Microstructure Design And Interfacial Effects On Thermoelectric Properties Of Bi-Sb-Te System

Femi, Olu Emmanuel

06 1900

Climate change is a subject of deep distress in today’s world. Over dependence on hydrocarbon has resulted in serious environmental problems. Rising sea level, global warming and ozone layer depletion are the mainstream of any discuss world over. The collective goal of cutting carbon emission by the year 2020has prompted the search for clean, alternative energy sources. This effort are already yielding good reward as other forms of energy such as solar, wind, nuclear and hydro have received huge investment and renew interest over the past decade. Thermoelectric materials over the past decades have been tipped to replace conventional means of power generations as these materials have the ability to convert heat to electrical energy and vice versa. They are simple, have no moving parts and use no greenhouse gases. But the major drawback of these materials is their low conversion efficiency. Hence there is a need to enhance the efficiency of thermoelectric material to fulfill their undeniable potentials. A parameter called the thermoelectric figure of merit, ZT defines the efficiency of a thermoelectric material. ZT relates three non-mutually exclusive transport properties namely Seebeck coefficient, electrical conductivity and thermal conductivity. Efficient thermoelectric material should possess high Seebeck coefficient, high electrical conductivity and low thermal conductivity. Hence, one of the interesting ideas in the area of thermoelectric research is the concept of designing a bulk material with high density of phonon scattering centers so has to reduce the lattice contribution to thermal conductivity but at the same time have minimum impact oncharge carriers. This is usually achieved by utilizing interphase and grain boundaries which are localized defects to scatter phonons. The volume fraction of the grain/interphase boundaries can be control through phase modification and microstructure design. This thesis is centered on Bi-Sb-Te systems which are the present room temperature state of the earth thermoelectric material. The investigation revolves around developing a new kind of microstructure in the well-studied Bi-Sb-Te system that shows tremendous potential as a means to reduce lattice contribution to thermal conductivity. The idea of having both p and n-type thermoelectric material preferably from the same material was also a motivation in our investigation. The thesis isdivided into six chapters. The first chapter introduces the concept of thermoelectricity i.e. the direct conversion of thermal energy into electricity. The physics involved and contribution of individual to the science of thermoelectricity were enumerated. Efficiency, optimization and material selection for better thermoelectric performance were briefly enumerated. Prospective materials that are currently been investigated for better thermoelectric properties were also mentioned. The structure of the Bi-Sb-Te system which is the focus of this thesis is present in this chapter including doping effect on the thermoelectric performance of the system as well as the various methods present been employed to improve the thermoelectric properties of the system. Finally the chapter enumerates the scope and object of the present thesis. The different experimental procedures adopted in the present thesis arediscussed in chapter 2. The details of different processing routes followed to synthesize flame-melted ingots, flame-melted + low temperature milled (cryo milling) + spark plasma sintering (SPS) alloy and flame-melted + melt spinning + spark plasma