Visible light photocatalytic inactivation of Escherichia coli with combustion synthesized TiO2

The photocatalytic inactivation of Escherichia coil was studied with combustion synthesized TiO2 photocatalysts in the presence of visible light. A series of 400W lamps irradiating in the visible region of the solar spectrum was used. The effect of various parameters, such as catalyst loading, light intensity, presence of inorganic ions, addition of hydrogen peroxide and pH, on the photocatalytic inactivation of E. coil was investigated. Photolysis alone had a small effect on inactivation while the dark experiment resulted in no inactivation and Ag/TiO2 showed the maximum inactivation. At a catalyst loading of 0.25 g/L, all the combustion synthesized catalysts showed better inactivation of E. coil compared to commercial Degussa P-25 (DP-25) TiO2 catalyst. An improved inactivation was observed with increasing lamp intensity and addition of H2O2. A negative effect on inactivation was observed by addition of inorganic ions such as HCO3-, SO42-, Cl-, NO3-, Na+, K+ and Ca2+. The photocatalytic inactivation of E. coli remained unaltered at different pH of the solution. The inactivation of E. coli was modeled with power law kinetics and was observed to follow first order kinetics. (C) 2012 Elsevier B.V. All rights reserved.

FIELD EMISSION EFFICIENCY OF A CARBON NANOTUBE ARRAY UNDER PARASITIC NONLINEARITIES

Carbon Nanotubes (CNTs) grown on substrates are potential electron sources in field emission applications. Several studies have reported the use of CNTs in field emission devices, including field emission displays, X-ray tube, electron microscopes, cathode-ray lamps, etc. Also, in recent years, conventional cold field emission cathodes have been realized in micro-fabricated arrays for medical X-ray imaging. CNTbased field emission cathode devices have potential applications in a variety of industrial and medical applications, including cancer treatment. Field emission performance of a single isolated CNT is found to be remarkable, but the situation becomes complex when an array of CNTs is used. At the same time, use of arrays of CNTs is practical and economical. Indeed, such arrays on cathode substrates can be grown easily and their collective dynamics can be utilized in a statistical sense such that the average emission intensity is high enough and the collective dynamics lead to longer emission life. The authors in their previous publications had proposed a novel approach to obtain stabilized field emission current from a stacked CNT array of pointed height distribution. A mesoscopic modeling technique was employed, which took into account electro-mechanical forces in the CNTs, as well as transport of conduction electron coupled with electron phonon induced heat generation from the CNT tips. The reported analysis of pointed arrangements of the array showed that the current density distribution was greatly localized in the middle of the array, the scatter due to electrodynamic force field was minimized, and the temperature transients were much smaller compared to those in an array with random height distribution. In the present paper we develop a method to compute the emission efficiency of the CNT array in terms of the amount of electrons hitting the anode surface using trajectory calculations. Effects of secondary electron emission and parasitic capacitive nonlinearity on the current-voltage signals are accounted. Field emission efficiency of a stacked CNT array with various pointed height distributions are compared to that of arrays with random and uniform height distributions. Effect of this parasitic nonlinearity on the emission switch-on voltage is estimated by model based simulation and Monte Carlo method.

Strategies for high efficiency and stability in biogas-fuelled small engines

This work assesses the performance of small biogas-fuelled engines and explores high-efficiency strategies for power generation in the very low power range of less than 1000 W. Experiments were performed on a small 95-cc, single-cylinder, four-stroke spark-ignition engine operating on biogas. The engine was operated in two modes, i.e., `premixed' and `fuel injection' modes, using both single and dual spark plug configurations. Measurements of in-cylinder pressure, crank angle, brake power, air and fuel flow rates, and exhaust emissions were conducted. Cycle-to-cycle variations in engine in-cylinder pressure and power were also studied and assessed quantitatively for various loading conditions. Results suggest that biogas combustion can be fairly sensitive to the ignition strategies thereby affecting the power output and efficiency. Further, results indicate that continuous fuel injection shows superior performance compared to the premixed case especially at low loads owing to possible charge stratification in the engine cylinder. Overall, this study has demonstrated for the first time that a combination of technologies such as lean burn, fuel injection, and dual spark plug ignition can provide highly efficient and stable operation in a biogas-fuelled small S.I. engine, especially in the low power range of 450-1000W. (C) 2014 Elsevier Inc. All rights reserved.

