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Microscale optical thermometry techniques for measuring liquid phase and wall surface temperaturesKim, Myeongsub 22 December 2010 (has links)
Thermal management challenges for microelectronics are a major issue for future integrated circuits, thanks to the continued exponential growth in component density described by Moore¡¯s Law. Current projections from the International Technology Roadmap for Semiconductors predict that local heat fluxes will exceed 1 kW/cm2 within a decade. There is thus an urgent need to develop new compact, high heat flux forced-liquid and evaporative cooling technologies.
Thermometry techniques that can measure temperature fields with micron-scale resolution without disturbing the flow of coolant would be valuable in developing and evaluating new thermal management technologies. Specifically, the ability to estimate local convective heat transfer coefficients, which are proportional to the difference between the bulk coolant and wall surface temperatures, would be useful in developing computationally efficient reduced-order models of thermal transport in microscale heat exchangers.
The objective of this doctoral thesis is therefore to develop and evaluate non-intrusive optical thermometry techniques to measure wall surface and bulk liquid temperatures with O(1-10 micronmeter) spatial resolution. Intensity-based fluorescence thermometry (FT), where the temperature distribution of an aqueous fluorescent dye solution is estimated from variations in the fluorescent emission intensity, was used to measure temperatures in steady Poiseuille flow at Reynolds numbers less than 10. The flow was driven through 1 mm square channels heated on one side to create temperature gradients exceeding 8 ¡ÆC/mm along both dimensions of the channel cross-section. In the evanescent-wave fluorescence thermometry (EFT) experiments, a solution of fluorescein was illuminated by evanescent waves to estimate the solution temperature within about 300 nm of the wall. In the dual-tracer FT (DFT) studies, a solution of two fluorophores with opposite temperature sensitivities was volumetrically illuminated over most of the `cross-section of the channel to determine solution temperatures in the bulk flow. The accuracy of both types of FT is determined by comparing the temperature data with numerical predictions obtained with commercial computational fluid dynamics software. The results indicate that EFT can measure wall surface temperatures with an average accuracy of about 0.3 ¡ÆC at a spatial resolution of 10 micronmeter, and that DFT can measure bulk water temperature fields with an average accuracy of about 0.3 ¡ÆC at a spatial resolution of 50 micronmeter in the image plane. The results also suggest that the spatial resolution of the DFT data along the optical axis (i.e., normal to the image plane) is at least an order of magnitude greater than the depth of focus of the imaging system.
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The role of the low-density lipoprotein receptor in transport and metabolism of LDL through the wall of normal rabbit aorta in vivo. Estimation of model parameters from optimally designed dual-tracer experimentsMorris, Evan Daniel January 1991 (has links)
No description available.
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Dual-tracer molecular neuroimaging : methodological improvements and biomedical applicationsFigueiras, Francisca Patuleia, 1984- 26 June 2012 (has links)
Positron emission tomography (PET) is a functional imaging method that allows studying physiological, biochemical or pharmacological processes in vivo. PET is being used in both research and clinical practice. In the brain, it has been used to investigate metabolism, receptor binding, and alterations in regional blood flow. This thesis involves both preclinical and clinical dual-tracer PET imaging studies of different neurological disorders. In this way, different radiotracers were used along the projects. The first project focused on the implementation and in vivo validation of the simultaneous dual-tracer PET imaging technique on the rat brain and its applications in the study of cerebral ischemia. In particular, in this project two biological processes were studied at the same time: cerebral blood flow and cerebral glucose metabolism. The second project consisted in a clinical correlation study of the GABAergic and serotonin systems in a population with Essential Tremor (ET), the most commonly movement disorders. / La tomografia per emissió de positrons (PET) és un mètode d'imatge funcional que permet l'estudi in vivo de processos fisiològics, bioquímics i farmacològics. La PET s'utilitza tant en la pràctica clínica com en la recerca. Al cervell, s'ha utilitzat per investigar el metabolisme, la neurotransmissió, i les alteracions en el flux sanguini regional. Aquesta tesi implica estudis preclínics i clínics de la tècnica PET en diversos trastorns neurològics. D'aquesta manera, es van utilitzar diferents radiotraçadors al llarg dels projectes. El primer projecte es va centrar en la implementació i validació in vivo de la tècnica PET del doble-marcador simultani en el cervell de rata i les seves aplicacions en l'estudi de la isquèmia cerebral. En particular, en aquest projecte es van estudiar en el mateix moment dos processos biològics: el flux sanguini cerebral i el metabolisme cerebral de la glucosa. El segon projecte va consistir en un estudi clínic de correlació dels sistemes GABAèrgic i serotoninèrgic en una població amb tremolor
essencial (TE), el trastorn del moviment més comú
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