976 resultados para Absorption rate
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Further advances in magnetic hyperthermia might be limited by biological constraints, such as using sufficiently low frequencies and low field amplitudes to inhibit harmful eddy currents inside the patient's body. These incite the need to optimize the heating efficiency of the nanoparticles, referred to as the specific absorption rate (SAR). Among the several properties currently under research, one of particular importance is the transition from the linear to the non-linear regime that takes place as the field amplitude is increased, an aspect where the magnetic anisotropy is expected to play a fundamental role. In this paper we investigate the heating properties of cobalt ferrite and maghemite nanoparticles under the influence of a 500 kHz sinusoidal magnetic field with varying amplitude, up to 134 Oe. The particles were characterized by TEM, XRD, FMR and VSM, from which most relevant morphological, structural and magnetic properties were inferred. Both materials have similar size distributions and saturation magnetization, but strikingly different magnetic anisotropies. From magnetic hyperthermia experiments we found that, while at low fields maghemite is the best nanomaterial for hyperthermia applications, above a critical field, close to the transition from the linear to the non-linear regime, cobalt ferrite becomes more efficient. The results were also analyzed with respect to the energy conversion efficiency and compared with dynamic hysteresis simulations. Additional analysis with nickel, zinc and copper-ferrite nanoparticles of similar sizes confirmed the importance of the magnetic anisotropy and the damping factor. Further, the analysis of the characterization parameters suggested core-shell nanostructures, probably due to a surface passivation process during the nanoparticle synthesis. Finally, we discussed the effect of particle-particle interactions and its consequences, in particular regarding discrepancies between estimated parameters and expected theoretical predictions. Copyright 2012 Author(s). This article is distributed under a Creative Commons Attribution 3.0 Unported License. [http://dx.doi. org/10.1063/1.4739533]
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Considerable effort has been made in recent years to optimize materials properties for magnetic hyperthermia applications. However, due to the complexity of the problem, several aspects pertaining to the combined influence of the different parameters involved still remain unclear. In this paper, we discuss in detail the role of the magnetic anisotropy on the specific absorption rate of cobalt-ferrite nanoparticles with diameters ranging from 3 to 14 nm. The structural characterization was carried out using x-ray diffraction and Rietveld analysis and all relevant magnetic parameters were extracted from vibrating sample magnetometry. Hyperthermia investigations were performed at 500 kHz with a sinusoidal magnetic field amplitude of up to 68 Oe. The specific absorption rate was investigated as a function of the coercive field, saturation magnetization, particle size, and magnetic anisotropy. The experimental results were also compared with theoretical predictions from the linear response theory and dynamic hysteresis simulations, where exceptional agreement was found in both cases. Our results show that the specific absorption rate has a narrow and pronounced maxima for intermediate anisotropy values. This not only highlights the importance of this parameter but also shows that in order to obtain optimum efficiency in hyperthermia applications, it is necessary to carefully tailor the materials properties during the synthesis process. (C) 2012 American Institute of Physics. [http://dx.doi.org/10.1063/1.4729271]
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Magnetic resonance imaging (MRI) is today precluded to patients bearing active implantable medical devices AIMDs). The great advantages related to this diagnostic modality, together with the increasing number of people benefiting from implantable devices, in particular pacemakers(PM)and carioverter/defibrillators (ICD), is prompting the scientific community the study the possibility to extend MRI also to implanted patients. The MRI induced specific absorption rate (SAR) and the consequent heating of biological tissues is one of the major concerns that makes patients bearing metallic structures contraindicated for MRI scans. To date, both in-vivo and in-vitro