur hat Forscher zur Erzeugung smarter biomimetischer Stoffe mit molekularen Erkennungseigenschaften nach dem Vorbild der Evolution inspiriert. Eine der Methoden zur Herstellung solcher Substanzen ist das molekulare Prägen. Smarte Materialien mit neuen Eigenschaften stehen an der Spitze der Entwicklung potentieller Anwendungen vom Verbraucher bis hin zur Raumfahrtindustrie. Durch Nachahmung von natürlichen Enzymen oder Antikörpern wurden molekular geprägte Polymere (MIPs) entwickelt, die der Bindung von Zielmolekülen dienen. Diese geprägten Polymere (imprints) wurden anstelle von Biomolekülen als Erkennungselemente in Biosensoren eingesetzt. Das Konzept, das dem molekularen Prägen zugrunde liegt, besteht in der Formung eines Polymers (mit den entsprechenden chemischen Eigenschaften) um einzelne Zielmoleküle herum. Nach Entfernen dieser molekularen Template bleiben Abdrücke im Polymer übrig, die der Form der Templatmoleküle entsprechen. Mit Hilfe des molekularen Prägens kann man also Stoffe herstellen, die sich selektiv an bestimmte Moleküle binden können. Geprägte Polymere finden breite Anwendung, etwa in chemischen Aufreinigungsprozessen und der Bioanalytik. Hauptanliegen der vorliegenden Arbeit war es, thermometrische Sensoren auf der Basis molekular geprägter Polymere zu entwickeln. Die Anstrengungen richteten sich vor allem auf die Entwicklung eines kovalent geprägten Polymers, das in der Lage ist, selektiv Fruktosyl-Valin (Fru-Val), den N-terminalen Bereich von Hämoglobin A1c, zu binden. Aufgrund der bekannten Vorzüge geprägter Polymere – z. B. Robustheit und thermische und chemische Stabilität – wurden geprägte Polymere erfolgreich als Erkennungselement im Sensor angewendet. Eine der größten Herausforderungen bei der Entwicklung von MIP-Sensoren, das Fehlen eines generischen Verfahrens zur Umwandlung der Bindungsreaktion in ein nachweisbares Signal, wurde mit der Entwicklung der thermometrischen Methode in Angriff genommen. Diese Methode führt allgemein zu neuen Einsichten in die Interaktionen zwischen MIP und Analyt. Covalent imprinting Fructosyl valine MIP sensor Fructose Glycated hemoglobin HbA1c Thermistor Biosensor Calorimetry Chemistry and allied sciences
8	Síntese e caracterização elétrica de materiais com comportamento termistor à base de óxidos de manganês, de níquel de cobalto FERREIRA JUNIOR, JOSE M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:53:43Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:43Z (GMT). No. of bitstreams: 0 / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP THERMISTOR CERAMICS MANGANESE OXIDES NICKEL OXIDES COBALT OXIDES PRESSING SINTERING TEMPERATURE COEFFICIENT
9	Síntese e caracterização elétrica de materiais com comportamento termistor à base de óxidos de manganês, de níquel de cobalto FERREIRA JUNIOR, JOSE M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:53:43Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:43Z (GMT). No. of bitstreams: 0 / Materiais cerâmicos à base de óxidos de manganês, de níquel e de cobalto foram preparados por meio de mistura de óxidos seguida de homogeneização e sinterização controlada em 1250 °C. Os óxidos foram caracterizados por meio das técnicas de difração de raios X, fluorescência de raios X, termogravimetria e determinação de distribuição de tamanho de partículas por espalhamento laser. A caracterização dos corpos sinterizados foi feita por meio de análise por microscopia eletrônica de varredura, difração de raios X e fluorescência de raios X. O comportamento termistor foi estudado por meio de medidas de resistividade elétrica pela técnica dc de duas pontas de prova entre temperatura ambiente e 220 °C. Os principais resultados mostram ser possível a preparação de termistores em ampla faixa de resposta elétrica por meio da variação da composição relativa dos óxidos de manganês, de níquel e de cobalto. / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP thermistor ceramics manganese oxides nickel oxides cobalt oxides pressing sintering temperature coefficient
10	Enhanced Percolative Properties from Controlled Filler Dispersion in Conducting Polymer Composites (CPCs) Balogun, Yunusa A. 02 November 2009 (has links) No description available. Materials Science Conducting polymer composites (CPCs) Mechanical properties Percolation Dispersion Sensor Piezoresistive Thermistor

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