sintering (SPS) alloy, are discussed followed by the various structural and functional characterization techniques. The unique advantage of the spark plasma sintering techniques over the conventional sintering method was talked out in detail. The structural characterizations performed on the synthesized alloys include XRD, SEM and whilethe functional characterizations comprised of Hall measurement, Seebeck coefficient, electrical resistivity and thermal conductivity measurements. Thermoelectric properties of selected composition of Bi-Sb-Te synthesized via flame-melting are presented in chapter 3.Detail study of four analyzed compositions namelyBi24Sb20Te56, Bi20Sb12Te69, Bi16Sb5Te79 and Bi29Sb11Te60resulted in four unique microstructure and different volume fraction of primary and secondary phases. The resultant morphologies of the microstructure were observed to have influence the thermoelectric behavior corresponding to each composition. The sole influence of anti-structural defects on the conductivity type and the role of microstructure morphologies and length scale were understood in this chapter. Samples with segregated Te and a solid solution BiSbTe3(eutectic morphology) form an n-type thermoelectric material while samples with only solid solution BiSbTe3 forms a p-type thermoelectric material. Pair of n-type and p-type material was obtained without the introduction of external dopant.The pair shows good compatibility factorsuitable for thermoelectric device. In chapter 4, the thermoelectric properties of four selected composition of Bi-Sb-Te synthesized via low temperature milling plus spark plasma sintering is addressed. The analyzed compositions are as follows Bi24Sb20Te56, Bi18Sb11Te71, Bi17Sb6Te77, and Bi28Sb15Te57 respectively. The effect of low temperature milling combine with the prospect of minimum grain growth of spark plasma sintering on the thermoelectric properties of the selected compositions were determined. Samples with eutectic morphology which would otherwise scatter charge carriers were observed to have the highest carrier mobility as a result of high volume fraction of Te phase which serves as a donor injecting excess electrons into the system. The impact of small grain size was observed on the transport properties of the sample Bi28Sb15Te57 with the highest electrical resistivity, the best Seebeck coefficient and the lowest thermal conductivity. Pair of n-type and p-type material was obtained without the introduction of external doping elements. The pairshows good compatibility factor suitable for segmented thermoelectric device. Chapter 5 narrates the thermoelectric properties of four compositions namely Bi30Sb13Te58, Bi23Sb13Te65, Bi18Sb5Te77 and Bi23Sb20Te58subjected to melt spinning plus spark plasma sintering.High cooling rate obtained during melt spinning process was observed in this chapter to cause a shift of composition which resulted in a microstructure morphology with eutectic colonies that is predominantly Te rich. These Te rich colonies in the sample Bi30Sb13Te58 was observed to change the conductivity type of the sample from an otherwise p-type to n-type while also aiding bipolar conduction which was detrimental to the overall thermoelectric performance of the alloy. Segregated Te in the form of eutectic morphology helps to inject excess electron into the bulk of the sample Bi23Sb13Te65 and Bi18Sb5Te77hereby increases the observed electrical conductivity which by virtue of the microstructure morphology is expected to be low. As a result of the processing routes, all four compositions in this chapter shown-type conductivity. Chapter 6 presents the summary of the important conclusions drawn from this work.