studies have demonstrated the potentially dangerous temperature increase caused by the radiofrequency (RF) field generated during MRI procedures in the tissues surrounding thin metallic implants. On the other side, the technical evolution of MRI scanners and of AIMDs together with published data on the lack of adverse events have reopened the interest in this field and suggest that, under given conditions, MRI can be safely performed also in implanted patients. With a better understanding of the hazards of performing MRI scans on implanted patients as well as the development of MRI safe devices, we may soon enter an era where the ability of this imaging modality may be more widely used to assist in the appropriate diagnosis of patients with devices. In this study both experimental measures and numerical analysis were performed. Aim of the study is to systematically investigate the effects of the MRI RF filed on implantable devices and to identify the elements that play a major role in the induced heating. Furthermore, we aimed at developing a realistic numerical model able to simulate the interactions between an RF coil for MRI and biological tissues implanted with a PM, and to predict the induced SAR as a function of the particular path of the PM lead. The methods developed and validated during the PhD program led to the design of an experimental framework for the accurate measure of PM lead heating induced by MRI systems. In addition, numerical models based on Finite-Differences Time-Domain (FDTD) simulations were validated to obtain a general tool for investigating the large number of parameters and factors involved in this complex phenomenon. The results obtained demonstrated that the MRI induced heating on metallic implants is a real risk that represents a contraindication in extending MRI scans also to patient bearing a PM, an ICD, or other thin metallic objects. On the other side, both experimental data and numerical results show that, under particular conditions, MRI procedures might be consider reasonably safe also for an implanted patient. The complexity and the large number of variables involved, make difficult to define a unique set of such conditions: when the benefits of a MRI investigation cannot be obtained using other imaging techniques, the possibility to perform the scan should not be immediately excluded, but some considerations are always needed.
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In dieser Arbeit wird zum Erreichen hoher Kernspinpolarisationen die Methode des metastabilen optischen Pumpens benutzt. Das Verfahren beruht auf dem "Ubertrag des Drehimpulses absorbierter Photonen auf das hierbei angeregte Valenzelektron, welches durch Hyperfeinkopplung den Drehimpuls weiter auf den $^3$He-Kern transferiert. Da der Polarisationsprozess nur bei Dr"ucken von ca. 1~mbar effizient funktioniert, f"ur die meisten Anwendungen aber polarisiertes $^3$He bei einem Druck von $geq 1$~bar ben"otigt wird, muss das Gas nach der Aufpolarisation komprimiert werden. In unserer Arbeitsgruppe steht eine Maschine ("`Polarisator"') zur Verf"ugung, die das Gas polarisiert und anschlie"send komprimiert. Ziel dieser Dissertation ist, einerseits die Leistungsf"ahigkeit des Polarisators bez"uglich Maximalpolarisation und Gasfluss zu verbessern und andererseits den metastabilen Pumpprozess selbst genauer zu untersuchen.\ noindent Durch die Verwendung neuer Laser auf Basis der Fasertechnologie sowie einer systematischen Optimierung der optischen Komponenten konnten in abgeschlossenen Pumpzellen Rekord-Polarisationsgrade von $91pm 2$% erzielt werden.\ noindent Mit der Implementierung neuartiger Optiken und Laser am Mainzer Polarisator konnte die Leistungscharakteristik entscheidend verbessert werden. So wurde die erreichbare Polarisation bei identischer Produktionsrate um 20 Prozentpunkte gesteigert. Zurzeit sind maximale Polarisationsgrade von mehr als 75% im optischen Pumpvolumen erreichbar. Eine am Mainzer Triga-Reaktor durchgef"uhrte Polarisationsbestimmung ergab einen Wert von $72.7pm 0.7$%. Dies veranschaulicht die geringen Polarisationsverluste infolge der Gaskompression, des Transports und einer Lagerung "uber mehrere Stunden.\ noindent Zur Dynamik der geschwindigkeitsver"andernden St"o"se sowie zur Bestimmung der mittleren Photonen-Absorptionsrate wurde ein Modell entwickelt, welches auch experimentell best"atigt wurde. Damit konnte erstmalig das gemessene Absorptionsverhalten einer spektral schmalbandigen Laserdiode korrekt beschrieben werden.\ noindent Zudem stimmen die an so genannten abgeschlossenen Pumpzellen gemessenen extrem hohen Polarisationswerte mit theoretischen Vorhersagen "uberein, sofern der Druck im optischen Pumpvolumen geringer als 1~mbar ist und das $^3$He nicht durch Fremdgase verunreinigt ist. Bei derartigen Pumpzellen ist die gemessene Abh"angigkeit der Polarisation von Laserleistung, Metastabilendichte und falscher Zirkularkomponente mit der Theorie kompatibel.\