Selection and thermodynamic analysis of a turbocharger for a producer gas-fuelled multi-cylinder engine

The current work addresses the use of producer gas, a bio-derived gaseous alternative fuel, in engines designed for natural gas, derived from diesel engine frames. Impact of the use of producer gas on the general engine performance with specific focus on turbo-charging is addressed. The operation of a particular engine frame with diesel, natural gas and producer gas indicates that the peak load achieved is highest with diesel fuel (in compression ignition mode) followed by natural gas and producer gas (both in spark ignite mode). Detailed analysis of the engine power de-rating on fuelling with natural gas and producer gas indicates that the change in compression ratio (migration from compression to spark ignited mode), difference in mixture calorific value and turbocharger mismatch are the primary contributing factors. The largest de-rating occurs due to turbocharger mismatch. Turbocharger selection and optimization is identified as the strategy to recover the non-thermodynamic power loss, identified as the recovery potential (the loss due to mixture calorific value and turbocharger mismatch) on operating the engine with a fuel different from the base fuel. A turbocharged after-cooled six cylinder, 5.9 l, 90 kWe (diesel rating) engine (12.2 bar BMEP) is available commercially as a naturally aspirated natural gas engine delivering a peak load of 44.0 kWe (6.0 bar BMEP). The engine delivers a load of 27.3 kWe with producer gas under naturally aspirated mode. On charge boosting the engine with a turbocharger similar in configuration to the diesel engine turbocharger, the peak load delivered with producer gas is 36 kWe (4.8 bar BMEP) indicating a de-rating of about 60% over the baseline diesel mode. Estimation of knock limited peak load for producer gas-fuelled operation on the engine frame using a Wiebe function-based zero-dimensional code indicates a knock limited peak load of 76 kWe, indicating the potential to recover about 40 kWe. As a part of the recovery strategy, optimizing the ignition timing for maximum brake torque based on both spark sweep tests and established combustion descriptors and engine-turbocharger matching for producer gas-fuelled operation resulted in a knock limited peak load of 72.8 kWe (9.9 bar BMEP) at a compressor pressure ratio of 2.30. The de-rating of about 17.0 kWe compared to diesel rating is attributed to the reduction in compression ratio. With load recovery, the specific biomass consumption reduces from 1.2 kg/kWh to 1.0 kg/kWh, an improvement of over 16% while the engine thermal efficiency increases from 28% to 32%. The thermodynamic analysis of the compressor and the turbine indicates an isentropic efficiency of 74.5% and 73%, respectively.

Influence of fuel hydrogen fraction on syngas fueled SI engine: Fuel thermo-physical property analysis and in-cylinder experimental investigations

Hydrogen, either in pure form or as a gaseous fuel mixture specie enhances the fuel conversion efficiency and reduce emissions in an internal combustion engine. This is due to the reduction in combustion duration attributed to higher laminar flame speeds. Hydrogen is also expected to increase the engine convective heat flux, attributed (directly or indirectly) to parameters like higher adiabatic flame temperature, laminar flame speed, thermal conductivity and diffusivity and lower flame quenching distance. These factors (adversely) affect the thermo-kinematic response and offset some of the benefits. The current work addresses the influence of mixture hydrogen fraction in syngas on the engine energy balance and the thermo-kinematic response for close to stoichiometric operating conditions. Four different bio-derived syngas compositions with fuel calorific value varying from 3.14 MJ/kg to 7.55 MJ/kg and air fuel mixture hydrogen fraction varying from 7.1% to 14.2% by volume are used. The analysis comprises of (a) use of chemical kinetics simulation package CHEMKIN for quantifying the thermo-physical properties (b) 0-D model for engine in-cylinder analysis and (c) in-cylinder investigations on a two-cylinder engine in open loop cooling mode for quantifying the thermo-kinematic response and engine energy balance. With lower adiabatic flame temperature for Syngas, the in-cylinder heat transfer analysis suggests that temperature has little effect in terms of increasing the heat flux. For typical engine like conditions (700 K and 25 bar at CR of 10), the laminar flame speed for syngas exceeds that of methane (55.5 cm/s) beyond mixture hydrogen fraction of 11% and is attributed to the increase in H based radicals. This leads to a reduction in the effective Lewis number and laminar flame thickness, potentially inducing flame instability and cellularity. Use of a thermodynamic model to assess the isolated influence of thermal conductivity and diffusivity on heat flux suggests an increase in the peak heat flux between 2% and 15% for the lowest (0.420 MW/m(2)) and highest (0.480 MW/m(2)) hydrogen containing syngas over methane (0.415 MW/m(2)) fueled operation. Experimental investigations indicate the engine cooling load for syngas fueled engine is higher by about 7% and 12% as compared to methane fueled operation; the losses are seen to increase with increasing mixture hydrogen fraction. Increase in the gas to electricity efficiency is observed from 18% to 24% as the mixture hydrogen fraction increases from 7.1% to 9.5%. Further increase in mixture hydrogen fraction to 14.2% results in the reduction of efficiency to 23%; argued due to the changes in the initial and terminal stages of combustion. On doubling of mixture hydrogen fraction, the flame kernel development and fast burn phase duration decrease by about 7% and 10% respectively and the terminal combustion duration, corresponding to 90%-98% mass burn, increases by about 23%. This increase in combustion duration arises from the cooling of the near wall mixture in the boundary layer attributed to the presence of hydrogen. The enhancement in engine cooling load and subsequent reduction in the brake thermal efficiency with increasing hydrogen fraction is evident from the engine energy balance along with the cumulative heat release profiles. Copyright (C) 2015, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.