Thermoelectric Materials

Alternative Energy Sources

Semiconductors

Thermoelectricity

Bismuth-Antimony-Tellurium Systems

Thermoelectric Figure of Merit

BiSbTe Thermoelectric Materials

Seebeck Effect

Thermoelectric Nanomaterials

BISbTe Microstructure

Thermal Conductivity

Non-Ferrous Metal Systems

Bi-Sb-Te System

Materials Science

Matériau composite de silice dopée par des nanoparticules magnétiques de ferrite de cobalt : influence de la structuration 3D sur le comportement spectral de l'effet Faraday / Composite material of Silica doped by Cobalt Ferrite magnetic nanoparticles : influence of 3D structure on the spectral behavior of the Faraday effect

Abou Diwan, Elie

24 October 2014

Le laboratoire LT2C utilise depuis quelques années un procédé sol-gel basse température pour développer un matériau magnéto-optique composite parfaitement compatible avec les technologies d’optique intégrée sur verre. Néanmoins, la qualité actuelle du matériau ne permet pas son utilisation dans l’intégration des composants à effets non-réciproques. Dans le but d’exalter les effets magnéto-optiques et le facteur de mérite du matériau, le laboratoire LT2C s’est orienté vers sa structuration 3D en adaptant une approche basée sur les opales. Cette dernière consiste à fabriquer des opales directes à partir de l’auto-arrangement de microbilles de polystyrène sur un substrat de verre. Les opales sont ensuite infiltrées par une solution sol-gel dopée par des nanoparticules magnétiques de ferrite de cobalt. Après traitement thermique, le polystyrène est dissout dans l’acétate d’éthyle pour obtenir une structure 3D formée de trous d’air dans une matrice de silice dopée. Dans ce cadre, l’objectif des travaux de cette thèse consiste tout d’abord à optimiser au mieux la procédure d’élaboration des opales afin d’améliorer leur qualité structurelle et magnéto-optique. Ensuite, il consiste à réaliser une étude systématique des effets magnéto-optiques dans ces structures 3D pour investiguer le comportement spectral de l’effet Faraday, et ainsi qualifier les modifications apportées au facteur de mérite. Une analyse des images MEB et une caractérisation optique montrent que notre méthode d’élaboration conduit à la fabrication d’opales de bonne qualité structurelle et optique. Les mesures de rotation et d'ellipticité Faraday en fonction du champ magnétique appliqué présentent des cycles d’hystérésis, et mettent en évidence un effet non-réciproque, ce qui surligne le caractère magnéto-optique des opales inverses dopées. Une étude spectrale systématique des effets magnéto-optiques dans ces structures 3D montre deux pics et une atténuation de rotation et d’ellipticité Faraday, respectivement en bords et au centre de la BIP. Cependant, ces modifications spectrales significatives ne conduisent pas à une exaltation de la valeur du facteur de mérite. Cela est principalement dû aux défauts structurels qui diminuent le niveau de transmission de l’opale inverse dopée par rapport la couche de référence / LT2C laboratory uses since recent years a low temperature sol-gel process to develop a magneto-optical composite material that is perfectly compatible with glass integrated optics. However, due to an actual low figure of merit, this material cannot be embedded on integrated non-reciprocal devices. In order to exalt the magneto-optical effects and figure of merit, the LT2C laboratory adopted a process based on opals to 3D structure the material. The selected process consists in elaborating direct opals by self-assembling monodisperse polystyrene microspheres on glass substrate. Those opals are then impregnated with a homogeneous solution of sol-gel silica precursors doped with cobalt ferrite nanoparticles. Resulting samples are later oven dried for 1 hour at 90°C. Finally, polystyrene spheres are dissolved in ethyl acetate to obtain a 3D structure formed by air voids in doped silica matrix. In this context, the objective of this thesis is to optimize the fabrication process of opals in order to improve their structural and magneto-optical quality. Furthermore, it consists in making a systematic study of the magneto-optical effect in these structures in order to investigate the spectral behavior of the Faraday effect and thus quantify the figure of merit. Analysis of SEM images and optical characterization prove that our elaboration process leads to the fabrication of opals with good structural and optical quality. Measurements of Faraday rotation and ellipticity as a function of applied magnetic field show hysteresis loops with an unambiguous non-reciprocal behavior. These observations highlight the magneto-photonic character of the doped inverse opals. A systematic spectral study of the magneto-optical effect in these 3D structures displays two peaks and an attenuation of Faraday rotation and ellipticity, respectively at the edges and the center of the photonic band gap. However, these significant spectral modifications do not increase the value of figure of merit. This ascertainment is primarily due to structural defects that lower the transmission magnitude of the doped inverse opals in comparison to a magneto-optical reference monolayer