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The goal of this thesis is the application of an opto-electronic numerical simulation to heterojunction silicon solar cells featuring an all back contact architecture (Interdigitated Back Contact Hetero-Junction IBC-HJ). The studied structure exhibits both metal contacts, emitter and base, at the back surface of the cell with the objective to reduce the optical losses due to the shadowing by front contact of conventional photovoltaic devices. Overall, IBC-HJ are promising low-cost alternatives to monocrystalline wafer-based solar cells featuring front and back contact schemes, in fact, for IBC-HJ the high concentration doping diffusions are replaced by low-temperature deposition processes of thin amorphous silicon layers. Furthermore, another advantage of IBC solar cells with reference to conventional architectures is the possibility to enable a low-cost assembling of photovoltaic modules, being all contacts on the same side. A preliminary extensive literature survey has been helpful to highlight the specific critical aspects of IBC-HJ solar cells as well as the state-of-the-art of their modeling, processing and performance of practical devices. In order to perform the analysis of IBC-HJ devices, a two-dimensional (2-D) numerical simulation flow has been set up. A commercial device simulator based on finite-difference method to solve numerically the whole set of equations governing the electrical transport in semiconductor materials (Sentuarus Device by Synopsys) has been adopted. The first activity carried out during this work has been the definition of a 2-D geometry corresponding to the simulation domain and the specification of the electrical and optical properties of materials. In order to calculate the main figures of merit of the investigated solar cells, the spatially resolved photon absorption rate map has been calculated by means of an optical simulator. Optical simulations have been performed by using two different methods depending upon the geometrical features of the front interface of the solar cell: the transfer matrix method (TMM) and the raytracing (RT). The first method allows to model light prop-agation by plane waves within one-dimensional spatial domains under the assumption of devices exhibiting stacks of parallel layers with planar interfaces. In addition, TMM is suitable for the simulation of thin multi-layer anti reflection coating layers for the reduction of the amount of reflected light at the front interface. Raytracing is required for three-dimensional optical simulations of upright pyramidal textured surfaces which are widely adopted to significantly reduce the reflection at the front surface. The optical generation profiles are interpolated onto the electrical grid adopted by the device simulator which solves the carriers transport equations coupled with Poisson and continuity equations in a self-consistent way. The main figures of merit are calculated by means of a postprocessing of the output data from device simulation. After the validation of the simulation methodology by means of comparison of the simulation result with literature data, the ultimate efficiency of the IBC-HJ architecture has been calculated. By accounting for all optical losses, IBC-HJ solar cells result in a theoretical maximum efficiency above 23.5% (without texturing at front interface) higher than that of both standard homojunction crystalline silicon (Homogeneous Emitter HE) and front contact heterojuction (Heterojunction with Intrinsic Thin layer HIT) solar cells. However it is clear that the criticalities of this structure are mainly due to the defects density and to the poor carriers transport mobility in the amorphous silicon layers. Lastly, the influence of the most critical geometrical and physical parameters on the main figures of merit have been investigated by applying the numerical simulation tool set-up during the first part of the present thesis. Simulations have highlighted that carrier mobility and defects level in amorphous silicon may lead to a potentially significant reduction of the conversion efficiency.
