La formación del «espacio público» como factor de cambio político: precisiones al concepto de «publicidad» burguesa

El trabajo indaga en el sentido común de las nociones de «espacio público» y de «cultura política», no obstante su persistente ambivalencia teórica desde que fueran formulados ambos conceptos a principios de la década de 1960. En primer lugar, se destaca su necesaria imbricación cuando han sido empleados en disciplinas como la historiografía desde la década de 1980, sobre todo acerca de la dialéctica entre Estado y libertad en el cambio político del avance de la modernidad. En último término, se afirma que los límites de la división público/privado se establecen en cada contexto histórico a partir de la idea de libertad individual.This study explores common-sense meanings of “public space” and “political culture”, despite the ambiguity that has been inherent in both expressions since they were first articulated and defined in the early 1960s. The ways in which these expressions have been conditioned by their use in disciplines such as historiography since the 1980s is emphasized, especially in relation to the dialectic between the State and freedom which underlies political change in the progress of modernity. The principle line of argument followed here holds that distinctions between “public” and “private” are made in the specific context of each historical period on the basis of a concept of individual freedom

Cinética de la biosorción de Cr(VI) con hueso de aceituna

En este trabajo se ha estudiado la cinética de biosorción de cromo(VI) usando hueso de aceituna como sólido sorbente.Los resultados muestran que el Cr(VI) es en parte retirado por el hueso y en parte reducido a Cr(III) y que, a partir de un tiempo de contacto próximo a 300 minutos, el porcentaje retirado de Cr(VI) y Cr total se mantiene constante, lo que indica que no se produce ninguno de los dos procesos. Así mismo, la capacidad de eliminación de Cr (VI) que tiene el hueso de aceituna disminuye con el aumento del pH, siendo este descenso mucho más acusado a pH>2. Para el Cr total los valores de la capacidad de eliminación resultan inferiores a los obtenidos para Cr(VI), lo que pone de manifiesto el efecto dela reducción de Cr(VI) a Cr(III). Los resultados experimentalesse han ajustado a los modelos de pseudo-primer orden, pseudo-segundo orden, Elovich y difusión intraparticular, siendo el modelo de pseudo-segundo orden el que mejor reproduce la cinética del proceso en todas las condiciones experimentales utilizadas. Finalmente, el efecto de la temperatura en la cinética del proceso muestra que, para Cr(VI), la capacidad de biosorción y la constante cinética aumentan cuando la  temperatura se eleva de 25 a 60 ºC, permaneciendo ambos parámetros prácticamente constantes cuando la temperaturaaumenta hasta 80 ºC

Efecto de diferentes tratamientos químicos en las características sorbentes de residuos derivados de la industria olivarera

En este trabajo se han caracterizado, mediante técnicas potenciométricas y análisis de IR, tres residuos de la industria olivarera (hueso de aceituna, alpeorujo y ramón del olivo) para su aplicación como biosorbentes de metales pesados antes y después de ser sometidos a diversos tratamientos químicos. Las titulaciones potenciométricas y los espectros de IR han mostrado que, tanto para el hueso de aceituna como para el ramón, el tratamiento con NaOH aumenta considerablemente la concentración de grupos activos y esto se ha manifestado en un aumento de la capacidad de bioadsorción de plomo. Así, en el caso del hueso y para una concentración inicial de Pb(II) de 80 mg/L, la capacidad de bioadsorción ha pasado de 3,54 mg/g para el hueso sin tratar a 7,32 mg/g para el hueso tratado. Para el alpeorujo, aunque la concentración de grupos activos es mayor en el sólido sin tratar o tratado con hexano, la capacidad de bioadsorciones mayor para el alpeorujo tratado con NaOH.En general, el tratamiento con HCl y con agua destilada ha eliminado los componentes solubles de los residuos, por lo que la concentración total de grupos activos es menor, siendo esta disminución muy notable en el alpeorujo y el ramón

