994 resultados para Patrimônio industrial


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The apparel industry is one of the oldest and largest export industries in the world, with global trade and production networks that connect firms and workers in countries at all levels of economic development. This chapter examines the impact of the North American Free Trade Agreement (NAFTA) as one of the most recent and significant developments to affect patterns of international trade and production in the apparel and textile industries. Tr ade policies are changing the institutional environment in which firms in this industry operate, and companies are responding to these changes with new strategies designed to increase their profitability and strengthen their control over the apparel commodity chain. Our hypothesis is that lead firms are establishing qualitatively different kinds of regional production networks in North America from those that existed prior to NAFTA, and that these networks have important consequences for industrial upgrading in the Mexican textile and apparel industries. Post-NAFTA crossborder production arrangements include full-package networks that link lead firms in the United States with apparel and textile manufacturers, contractors, and suppliers in Mexico. Full-package production is increasing the local value added provided by the apparel commodity chain in Mexico and creating new opportunities for Mexican firms and workers. The chapter is divided into four main sections. The first section uses trade and production data to analyze shifts in global apparel flows, highlighting the emergence and consolidation of a regional trade bloc in North America. The second section discusses the process of industrial upgrading in the apparel industry and introduces a distinction between assembly and full-package production networks. The third section includes case studies based on published industry sources and strategic interviews with several lead companies whose strategies are largely responsible for the shifting trade patterns and NAFTA-inspired cross-border production networks discussed in the previous section. The fourth section considers the implications of these changes for employment in the North American apparel industry. © 2009 by Temple University Press. All rights reserved.

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© 2014, Springer Science+Business Media Dordrecht.The burgeoning literature on global value chains (GVCs) has recast our understanding of how industrial clusters are shaped by their ties to the international economy, but within this context, the role played by corporate social responsibility (CSR) continues to evolve. New research in the past decade allows us to better understand how CSR is linked to industrial clusters and GVCs. With geographic production and trade patterns in many industries becoming concentrated in the global South, lead firms in GVCs have been under growing pressure to link economic and social upgrading in more integrated forms of CSR. This is leading to a confluence of “private governance” (corporate codes of conduct and monitoring), “social governance” (civil society pressure on business from labor organizations and non-governmental organizations), and “public governance” (government policies to support gains by labor groups and environmental activists). This new form of “synergistic governance” is illustrated with evidence from recent studies of GVCs and industrial clusters, as well as advances in theorizing about new patterns of governance in GVCs and clusters.

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El genotipo (G), el ambiente (A) y la interacción G x A pueden influir de manera diferente sobre las característica que definen la calidad comercial e industrial de trigo pan. Los objetivos de esta tesis fueron: 1) Caracterizar el rendimiento y a sus componentes en cultivares de trigo pertenecientes a diferentes grupos de calidad, expuestos a ofertas de nitrógeno contrastantes. 2) Estudiar el impacto de distinta disponibilidad de nitrógeno sobre los componentes fisiológicos del llenado de los granos (i.e tasa y duración) en distintaas variedades de trigo pan y su posible efecto sobre los parámetros de calidad. 3) Caracterizar y cuantificar la interacción genotipo por ambiente sobre la expresión de los parámetros que determinan el rendimiento y la calidad comercial e industrial del trigo pan en ambientes con diferentes disponibilidades de nitrógeno. Se realizaron ensayos en dos localidades, durante dos años, utilizando seis variedades de distinta aptitud panadera (2 de cada grupo de clasificación por grupo de calidad -GC-), aplicando cuatro tratamientos de fertilización nitrogenadas. Se evaluó el efecto genético, ambiental y la interacción G x A, sobre el rendimiento y sus componentes, el peso de los granos y sus componentes y sobre los parámetros de calidad comercial e industrial. Los resultados mostraron que el rendimiento y sus componentes (número de granos, biomasa aérea, eficiencia de uso de la radiación interceptada acumulada) fueron afectados principalmente por el ambiente y el manejo nutricional dentro de de cada ambiente. Para el peso de los granos y sus componentes (tasa y duración) el efecto del manejo del nitrógeno no fue importante, aunque sí lo fue el efecto genotipo. Para los parámetros de calidad el efecto genotipo fue más importante solo para la tenacidad, mientras que el peso hectolítrico, gluten húmedo, fuerza panadera, la relación de equilibrio (P/L) y volumen de pan fueron modificados principalmente por el efecto ambiente no manejable como son el año y la localidad, en tanto la proteína fue afectada principalmente por el factor ambiental asociado al manejo nutricional. La interacción GxA fue el efecto que explicó en mayor medida las variaciones de rendimiento de harina, absorción de agua y tiempo de amasado. La fuerte interacción GxA observada para la mayoría de los parámetros de calidad determinó que variedades de un determinado GC cambien de grupo asociado principalmente a factores ambientales como la localidad y el año, mientras que el manejo nutricional tuvo un impacto menor