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A 7 anni dall’avvio dell’ attuazione della Politica di Coesione dell’Unione Europea 2007- 2013, l’Italia ha il tasso di assorbimento dei Fondi Strutturali più basso d’Europa, insieme alla Romania, e rischia di subire un disimpegno delle risorse, che rappresenterebbe un gravissimo fallimento economico e politico. Il contributo di questo lavoro al dibattito sull’uso dei Fondi strutturali in Italia è duplice. Da una parte, per la prima volta, si propone uno studio sistematico delle criticità nella gestione del periodo 2007-2013, che hanno causato l’attuale ritardo nella spesa. Dall’altra, si affronta il problema italiano sia da una prospettiva europea sia nella sua dimensione nazionale, indagando le differenze regionali nella performance di spesa e proponendo un’analisi basata su tre dimensioni principali delle criticità: finanziaria, politica, amministrativa. L’approccio della ricerca consiste nella convergenza di dati quantitativi e qualitativi, raccolti durante un periodo di ricerca a Bruxelles e presso le Autorità di Gestione dei Programmi Operativi cofinanziati dal FESR. La questione dell’assorbimento finanziario e del ritardo nell’attuazione è stata indagata da tre punti di vista. Una prospettiva “storica”, che ha raccontato il ritardo strutturale nell’utilizzo dei Fondi Strutturali in Italia e che ha chiarito come il problema italiano, prima dell’attuale ciclo 2007-2013, sia stato non di quantità, ma di qualità della spesa. La seconda prospettiva è stata di respiro europeo, ed è servita a indagare le cause del basso livello di assorbimento finanziario dell’Italia suggerendo alcuni elementi utili a comprendere le ragioni di un simile divario con gli altri Paesi. Infine, la prospettiva nazionale e regionale ha svelato l’esistenza di un mix complesso, e micidiale, che ha letteralmente paralizzato la spesa italiana dei Fondi. Un mix di fattori finanziari, politici e amministrativi che non ha avuto eguali negli altri Paesi, e che si è concentrato soprattutto, ma non esclusivamente, nelle regioni dell’Obiettivo Convergenza.
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Negli ultimi anni, la popolazione è stata esposta a vari tipi di campi elettromagnetici generati da strumentazioni elettroniche e dispositivi di telecomunicazione. In questa tesi, si valutano SAR ed effetti termici prodotti da tre antenne patch a radiofrequenza sia su Cheratinociti (cellule dell'epidermide) in vitro che sull'epidermide umana in vivo caratterizzata in un modello multistrato contenente tessuti biologici. Le antenne progettate hanno frequenze di risonanza di 1.8 e 2.4 GHz, tipiche delle bande utilizzate rispettivamente da LTE (Long Term Evolution, la più recente evoluzione degli standard di telefonia mobile cellulare) e dalle moderne tecnologie Wi-Fi, e di 60 GHz, propria delle cosiddette onde millimetriche. Vengono valutati quindi il SAR (Specific Absorption Rate, grandezza che fornisce una misura dell'assorbimento delle onde da parte dei tessuti biologici) e le variazioni di temperatura prodotte dall'applicazione del campo elettromagnetico: ciò viene realizzato attraverso l'equazione del calore stazionaria e, nel caso dell'epidermide in vivo, con la Bioheat Equation, che contempla anche la circolazione sanguigna ed il calore generato nei processi metabolici che avvengono nell'organismo.
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The novel approach to carbon capture and storage (CCS) described in this dissertation is a significant departure from the conventional approach to CCS. The novel approach uses a sodium carbonate solution to first capture CO2 from post combustion flue gas streams. The captured CO2 is then reacted with an alkaline industrial waste material, at ambient conditions, to regenerate the carbonate solution and permanently store the CO2 in the form of an added value carbonate mineral. Conventional CCS makes use of a hazardous amine solution for CO2 capture, a costly thermal regeneration stage, and the underground storage of supercritical CO2. The objective of the present dissertation was to examine each individual stage (capture and storage) of the proposed approach to CCS. Study of the capture stage found that a 2% w/w sodium carbonate solution was optimal for CO2 absorption in the present system. The 2% solution yielded the best tradeoff between the CO2 absorption rate and the CO2 absorption capacity of the solutions tested. Examination of CO2 absorption in the presence of flue gas impurities (NOx and SOx) found that carbonate solutions possess a significant advantage over amine solutions, that they could be used for multi-pollutant capture. All the NOx and SOx fed to the carbonate solution was able to be captured. Optimization studies found that it was possible to increase the absorption rate of CO2 into the carbonate solution by adding a surfactant to the solution to chemically alter the gas bubble size. The absorption rate of CO2 was increased by as much as 14%. Three coal combustion fly ash materials were chosen as the alkaline industrial waste materials to study the storage CO2 and regeneration the absorbent. X-ray diffraction analysis on reacted fly ash samples confirmed that the captured CO2 reacts with the fly ash materials to form a carbonate mineral, specifically calcite. Studies found that after a five day reaction time, 75% utilization of the waste material for CO2 storage could be achieved, while regenerating the absorbent. The regenerated absorbent exhibited a nearly identical CO2 absorption capacity and CO2 absorption rate as a fresh Na2CO3 solution.