Opales

Cristaux magnéto-photoniques 3D

Sol-gel

Nanoparticules magnétiques

Rotation Faraday

Ellipticité Faraday

Facteur de mérite

Caractérisation magnéto-optique

Silica opals

3D Magneto-photonic Crystals

Sol-gel

Magnetic Nanoparticles

Faraday rotation

Faraday Ellipticity

Figure of Merit

Magneto-optical Characterization

Design of insect-scale flapping wing vehicles

Nabawy, Mostafa

January 2015

This thesis contributes to the state of the art in integrated design of insect-scale piezoelectric actuated flapping wing vehicles through the development of novel theoretical models for flapping wing aerodynamics and piezoelectric actuator dynamics, and integration of these models into a closed form design process. A comprehensive literature review of available engineered designs of miniature rotary and flapping wing vehicles is provided. A novel taxonomy based on wing and actuator kinematics is proposed as an effective means of classifying the large variation of vehicle configurations currently under development. The most successful insect-scale vehicles developed to date have used piezoelectric actuation, system resonance for motion amplification, and passive wing pitching. A novel analytical treatment is proposed to quantify induced power losses in normal hover that accounts for the effects of non uniform downwash, wake periodicity and effective flapping disc area. Two different quasi-steady aerodynamic modelling approaches are undertaken, one based on blade element analysis and one based on lifting line theory. Both approaches are explicitly linked to the underlying flow physics and, unlike a number of competing approaches, do not require empirical data. Models have been successfully validated against experimental and numerical data from the literature. These models have allowed improved insight into the role of the wing leading-edge vortex in lift augmentation and quantification of the comparative contributions of induced and profile drag for insect-like wings in hover. Theoretical aerodynamic analysis has been used to identify a theoretical solution for the optimum planform for a flapping wing in terms of chord and twist as a function of span. It is shown that an untwisted elliptical planform minimises profile power, whereas a more highly tapered design such as that found on a hummingbird minimises induced power. Aero-optimum wing kinematics for hovering are also assessed. It is shown that for efficient flight the flapping velocity should be constant whereas for maximum effectiveness the flapping velocity should be sinusoidal. For both cases, the wing pitching at stroke reversal should be as rapid as possible. A dynamic electromechanical model of piezoelectric bending actuators has been developed and validated against data obtained from experiments undertaken as part of this thesis. An expression for the electromechanical coupling factor (EMCF) is extracted from the analytical model and is used to understand the influence of actuator design variables on actuator performance. It is found that the variation in EMCF with design variables is similar for both static and dynamic operation, however for light damping the dynamic EMCF will typically be an order of magnitude greater than for static operation. Theoretical contributions to aerodynamic and electromechanical modelling are integrated into a low order design method for propulsion system sizing. The method is unique in that aside from mass fraction estimation, the underlying models are fully physics based. The transparency of the design method provides the designer with clear insight into effects of changing core design variables such as the maximum flapping amplitude, wing mass, transmission ratio, piezoelectric characteristics on the overall design solution. Whilst the wing mass is only around 10% of the actuator mass, the effective wing mass is 16 times the effective actuator mass for a typical transmission ratio of 10 and hence the wing mass dominates the inertial contribution to the system dynamics. For optimum aerodynamic effectiveness and efficiency it is important to achieve high flapping amplitudes, however this is typically limited by the maximum allowable field strength of the piezoelectric material used in the actuator.

629.132

Inverkan av utformingen av kamratrespons på måluppfyllelse och motivation att läsa biologi i högstadiet / Impact of instructional formate of peer review process on motivation to learn and educational goal achievement in middle school Biology

Areskoug, Veronika, Ahlroth, Mikael

January 2021

Vi har undersökt hur instruktionernas utformning inför deltagande i en kamratrespons påverkar högstadieelevers motivation att lära sig samt måluppfyllelse av kunskapskravet att utforma egen undersökning i ämnet biologi. Efter en kort genomgång av hur en egen undersökning ska utformas fick eleverna från tre åk 7 klasser och två åk 8 klasser i uppgift att utforma en egen undersökning i ämnet biologi. Uppgiften var utformad efter nationella provet del 3 från 2017. Vid nästa lektion blev elever indelade i par efter likvärdig måluppfyllelse. Slumpmässigt fick elevparen antingen förenklade, ospecificerade instruktioner som inbjöd till öppen, elevledd dialog eller detaljerade, punktformade instruktioner som uppmuntrade till en specifik innehåll och samtalsstruktur. Vi genomförde en enkät före och efter deltagandet i kamratresponsen som uppmätte elevens motivation att lära sig de olika kunskapskraven för biologi i högstadiet samt elevens upplevelse av deltagandet och sitt eget lärande. Uppgiften bedömdes efter Skolverkets bedömningsmall för rättning av nationella prov. Vi fann inga belägg för att elevers motivation att lära sig kunskapsmålen i ämnet biologi påverkades av varken kamratrespons som helhet eller instruktionernas utformning. Däremot fann vi en högre förbättringsgrad av måluppfyllelse bland de elever som fick de detaljerade, strukturerade instruktionerna jämfört med de förenklade, öppna instruktionerna. Vi drar slutsatserna att kamratrespons är ett användbart pedagogisk verktyg för att ge individuell formativ bedömning som leder till förbättrad måluppfyllelse under arbetes gång i kunskapskravet att forma egen undersökning och att utformningen av instruktionerna bör vara tydliga och detaljerade för att nå maximal resultat.