Evaluación de la biosorción de cobre con cáscara de almendra

En este trabajo se analiza el potencial de la cáscara de almendra para su utilización como biosorbente de cobre presente en disoluciones acuosas. En primer lugar, se realizó una caracterización físico-química del biosorbente. Así, se ha determinado que los poros que posee la cáscara de almendra son mesoporos, con un ancho deporo medio de 54,5 Å y que la cantidad total de grupos activos es de 0,592 mmol/g, siendo el grupo carboxílico el mayoritario. A continuación, se analizó la influencia de las principales variables que intervienen en el proceso de biosorción. Se ha encontrado que el pH es uno de los parámetros más importantes que controlan la eliminación de cobre con cáscara de almendra, obteniéndose la máxima eficiencia del proceso a pH=5. El estudio cinético reveló que, en general, el proceso es rápido, aunque puede dividirse en dos etapas, una primera más rápida (primeros 20 minutos) y otra segunda etapa donde el proceso transcurre de forma más lenta. Se ha encontrado que el modelo de pseudo-segundo orden reproduce de forma adecuada el proceso. Por otra parte, el estudio del equilibrio mostró que a medida que aumenta la concentración inicial de cobre, se eleva la capacidad de biosorción del sólido hasta alcanzar un valor prácticamente constante para concentraciones superiores a 100 mg/L. El modelo de Langmuires el que mejor reproduce los resultados experimentales, obteniéndose una capacidad máxima de biosorción decobre de 9,44 mg/g

Adapted Thermodynamical Model for the Prediction of Adsorption in Nanoporous Materials

In this paper, we introduce a novel, adapted approach for computing gas adsorption properties in porous materials. We analyze the Dubinin-Polanyi's adsorption model and investigate various frameworks to estimate its required essential components. Those are linked to physicochemical properties of the adsorbates, such as the vapor saturation pressure and density in the adsorbed state. To conduct this analysis, we obtain adsorption isotherms for several metal-organic frameworks, encompassing a range of pore sizes, shapes, and chemical compositions. We then apply and evaluate multiple combinations of models for saturation pressure and density. After the evaluation of the method, we propose a working thermodynamic model for computing adsorption isotherms, which entails using the critical isochore as an approximation of the saturation pressure above the critical point and applying Hauer's method with a universal thermal expansion coefficient for density in the adsorbed state. This framework is applicable not only to simulated isotherms but also to experimental data from the literature for various molecules and structures, demonstrating robust predictive capabilities and high transferability. Our method showcases superior performance in terms of accuracy, generalizability, and simplicity compared to existing methods currently in use. For the first time, a method starting from a single adsorption curve and based on physically interpretable parameters can predict adsorption properties across a wide range of operating conditions

Comparison of Inter and Intra-Operator Differences for Cephalometric Landmark Identification on Three-Dimensional CBCT Images using Pro Plan CMF

Objective: To establish reliability of cephalometric landmark identification in threedimensions using ProPlan CMF software. Methods: Two orthodontist identified a series of 33 cephalometric landmarks on 20 CBCT scans of Class I, pre-orthodontic patients and repeated the landmark identification about two months later. Intraclass correlations (ICC) were calculated by landmark in the X, Y, and Z dimensions and F-test were used to assess difference in landmark location in the X, Y, and Z dimensions. Results: The majority of landmarks had good to excellent ICC for both inter- and intraobserver reliability. F-test also showed the majority of landmarks had no significant difference between the observers. Conclusion: Most landmarks showed good to very good reliability and reproducibility using ProPlan CMF, with some landmarks proving more reliable than others and further research is needed to establish the utility and practicality of three-dimensional cephalometrics as a common diagnostic tool in orthodontics

Highly Conductive Carbon Fiber Reinforced Concrete for Icing Prevention and Curing