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Physiological responses (ingestion rate, absorption rate and efficiency, respiration, rate, excretion rate) and scope for growth of a subtidal scavenging gastropod Nassarius conoidalis under the combined effects of ocean acidification (pCO2 levels: 380, 950, 1250 µatm) and temperature (15, 30 °C) were investigated for 31 days. There was a significant reduction in all the physiological rates and scope for growth following short-term exposure (1-3 days) to elevated pCO2 except absorption efficiency at 15 °C and 30 °C, and respiration rate and excretion rate at 15 °C. The percentage change in the physiological rates ranged from 0% to 90% at 15 °C and from 0% to 73% at 30 °C when pCO2 was increased from 380 µatm to 1250 µatm. The effect of pCO2 on the physiological rates was enhanced at high temperature for ingestion, absorption, respiration and excretion. When the exposure period was extended to 31 days, the effect of pCO2 was significant on the ingestion rate only. All the physiological rates remained unchanged when temperature increased from 24 °C to 30 °C but the rates at 15 °C were significantly lower, irrespective of the duration of exposure. Our data suggested that a medium-term exposure to ocean acidification has no effect on the energetics of N. conoidalis. Nevertheless, the situation may be complicated by a longer term of exposure and/or a reduction in salinity in a warming world.
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This study evaluated the impact of medium-term exposure to elevated pCO2 levels (750-1200 ppm) on the physiological processes of juvenile Mytilus chilensis mussels over a period of 70 d in a mesocosm system. Three equilibration tanks filled with filtered seawater were adjusted to three pCO2 levels: 380 (control), 750 and 1200 ppm by bubbling air or an air-CO2 mixture through the water. For the control, atmospheric air (with aprox. 380 ppm CO2) was bubbled into the tank; for the 750 and 1200 ppm treatments, dry air and pure CO2 were blended to each target concentration using mass flow controllers for air and CO2. No impact on feeding activity was observed at the beginning of the experiment, but a significant reduction in clearance rate was observed after 35 d of exposure to highly acidified seawater. Absorption rate and absorption efficiency were reduced at high pCO2 levels. In addition, oxygen uptake fell significantly under these conditions, indicating a metabolic depression. These physiological responses of the mussels resulted in a significant reduction of energy available for growth (scope for growth) with important consequences for the aquaculture of this species during medium-term exposure to acid conditions. The results of this study clearly indicate that high pCO2 levels in the seawater have a negative effect on the health of M. chilensis. Therefore, the predicted acidification of seawater associated with global climate change could be harmful to this ecologically and commercially important mussel.