Peer review

formative feedback

proximal development zone

classroom instructions

biology

experimental design

middle school

motivation

merit goals

Kamratrespons

formativ bedömning

proximal utvecklingszon

klassrum instruktioner

biologi

utforma en undersökning

högstadiet

motivation

kunskapskrav

Pedagogy

Pedagogik

Management of thermal power plants through use values / Drift av termiska kraftverk med hjälp av användningsvärden

Assémat, Céline

January 2015

Electricity is an essential good, which can hardly be replaced. It can be produced thanks to a wide rangeof sources, from coal to nuclear, not to mention renewables such as wind and solar. In order to meetdemand at the lowest cost, an optimisation is made on electricity markets between the differentproduction plants. This optimisation mainly relies on the electricity production cost of each technology.In order to include long-term constraints in the short-term optimisation, a so-called use value (oropportunity cost) can be computed and added to the production cost. One long-term constraint thatEDF, the main French electricity producer, is facing is that its gas plants cannot exceed a given numberof operation hours and starts between two maintenances. A specific software, DiMOI, computes usevalues for this double constraint but its parameters needs to be tested in order to improve thecomputation, as it is not thought to work properly.DiMOI relies on dynamic programming and more particularly on an algorithm called Bellman algorithm.The software has been tested with EDF R&D department in order to propose some modellingimprovements. Electricity and gas market prices, together with real plant parameters such as startingcosts, operating costs and yields, were used as inputs for this work, and the results were checkedagainst reality.This study gave some results but they appeared to be invalid. Indeed, an optimisation problem wasdiscovered in DiMOI computing core: on a deterministic context, a study with little degrees of freedomwas giving better profits than a study with more degrees of freedom. This problem origin was notfound precisely with a first investigation, and the R&D team expected the fixing time to be very long.The adaptation of a simpler tool (MaStock) was proposed and made in order to replace DiMOI. Thisproject has thus led to DiMOI giving up and its replacement by MaStock. Time was missing to testcorrectly this tool, and the first study which was made was not completely positive. Further studiesshould be carried out, for instance deterministic ones (using real past data) whose results could becompared to reality.Some complementary studies were made from a fictitious system, in order to study the impact of someparameters when computing use values and operations schedules. The conclusions of these studiesare the little impacts that changes in gas prices and start-up costs parameters have on the global resultsand the importance of an accurate choice in the time periods durations used for the computations.Unfortunately these conclusions might be too specific as they were made on short study periods.Further case studies should be done in order to reach more general conclusions.

electricity market

merit order

CCGT

gas turbine

variable operation cost

electricity market

day-ahead market

intraday market

use value

opportunity cost

optimisation

constraint

stock valuation

dynamic programming

Bellman algorithm

Elektroteknik och elektronik

THERMOELECTRIC BUILDING ENVELOPE: MATERIAL CHARACTERIZATION, MODELING, AND EXPERIMENTAL PERFORMANCE EVALUATION

Xiaoli Liu (5930732)