This paper aims to study the feasibility of highly conductive carbon fiber reinforced concrete (CFRC) as a self-heating material for ice formation prevention and curing in pavements. Tests were carried out in lab ambient conditions at different fixed voltages and then introduced in a freezer at −15 °C. The specimens inside the freezer were exposed to different fixed voltages when reaching +5 °C for prevention of icing and when reaching the temperature inside the freezer, i.e., −15 °C, for curing of icing. Results show that this concrete could act as a heating element in pavements with risk of ice formation, consuming a reasonable amount of energy for both anti-icing (prevention) and deicing (curing), which could turn into an environmentally friendly and cost-effective deicing method.Authors want to acknowledge Generalitat Valenciana (PROMETEO/2013/035) for their economic support on this research, including funds for covering the costs to publish in open access

On numerical simulation of powder compaction process: powder transfer modelling and characterisation

A numerical model for the powder transfer stage in powder metallurgy cold compaction processes, and the corresponding material characterisation procedure, are proposed. They have been designed on the basis of the following requirements: robust and consistent computational mechanics ingredients, reliability of the obtained results for practical processes in powder metallurgy and industrial viability in the sense that characterisation of any mixture doesn't require either much effort or much time of the enduser. The starting point is a previously developed numerical model for powder compaction, formulated in terms of the large plastic deformation theory, which requires calibration of four parameters controlling the evolution of the yield surface. This calibration, which had been successfully carried out in the past in a range of moderate to high densities, is now extended to very low densities in order to make numerical simulations able to deal with compaction processes involving relevant powder transfer stages. To circumvent the difficulties inherent to direct measurements of very low powder densities, a simple apparatus, which allows studying the powder motion in the chamber, has been designed to provide an indirect way of calibration. On this basis, a set of calibration experiments is proposed. The proposed methodology appears to be simple and industrially viable. Although in the work it is applied to the specific constitutive model used by the authors, it also appears available for other families of constitutive models for powder compaction. As a relevant result, this would allow the same constitutive model to be used, via only the appropriated material characterisation, for simulation of densification in powder transfer stages as well as in pure compaction stage

Training Tests on Single Superconducting Coils of Sextupolar Correctors for LHC

The precompression of the coils is considered to be one of the most important parameters to achieve good training performance in a superconducting magnet. In order to better understand and optimise precompression, a test device has been created that allows to test individual coils in a cryostat at 4.2 K exerting a variable precompression in situ. The paper describes the design, construction and calibration of the testing device, the test instrumentation and the results of the first experiments with sextupolar coils. This work was realised in the framework of a collaboration between CERN and CEDEX/Spain

Life-cycle assessment of the thermal and catalytic pyrolysis over sepiolite of face masks

Since the start of the global COVID-19 pandemic, extensive quantities of face masks have been used and discarded. Most of these masks end up in landfills, causing a high environmental impact and no benefits. However, there are alternative ways to deal with this waste in a more sustainable way. For example, valorisation of face masks through pyrolysis has received special attention because it offers efficient application to produce a liquid oil that can be used as a diesel substitute and a solid char that can be used as an activated carbon substitute after activation. In this context, this study applies the Life-Cycle Assessment methodology to quantify and analyse the environmental impacts of different treatment scenarios based on the pyrolysis of surgical masks and FFP2 masks. It also compares their environmental performance with the conventional practice of landfilling. The scenarios studied include both thermal and catalytic pyrolysis by using sepiolite, a low-cost material abundant in Spain. Data on the pyrolysis process were obtained from laboratory experiments. It was found that the use of the produced oil as a diesel substitute very significantly reduces the environmental impact in all pyrolysis scenarios. Consequently, the pyrolysis of face masks can reduce the environmental impact caused by the treatment of this waste material. Furthermore, the thermal pyrolysis performs environmentally better than the catalytic pyrolysis. In all scenarios, freshwater ecotoxicity and marine ecotoxicity are the environmental impact categories that cause the highest environmental impact overall