La ley del suelo del País Vasco : un paso más hacia la protección del suelo rural

[ES]La Ley del suelo del País Vasco del 2007 nace con el objeto de favorecer el acceso a una vivienda digna. Sin embargo, en la medida en que apuesta por frenar la especulación y la sostenibilidad del medio legisla sobre el tratamiento que se le ha de aportar al suelo no urbanizable. En este caso, no altera sustancialmente la regulación del suelo rural pero sí incorpora nuevas obligaciones dirigidas a frenar la intensidad de la urbanización en este suelo. Se regula la construcción de nueva vivienda, el desarrollo urbanístico de núcleos y barrios rurales y se obliga a profundizar en la calificación del suelo no urbanizable. La aplicación de los nuevos contenidos quedan en manos de los municipios e instituciones sectoriales y los primeros resultados parecen denotar un cambio de tendencia en municipios que han observado la pérdida de calidad paisajística del medio rural, la creciente especulación y la desagrarización de este entorno.

Disko-balaztaren fabrikazio prozesuaren deskribapena eta mekanizaziorako CAM bidezko programazioa

[EU]Lan honetan auto baten disko-balaztaren fabrikazio prozesua deskribatzen da, mekanizazio prozesuaren CAM bidezko programazioan sakonduz. Disko-balaztaren fabrikazioarekin hasi aurretik, informazio osagarri bezala, honek historian zehar izan duen garapena eta piezaren deskribapen zein funtzionamenduaren azalpena ematen dira. Jarraian, disko-balaztaren fabrikazioaren alderdi ezberdinak azaltzen dira, prozesu honek aurkezten dituen aukera desberdinak adieraziz. Azkenik, CAM bidezko programazioaren funtzionamendua erakusten da disko-balaztaren mekanizazio prozesurako aplikatuta.

Generación de energía eléctrica por combustión de biomasa forestal mediante ciclo rankine. Central de 2MW

[ES]Este proyecto se centra en el estudio y diseño de una central de generación de energía eléctrica por medio de biomasa forestal. La motivación para la realización de este proyecto reside en la gran importancia que en los últimos años están tomando las energías renovables. El Calentamiento Global es un hecho que durante los últimos años ha llevado a la investigación y desarrollo de las energías alternativas, que frenan o contribuyen al ralentizamiento de este fenómeno. Por su parte la implantación de una planta como la que se estudia a continuación, no solo ayudaría a la reducción de emisiones netas de CO2 a la atmósfera, sino que también tendría numerosas ventajas como son la creación de empleo, la limpieza de bosques, lo que ayuda a la prevención de incendios y plagas, y proporcionaría una independencia energética. Los pasos que se van a seguir en el proyecto son los siguientes:  Explicar el alcance y los objetivos del proyecto. Desarrollar las posibles alternativas que existen para la valorización de la biomasa forestal, incluyendo un resumen de las ventajas y desventajas que cada una presenta. Informe detallado de la alternativa seleccionada, la combustión, que incluye la explicación del proceso en la planta desde que el residuo sale del bosque, hasta la obtención de la energía eléctrica. Análisis económico y rentabilidad de la planta. Realizar el cronograma del proyecto. Por último se realizará un análisis de los posibles riesgos.