20 July 2022

<p>In the United States, buildings are responsible for almost 40% of the country’s total energy consumption and 38% of the total greenhouse gas emissions. Researchers are constantly seeking sustainable and efficient energy generation solutions for buildings as society continues to cope with the intensifying energy crisis and environmental deterioration. Thermoelectric technology is one such solution that potentially can lead to significant energy recovery and conversion between waste or excess thermal energy and electrical energy. One promising application is integrating thermoelectric materials into the building envelope (TBE) for power generation and building heating and cooling without transporting energy among subsystems and refrigerant use. TBE can combine structural support and thermal storage with power generation and thermal-activated cooling and heating, thereby contributing to sustainable living and energy. </p> <p>TBE technology is still in its early development stages. This dissertation aimed to develop a fundamental understanding of the characteristics, behaviors, operation, and control of TBE systems as energy-efficient measures for thermal energy harvesting and thermal comfort regulation and to address the significant research gaps concerning high-conversion efficiency materials and optimal module configuration as well as system deployment related to real-world applications. Accordingly, this dissertation focused on the following three key objectives: (1) development and characterization of new thermoelectric composite materials; (2) identification of optimal designs and controls of TBE and established mathematical models for performance simulation; and (3) quantification of the energy-saving benefits of TBE. </p> <p>The following five aspects specifically were investigated:</p> <p>(1)<em> Material development and characterization</em>. New thermoelectric cement composites were developed with cement and various additives, material concentrations, and fabrication methods in the laboratory. Their thermoelectric properties (e.g., Seebeck coefficient, thermal conductivity, electrical conductivity, power factor, and the figure of merit) were measured simultaneously and characterized at 300–350 K.</p> <p>(2)<em> Module evaluation.</em> Commercially available thermoelectric modules (TEMs) were assessed using well-designed test apparatus in both the heat pumping and power generation modes. The test results validated the numerical model, which assisted with performance comparison and material selection between cement-based and commercial TEMs for the TBE prototype.</p> <p>(3)<em> Prototype assessment. </em>A convective TBE prototype and a radiant TBE prototype were designed, assembled, and evaluated in a pair of controlled testing chambers. The TBE’s surface temperature, thermal capacity, and COP were assessed under summer and winter conditions. </p> <p>(4)<em> Prototype modeling. </em>The first-principle-based numerical models of both the convective and radiant TBE prototypes were developed in Modelica. The modeling results indicated good agreement with the experimental data. The verified models were used to study the impacts of the design parameters and operating conditions on the heat pumping performance of TBE.</p> <p>(5)<em> System simulation. </em>A TBE building system model was established by integrating the TBE prototype model within a building’s heat balance model, considering the building construction, climate condition, power control, etc. Its seasonal performance under various climate conditions was studied to identify the potential optimal operation and energy savings. </p> <p>This dissertation confirmed several key findings in the areas of material development, system design and operation, and energy savings. The TBE achieved higher efficiency with a heat pump for heating than for cooling generally. The TBE heating system performed better than a conventional electric heater (efficiency assumed at 0.9). The measures that improved TBE heating efficiency were enhancing the material’s thermoelectric properties, optimizing the geometry and number of TEMs, and improving the boundary heat transfer of TEMs. </p> <p>This dissertation concluded that the TBE system is a promising alternative to conventional heating systems in buildings. Furthermore, the knowledge gained will strengthen the understanding of thermoelectrics in the building domain and guide further development in TBE, as well as facilitate the operation of net-zero energy and carbon-neutral buildings. </p>

Thermoelectric Power Generator

Thermoelectric Heat Pump

Thermoelectric Building Envelope

Active Building Envelope

Experiment

Numerical Modeling

Material Characterization

Prototype

System Simulation

Modelica

Thermoelectric Cement Composite

Figure of Merit

Seebeck Coefficient

Space Heating and Cooling

Human resource management practices and national culture: Empirical evidence from Pakistan.

Ali, Ashique

January 2010

This study examined impact of national culture on human resource management (HRM) functioning in present-day Pakistan. / No digital full text provided

Human resource management (HRM)

National culture

British colonial legacy

Civil-military elites

Postcolonial Pakistan

Employment policies

Quota system

Doctrine of marital race

American influences

Legal administrative frameworks

Post-9/11 climate

Mixed-methods

Structural model

Collectivism

Hierarchy

Power distance

Sifarish

Merit

Science Education in the Boy Scouts of America

Hintz, Rachel Sterneman

14 July 2009

No description available.