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In order to establish a rational nitrogen (N) fertilisation and reduce groundwater contamination, a clearer understanding of the N distribution through the growing season and its dynamics inside the plant is crucial. In two successive years, a melon crop (Cucumis melo L. cv. Sancho) was grown under field conditions to determine the uptake of N fertiliser, applied by means of fertigation at different stages of plant growth, and to follow the translocation of N in the plant using 15N-labelled N. In 2006, two experiments were carried out. In the first experiment, labelled 15N fertiliser was supplied at the female-bloom stage and in the second, at the end of fruit ripening. Labelled 15N fertiliser was made from 15NH415NO3 (10 at.% 15N) and 9.6 kg N ha−1 were applied in each experiment over 6 days (1.6 kg N ha−1 d−1). In 2007, the 15N treatment consisted of applying 20.4 kg N ha−1 as 15NH415NO3 (10 at.% 15N) in the middle of fruit growth, over 6 days (3.4 kg N ha−1 d−1). In addition, 93 and 95 kg N ha−1 were supplied daily by fertigation as ammonium nitrate in 2006 and 2007, respectively. The results obtained in 2006 suggest that the uptake of N derived from labelled fertiliser by the above-ground parts of the plants was not affected by the time of fertiliser application. At the female-flowering and fruit-ripening stages, the N content derived from 15N-labelled fertiliser was close to 0.435 g m−2 (about 45% of the N applied), while in the middle of fruit growth it was 1.45 g m−2 (71% of the N applied). The N application time affected the amount of N derived from labelled fertiliser that was translocated to the fruits. When the N was supplied later, the N translocation was lower, ranging between 54% at female flowering and 32% at the end of fruit ripening. Approximately 85% of the N translocated came from the leaf when the N was applied at female flowering or in the middle of fruit growth. This value decreased to 72% when the 15N application was at the end of fruit ripening. The ammonium nitrate became available to the plant between 2 and 2.5 weeks after its application. Although the leaf N uptake varied during the crop cycle, the N absorption rate in the whole plant was linear, suggesting that the melon crop could be fertilised with constant daily N amounts until 2–3 weeks before the last harvest.
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El proyecto trata del estudio de la tasa de absorción específica (SAR). En él se estudia la SAR que desprenden distintos dispositivos de comunicaciones inalámbricos. Se ha llevado a cabo en las instalaciones de la SETSI, en el laboratorio de radiofrecuencia situado en El Casar, Guadalajara, que pertenece al Ministerio de Industria Comercio y Turismo. La SAR es una relación entre la energía electromagnética acumulada en una masa de un material o tejido concreto. Por tanto, lo primero es definir la SAR, en la que se exponen sus parámetros. Además, se recogen los límites de exposición fijados por las normas internacionales IEC 62209-1 e IEC 62209-2 en relación a SAR. Posteriormente, acorde con las normas, se realiza una definición detallada de un banco de medidas de SAR, en donde se explica cada uno de los componentes del banco de manera detallada así como los sistemas que intervienen previamente a la realización de la medida, tipos de los sistemas para realizar las verificaciones pertinentes, y también las incertidumbres de ciertos parámetros. También se realiza un proceso completo de medida de SAR en el laboratorio de la SETSI, donde se realizan las comprobaciones necesarias para la realización de una serie de medidas sobre dispositivos de comunicaciones móviles. Éstas medidas se realizan primero sobre un teléfono móvil en las frecuencias de GSM, UMTS y WIFI, en las configuraciones estipuladas por la norma; “tocando” e “inclinada 15°” comparando los valores obtenidos con los límites marcados por las normas internacionales. Por último, en este apartado se realizan ciertas medidas con otras configuraciones que no están recogidas en la norma para intentar obtener los máximos valores de SAR posibles. Después se realiza una comparación entre dos dispositivos tipo “tablet”, para ello se realizan medidas en la banda de WIFI y se comentan los resultados obtenidos, relacionado con el diseño de cada uno de ellos. Posteriormente se realiza un presupuesto de un banco de SAR, donde se detallan todos los componentes que intervienen en la realización de las medidas de SAR, pero no se incluyen en él, los costes de mantenimiento o los costes relacionados con su uso. Por último se explican las conclusiones finales desprendidas de la realización de este proyecto de fin de carrera así como la bibliografía utilizada. ABTRACT This project consists on the study of the specific absorption rate (SAR).It studies the different SAR of several wireless communications devices. It has been held in SETSI’S facilities, in its radio frecuency laboratory located in El Casar, Guadalajara, which belongs to the Ministy of Industry, Trade and Tourism. The SAR is a ratio between the electromagnetic energy accumulated in a mass of concrete material or tissue. Therefore, the SAR is defined first, which sets its parameters. Also lists the exposure limits set by international standards IEC 62209-1 and IEC 62209-2 regarding SAR. Subsequently, according to the guidelines, performing a detailed definition of a SAR measures bench, which explains each of the components in detail of the bench and involved systems prior to the realization of the extent and types of systems to perform the necessary checks, and certain parameters uncertainties. Also performed a complete process for SAR in the SETSI laboratory, located in El Casar, Guadalajara, where the necessary checks are made to carry out a serie of measures on mobile communications devices. These will be carried out first on a mobile phone at frequencies of GSM, UMTS and WiFi, in the configurations set by the standard, "touch" and "tilt 15 °" comparing the values obtained with the limits set by international standards. Finally, this section will perform certain actions with other configurations that are not included in the standard to try to get the maximum possible SAR values. Then a comparison is made between two devices, such as "tablet", this will make measurements in the band WIFI and discussed the results, related to the design of each. Subsequently, a budget of a SAR bench, detailing all components involved in SAR measures, but not included in it, maintenance costs or the costs associated with its use. Finally conclusions are explained detached from the realization of this project as well as the bibliography used on it.