Legitimidade constitucional da cognição sumária: limites impostos pelo contraditório participativo.

A tese objetiva estruturar os pressupostos constitucionais impostos pelo conteúdo atual e humanizado do contraditório participativo às técnicas de sumarização da cognição. A primeira parte do estudo volta-se ao descortínio do papel do contraditório no sistema processual civil, do seu conteúdo mínimo atual, a partir da experiência internacional, em especial das Cortes de proteção dos direitos humanos, em confronto com o estágio evolutivo da jurisprudência brasileira. A segunda parte estuda as pressões exercidas pela celeridade sobre as fronteiras do contraditório, passando pelo exame dos dados disponibilizados pelo Conselho Nacional de Justiça e por outros institutos, pelo conteúdo do direito à razoável duração dos processos, também com amparo na experiência das Cortes internacionais de proteção dos direitos humanos, com o exame detido das condenações impostas ao Brasil pela Corte Interamericana de Direitos Humanos e da urisprudência interna sobre o tema, que nega aos prejudicados o direito à reparação dos danos sofridos pelos retardos injustificados. Definidas as bases, segue-se a análise das técnicas de sumarização da cognição, seus fundamentos, objetivos e espécies. A cognição sumária é definida em contraposição à cognição plena, segundo a qual as partes podem exercer, plenamente, em Juízo, os direitos inerentes ao contraditório participativo. O último quadrante se volta à estruturação dos pressupostos constitucionais legitimadores do emprego das técnicas de sumarização da cognição, impostos pelo contraditório como freio às pressões constantes da celeridade. O emprego legítimo das técnicas de tutela diferenciadas que se valem da cognição sumária para acelerar os resultados pressupõe, no quadro constitucional atual, (i) a observância do núcleo essencial do contraditório, identificado na audiência bilateral, em todo o iter da relação processual, (ii) a predeterminação legislativa, para que os cortes cognitivos não venham a ser casuisticamente realizados, (iii) a oportunidade, assegurada às partes, para integrar o contraditório em outra fase ou processo, em cognição plena, bem como (iv) a manutenção do equilíbrio na estabilização dos resultados, não podendo a cognição sumária, porque marcada pela incompletude, ser exaustiva em si. Ao final, depois do exame do caráter renunciável das garantias, é realizada a análise de alguns institutos processuais vigentes, nos quais é possível verificar o traço da sumarização da cognição, seguida da indicação das correções legislativas necessárias à conformação dos modelos aos padrões legitimadores propostos, reequilibrando as bases do sistema processual civil.

Diseño del sistema de tensor de cadena y acople de pinza de freno trasero para moto de competición.

[ES]En este documento se propone el diseño de dos sistemas imprescindibles en el tren trasero de una moto de competición, el sistema de tensor de cadena y el del acople de pinza de freno trasero. Junto a estos sistemas se diseñará, dada su relevancia, el basculante de la moto. Estos diseños se realizarán de tal manera que cumplan una serie de requisitos geométricos y de resistencia, garantizando en todo momento la estabilidad y seguridad del piloto. Se realizará también el estudio de la fabricación de cada uno de los elementos que componen los sistemas, con el fin de realizar diseños viables, que resulten económicamente factibles y mantengan un alto grado de calidad. En el proyecto se analizarán las diferentes alternativas de los sistemas que se puedan adoptar, sus ventajas y desventajas, para así poder escoger, con un alto grado de seguridad, la opción que mejor cumpla los objetivos y condiciones establecidos. Cabe destacar que este proyecto se encuentra dentro de otro de mayor envergadura consistente en el diseño y la fabricación de una motocicleta de competición para participar en el campeonato internacional llamado “MotoStudent”. Esta competición se realiza entre universidades de todo el mundo y en ella los equipos de estudiantes se enfrentan al desafío de diseñar y desarrollar un prototipo de motocicleta de competición similar a la categoría mundialista de “Moto3”.

Auto karrozeria pieza baten elementu finituen bidezko konformaketaren simulazioa.