Curricula

Education

Gender

Geology

Science Education

Boy Scouts

Science Education

Informal Education

Free-Choice education

Outdoor Education

National Science Education Requirements

Learning Styles

Single-sex Education

Self-efficacy

Geology Education

Education of Males

Merit Badge

Camping

La Commission royale d’enquête sur la fonction publique de 1907-1908 : un projet de réforme libérale de l’appareil administratif canadien

Carrière, Julien

07 1900

La réforme de la fonction publique de 1908 constitue un moment décisif dans le développement de l’appareil étatique canadien. En effet, elle rejette un système jusque-là fondé sur le favoritisme, pour introduire les principes du mérite, de l’indépendance et de la neutralité des fonctionnaires, principes qui régissent encore aujourd'hui la fonction publique canadienne. Ces changements se produisent à la suite d’une longue réflexion sur la nature de la fonction publique, amorcée au cours de la seconde moitié du XIXe siècle, qui trouve largement écho dans le monde anglo-américain, mais qui s’est souvent butée à l'intérêt des politiciens pour le statu quo. Même si les grandes idées de réforme de la fonction publique sont connues, voire acceptées par certains dès les années 1870, ce n’est qu’à la suite du dépôt du rapport de la commission royale d’enquête de 1907-1908 que les politiciens y acquiescent en pratique et entreprennent des changements majeurs, en 1908. Le mémoire s’intéresse plus précisément à cette commission royale d’enquête de 1907-1908 et à la réforme législative qui s'ensuit, en 1908, épisode méconnu de l'histoire politique canadienne et assez peu documenté. L’étude cherche tout d’abord à déterminer le contexte politique et idéologique présidant à la création de cette commission d’enquête, puis en examine les travaux en profondeur afin de démontrer comment ses constats et recommandations ont poussé le gouvernement canadien à réformer la fonction publique et les principes directeurs qui en guident l'action. Cela fait, nous analyserons les différents éléments de la réforme elle-même, dans le but de voir comment elle rompt avec les conceptions qu'on entretient jusque-là et comment elle s’inscrit dans un nouveau cadre idéologique, produit d’une vision libérale de l’État. / The 1908 reform of the civil service marked a turning point in the development of the Canadian State, as it rejected a system based until then on patronage and introduced the principles of merit, independence and neutrality of civil servants, principles that remain grounding forces of today’s civil service. These changes occurred after a long reflection over the nature of the civil service. Such reflection, which resonates with the Anglo-American world, took place over the course of the latter half of the 19th century, though it was often obstructed by a politically favoured status quo. Although ideas for reforming the civil service were put forward by some as early as in the 1870s, it is only with the report of the Royal Commission of Inquiry 1907-1908 that politicians were finally willing to undertake a comprehensive reform, in 1908. Our thesis focuses on this Royal Commission of Inquiry and on the legislative reform that followed, in 1908, events that have drawn little attention from political historians and are rather underdocumented. Our first aim is to explain the political and ideological context surrounding the creation of this commission. We then analyze how it came to its observations and recommendations, which in turn led the Canadian government to reform the civil service as well as its guiding principles. We then scrutinize the various elements of the reform itself, with a view to showing how it broke free from the beliefs of the time and embraced a new ideological framework, the product of a liberal vision of the State.

Canada

fonction publique (1867-1914)

commission d’enquête

libéralisme

mérite

réforme de la fonction publique

construction de l’État

dépolitisation

gouvernement

John Mortimer Courtney

civil service (1867-1914)

public inquiry

liberalism

merit

civil service reform

depoliticization

government

John Mortimer Courtney

State formation

Julgamento antecipado da parcela madura do mérito sob a ótica da efetividade do acesso à justiça