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El objetivo del presente Proyecto Fin de Grado es la realización de una comparativa de los resultados obtenidos en las medidas de SAR (tasa de absorción específica) y potencia utilizando la normativa europea CENELEC (basada en la del IEC) y la americana FCC (basada en la del IEEE) para distintos dispositivos móviles duales. En primer lugar se ha realizado el estudio de sus características de potencia y de SAR, viendo la variación que hay con respecto a las distintas normativas y rangos de frecuencias. En algunos casos, aunque funcionan sin problema alguno en las diferentes bandas, la diferencia de niveles de emisiones obtenidos en las diferentes bandas puede ser notable. Como se ha comentado al comienzo, se han utilizado diferentes dispositivos duales y se realizaron en ellos las medidas pertinentes utilizando las diferentes normativas y el procedimiento indicado en cada una de ellas. Para observar las diferencias concretas que pudieran existir al utilizar las diferentes normativas, las medidas se han realizado en todas las bandas de funcionamiento del dispositivo y para cada una de ellas se han aplicado las diferentes normativas. Con esto se pretende evaluar si pudiera existir alguna discrepancia en los dispositivos que tienen el certificado de conformidad para una norma concreta cuando se utiliza en otra banda que no es exactamente la banda de utilización de esa norma. En resumen, se quería comprobar que un dispositivo que está certificado con la norma de una región, por ejemplo Europa (900 y 1800 MHz), también cumple si se utiliza en otra región, por ejemplo América (850 y 1900 MHz). La realización práctica del presente PFG se ha hecho en las instalaciones del Laboratorio de Radiofrecuencia de la Secretaría de Estado de Telecomunicación y para la Sociedad de la Información ubicado en El Casar (Guadalajara). En concreto se utilizó el robot articulado movible DASY4 y el software para su control DASY 52.8, disponible en el “banco de medida de Campos Electromagnéticos (Sala de SAR)”. La duración estimada del presente PFG ha sido aproximadamente de cuatro meses. Para llevar a cabo el presente PFG, se dispuso de todo tipo de material y recursos puestos a disposición por el Ministerio de Industria, Turismo y Comercio en el propio laboratorio, así como de los distintos terminales móviles duales con los que se realizaron las medidas pertinentes. Como bibliografía básica se han utilizado las diferentes normas indicadas anteriormente, es decir la norma europea CENELEC (basada en la del IEC) y la americana FCC (basada en la del IEEE), así como manuales de los equipos implicados en el bando de medida de SAR: analizadores de redes, robot articulado y software de control, así como el resto de dispositivos utilizados en las medidas. ABSTRACT. The goal of this Final Degree Project is to perform a comparison of the results obtained in SAR measurements (specific absorption rate) and power using the European standards CENELEC (based on IEC Regulation) and the American FCC (based on IEEE Regulation) to different mobile dual devices. If first place it was made the study of its power and SAR features, seeing that there is shift with respect to the different standards and frequency ranges. In some cases, although they work without any problem in different bands, the difference in levels of emissions obtained in the different bands can be significant. As mentioned at the beginning, different dual devices were used and relevant measurements were taken from them using the different standards and the procedure in each one of them. To see the specific differences that may exist when using the different standards, the measurements were made in all bands of the device operation and to each one it has been applied in the different standards. This attempted to assess whether there could be some discrepancy in the devices that have the certificate of compliance to a specify standard when used in another band that is not exactly the used band of this standard. To sum up, it was required to verify that a device which is certified to the standard of a region, for example (900 and 1800 MHz), also