[EN]The aim of this project is to show how important PamStamp program might be when engineers have to design different parts of a car without producing them. On the one hand, they do not have to waste time producing different elements in those enormous stamping presses. In this case, designing the door of a car with this program they could calculate in a very accurately way the force that the press have to do to obtain our final product. In this way employees do not have to use steel sheets every time they want to change small parameters in the press such as the position of the brake or a little angle of the die. All they need to carry out this project is a computer, with this tool and some licenses we could save thousands of euros and avoid paying for expensive materials every time we want to test something in the project.

Blue green emission from a Cu+-Doped transparent material prepared by sintering porous glass

A colorless transparent, blue green emission material was fabricated by sintering porous glass impregnated with copper ions. The emission spectral profile obtained from Cu+ -doped high silica glass (HSG) by 267-mn monochromatic light excitation matches that obtained by pumping with an 800-nm femtosecond laser, indicating that the emissions in both cases come from an identical origin. The upconversion emission excited by 800-nm femtosecond laser is considered to be a three-photon excitation process. A tentative scheme of upconverted emission from Cu+ -doped HSG was also proposed. The glass materials presented herein are expected to find application in lamps, high density optical storage, and three-dimensional color displays.

Standardisation des efforts de pêche des chalutiers ivoiriens et estimation de l'abondance relative dans les divers secteurs

The method developed by Robson (1966) is used to standardize fishing effort of Côte d'Ivoire trawlers whose size and power are very different. This method also allows the estimation of the relative abundances in the different fishing areas. The results obtained using 10 years data show that the entire Ivorian continental shelf can be considered as a single fishery unit. The relative fishing power of vessels is well correlated with gross tonnage, brake horse power and length of the vessel. The obsolescence of the trawlers affects their fishing power.

Metodologia de avaliação de rendimento de aerogeradores de pequeno porte utilizando perfis diários típicos de vento.

O crescimento do uso dos aerogeradores de pequeno porte em áreas urbanas em todo o mundo aponta para um mercado em expansão e extremamente promissor, principalmente no brasil, onde o potencial eólico é grande. tratando-se de máquinas pequenas existe interesse dos consumidores residenciais na sua utilização, seja para economia de energia ou por adesão às fontes alternativas. existe uma grande quantidade de fabricantes no mundo incluindo aerogeradores de alta, média e baixa qualidade. com isso surge a necessidade de criar métodos que avaliem estes produtos quanto ao seu rendimento energético, como ocorrem com as geladeiras, lâmpadas, fogões e outros, a fim de resguardar a qualidade deste equipamento ao consumidor. a proposta é criar um ciclo de teste (ou ciclo de ventos) baseado nos perfis de comportamentos diários de ventos urbano obtidos através de medições reais feitos pelo projeto sonda. esse perfil será usado para testar os aerogeradores de até 1 kw em laboratório, com auxílio de um túnel de vento a fim de determinar o rendimento energético do conjunto gerador, servindo como método para o aprimoramento desses aparelhos. outra possibilidade é o uso desta metodologia no programa brasileiro de etiquetagem, que classifica os produtos em função de sua eficiência energética. este trabalho também pode ser usado para acreditação de laboratórios de certificação que avaliam produtos em função de sua eficiência e/ou rendimento, visto que a acreditação é uma ferramenta estabelecida em escala internacional para gerar confiança na atuação de organizações que executam atividades de avaliação da conformidade.

Investigation of anti-lock braking strategies for heavy goods vehicles

An articulated lorry was instrumented in order to measure its performance in straight-line braking. The trailer was fitted with two interchangeable tandem axle sub-chassis, one with an air suspension and the other with a steel monoleaf four-spring suspension. The brakes were only applied to the trailer axles, which were fitted with anti-lock braking systems (ABS), with the brake torque controlled in response to anticipated locking of the leading axle of the tandem. The vehicle with the air suspension was observed to have significantly better braking performance than the steel suspension, and to generate smaller inter-axle load transfer and smaller vertical dynamic tyre forces. Computer models of the two suspensions were developed, including their brakes and anti-lock systems. The models were found to reproduce most of the important features of the experimental results. It was concluded that the poor braking performance of the steel four-spring suspension was mainly due to interaction between the ABS and inter-axle load transfer effects. The effect of road roughness was investigated and it was found that vehicle stopping distances can increase significantly with increasing road roughness. Two alternative anti-lock braking control strategies were simulated. It was found that independent sensing and actuation of the ABS system on each wheel greatly reduced the difference in stopping distances between the air and steel suspensions. A control strategy based on limiting wheel slip was least susceptible to the effects of road roughness.