Mano, Lilian Rodrigues

11 March 2016

Made available in DSpace on 2016-04-26T20:24:20Z (GMT). No. of bitstreams: 1 Lilian Rodrigues Mano.pdf: 902583 bytes, checksum: f25aff5390b4d4f0bd0733c7a7af9c94 (MD5) Previous issue date: 2016-03-11 / The dissertation encompass the thematic examination of the anticipated decision regarding the ripe aspect of the merit, grounded upon the strict observance of the access to Justice constitutional principle, considered in its entirety. Therefore, focusing on the constitutional tutelage of the civil procedure, and the impossibility of conceiving the procedural dictates disengaged from constitutional law, the necessary premises regarding the development of the study were established, with a brief approach to the access to Justice principle, allocating special attention to the evolution of the concept and the scope attributed to it, following the yearnings of the modern procedural theories, demonstrating that it is inherent to the principle the notion of the effectiveness of the process, which must constitute an adequate mean to the realization, on the factual level, of the substantive rights proclaimed by the State and, yet, comprising the content of the reasonable duration of the process guarantee. From them on, the paper addresses the possibility of the anticipated decision regarding the ripe aspect of the merit, de lege lata, even before the creation of the Civil Procedure Code of 2015, highlighting the dispute around article 273, §6º, of the Civil Procedure Code of 1973. Following that, the study centers on the definition of the judicial rulings with relevant decisional content (interlocutory decision and judgement) within the Brazilian legal order, deriving from an attempt of framing the partial decision of the merit within one of these species of jurisdictional ruling, considering the civil procedural system of 1973, alongside the changes promoted over it, addressing the difficulties involved in such task, the consequences of this position on the appeals and also relative to the motions to set aside judgement, as well as aspects on the execution of the ruling. The final chapter is aimed at the New Civil Procedure Code provisions which keep compatibility with the immediate decision of the ripe aspect of the merit, in order to clearly demonstrate how some innovations brought upon maintain harmony with the attendance of the access to Justice principle contents, without leaving the necessary criticism to the perpetuation of the uproar or inadequate destination, in certain points, of different rules on total and partial judgment of the merit / A dissertação envolve um exame da temática do julgamento antecipado da parcela madura do mérito, calcado na estreita observância ao princípio constitucional do acesso à justiça, considerado em sua inteireza. Assim, com enfoque na tutela constitucional do processo civil e na impossibilidade de se conceber os ditames processuais de forma desarraigada do direito constitucional, foram estabelecidas as premissas necessárias ao desenvolvimento do estudo, com uma breve abordagem do princípio do acesso à justiça, destinando especial atenção à evolução de seu conceito e à extensão que a ele atribuída, de acordo com os anseios da moderna processualística, mostrando ser a ele inerente a ideia de efetividade do processo, que deve constituir um meio adequado para a realização, no plano fático, dos direitos substantivos proclamados pelo Estado, e, ainda, englobando o conteúdo da garantia de razoável duração do processo. A partir de então, o trabalho aborda a admissão do julgamento antecipado da parcela madura do mérito, de lege lata, mesmo antes do advento do Código de Processo Civil de 2.015, destacando-se a celeuma envolvendo o artigo 273, § 6º, do Código de Processo Civil de 1.973. Em seguida, o estudo é centrado na definição dos pronunciamentos jurisdicionais com conteúdo decisório relevante (decisão interlocutória e sentença) no ordenamento jurídico brasileiro, partindo para uma tentativa de enquadramento da decisão parcial de mérito numa dessas espécies de provimento jurisdicional, considerado o sistema processual civil de 1973, com as reformas nele empreendidas, abordando-se as dificuldades que isso envolve, as consequências recursais e relativas à ação rescisória do posicionamento adotado, bem como aspectos sobre a execução da decisão. O capítulo final é destinado às previsões do Novo Código de Processo Civil relacionadas ao julgamento imediato da parcela madura do mérito, a fim de deixar patente como algumas das inovações perpetradas guardam consonância com o conteúdo do princípio do acesso à justiça, sem descurar da necessária crítica à perpetuação de celeumas ou inadequada destinação, em determinados pontos, de tratamento diferenciado ao julgamento total e ao parcial do mérito

Tutela constitucional do processo civil

Acesso à justiça

Razoável duração do processo

Julgamento antecipado parcial do mérito

Sentença

Access to justice

Reasonable duration of the process

Decision

Interlocutory decision

New Civil Procedure Code