verifies if it is used in another region, for example America (850 and 1900 MHz). The practical realization of this Final Degree Project was made in the facilities of the Radio Frequency Laboratory of the Ministry of State for Telecommunications and the Information Society located in El Casar (Guadalajara). Specifically, the movable articulated robot DASY4 was used and the control software DASY 52.8, available in the “Measure Electromagnetic Field testbench (SAR room)”. The duration of this Final Degree Project has benn about four months. To carry out the present project, all kinds of materials and resources were provided by the Ministry of Industry, Tourism and Trade in its own laboratory, as well as the different mobile dual terminals with which relevant measurements were made. As basic references the different standards indicated above has been used, that is to say the European standard CENELEC (based on IEC standard) and the American FCC (based on IEEE standard), as well as the equipment manuals involved in the SAR measure testbench: network analyzers, articulated robot and control software, as well as the rest of the devices used in the measurements.
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A finite-difference time-domain (FDTD) thermal model has been developed to compute the temperature elevation in the Sprague Dawley rat due to electromagnetic energy deposition in high-field magnetic resonance imaging (MRI). The field strengths examined ranged from 11.75-23.5 T (corresponding to H-1 resonances of 0.5-1 GHz) and an N-stub birdcage resonator was used to both transmit radio-frequency energy and receive the MRI signals. With an in-plane resolution of 1.95 mm, the inhomogeneous rat phantom forms a segmented model of 12 different tissue types, each having its electrical and thermal parameters assigned. The steady-state temperature distribution was calculated using a Pennes 'bioheat' approach. The numerical algorithm used to calculate the induced temperature distribution has been successfully validated against analytical solutions in the form of simplified spherical models with electrical and thermal properties of rat muscle. As well as assisting with the design of MRI experiments and apparatus, the numerical procedures developed in this study could help in future research and design of tumour-treating hyperthermia applicators to be used on rats in vivo.
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Intestinal chiral inversion of ibuprofen is still lacking direct evidence. In a preliminary experiment, ibuprofen was found to undergo inversion in Caco-2 cells. This investigation was thus conducted to determine the characteristics and influence of some biochemical factors on the chiral inversion of ibuprofen in Caco-2 cells. The effects of substrate concentration (2.5-40 mu g/ml), cell density (0.5-2 x 10(6) cells/ well), content of serum (0-20%), coexistence of S ibuprofen (corresponding doses), sodium azide (10mm), exogenous Coenzyme A (CoA) (0.1 - 0.4 mm),. and palmitic acid (5-25 mu m) on inversion were examined. A stereoselective HPLC method based on the Chromasil-CHI-TBB column was developed for quantitative analysis of the drug in cell culture medium. The inversion ratio (F-i) and elimination rate constant were calculated as the indexes of inversion extent. Inversion of ibuprofen in Caeo-2 cells was found to be both dose and cell density dependent, indicating saturable characteristics. Addition of serum significantly inhibited the inversion, to an extent of 2.7 fold decrease at 20% content. Preexistence of S enantiomer exerted a significant inhibitory effect (p < 0.01 for all tests). Sodium azide decreased the inversion ratio from 0.43 to 0.32 (p < 0.01). Exogenous CoA and palmitic acid significantly promoted the inversion at all tested doses (p < 0.01 for all tests). This research provided strong evidence to the capacity and capability of intestinal chiral inversion. Although long incubation times up to 120 h were required, Caco-2 cells should be a suitable model for chiral inversion research of 2-APAs considering the human-resourced and well-defined characteristics from the present study.