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El genotipo (G), el ambiente (A)y la interacción G x A pueden influir de manera diferente sobre las característica que definen la calidad comercial e industrial de trigo pan. Los objetivos de esta tesis fueron: 1)Caracterizar el rendimiento y a sus componentes en cultivares de trigo pertenecientes a diferentes grupos de calidad, expuestos a ofertas de nitrógeno contrastantes. 2)Estudiar el impacto de distinta disponibilidad de nitrógeno sobre los componentes fisiológicos del llenado de los granos (i.e tasa y duración)en distintaas variedades de trigo pan y su posible efecto sobre los parámetros de calidad. 3)Caracterizar y cuantificar la interacción genotipo por ambiente sobre la expresión de los parámetros que determinan el rendimiento y la calidad comercial e industrial del trigo pan en ambientes con diferentes disponibilidades de nitrógeno. Se realizaron ensayos en dos localidades, durante dos años, utilizando seis variedades de distinta aptitud panadera (2 de cada grupo de clasificación por grupo de calidad -GC-), aplicando cuatro tratamientos de fertilización nitrogenadas. Se evaluó el efecto genético, ambiental y la interacción G x A, sobre el rendimiento y sus componentes, el peso de los granos y sus componentes y sobre los parámetros de calidad comercial e industrial. Los resultados mostraron que el rendimiento y sus componentes (número de granos, biomasa aérea, eficiencia de uso de la radiación interceptada acumulada)fueron afectados principalmente por el ambiente y el manejo nutricional dentro de de cada ambiente. Para el peso de los granos y sus componentes (tasa y duración)el efecto del manejo del nitrógeno no fue importante, aunque sí lo fue el efecto genotipo. Para los parámetros de calidad el efecto genotipo fue más importante solo para la tenacidad, mientras que el peso hectolítrico, gluten húmedo, fuerza panadera, la relación de equilibrio (P/L)y volumen de pan fueron modificados principalmente por el efecto ambiente no manejable como son el año y la localidad, en tanto la proteína fue afectada principalmente por el factor ambiental asociado al manejo nutricional. La interacción GxA fue el efecto que explicó en mayor medida las variaciones de rendimiento de harina, absorción de agua y tiempo de amasado. La fuerte interacción GxA observada para la mayoría de los parámetros de calidad determinó que variedades de un determinado GC cambien de grupo asociado principalmente a factores ambientales como la localidad y el año, mientras que el manejo nutricional tuvo un impacto menor

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In the analysis of industrial processes, there is an increasing emphasis on systems governed by interacting continuum phenomena. Mathematical models of such multi-physics processes can only be achieved for practical simulations through computational solution procedures—computational mechanics. Examples of such multi-physics systems in the context of metals processing are used to explore some of the key issues. Finite-volume methods on unstructured meshes are proposed as a means to achieve efficient rapid solutions to such systems. Issues associated with the software design, the exploitation of high performance computers, and the concept of the virtual computational-mechanics modelling laboratory are also addressed in this context.

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The parallelization of existing/industrial electromagnetic software using the bulk synchronous parallel (BSP) computation model is presented. The software employs the finite element method with a preconditioned conjugate gradient-type solution for the resulting linear systems of equations. A geometric mesh-partitioning approach is applied within the BSP framework for the assembly and solution phases of the finite element computation. This is combined with a nongeometric, data-driven parallel quadrature procedure for the evaluation of right-hand-side terms in applications involving coil fields. A similar parallel decomposition is applied to the parallel calculation of electron beam trajectories required for the design of tube devices. The BSP parallelization approach adopted is fully portable, conceptually simple, and cost-effective, and it can be applied to a wide range of finite element applications not necessarily related to electromagnetics.

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This paper presents an Eulerian-based numerical model of particle degradation in dilute-phase pneumatic conveying systems including bends of different angles. The model shows reasonable agreement with detailed measurements from a pilot-sized pneumatic conveying system and a much larger scale pneumatic conveyor. The potential of the model to predict degradation in a large-scale conveying system from an industrial plant is demonstrated. The importance of the effect of the bend angle on the damage imparted to the particles is discussed.

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The extent and gravity of the environmental degradation of the water resources in Dhaka due to untreated industrial waste is not fully recognised in international discourse. Pollution levels affect vast numbers, but the poor and the vulnerable are the worst affected. For example, rice productivity, the mainstay of poor farmers, in the Dhaka watershed has declined by 40% over a period of ten years. The study found significant correlations between water pollution and diseases such as jaundice, diarrhoea and skin problems. It was reported that the cost of treatment of one episode of skin disease could be as high as 29% of the weekly earnings of some of the poorest households. The dominant approach to deal with pollution in the SMEs is technocratic. Given the magnitude of the problem this paper argues that to control industrial pollution by SMEs and to enhance their compliance it is necessary to move from the technocratic approach to one which can also address the wider institutional and attitudinal issues. Underlying this shift is the need to adopt the appropriate methodology. The multi-stakeholder analysis enables an understanding of the actors, their influence, their capacity to participate in, or oppose change, and the existing and embedded incentive structures which allow them to pursue interests which are generally detrimental to environmental good. This enabled core and supporting strategies to be developed around three types of actors in industrial pollution, i.e., (i) principal actors, who directly contribute to industrial pollution; (ii) stakeholders who exacerbate the situation; and (iii) potential actors in mitigation. Within a carrot-and-stick framework, the strategies aim to improve environmental governance and transparency, set up a packet to incentive for industry and increase public awareness.

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The concomitant recycling of waste and carbon dioxide emissions is the subject of developing technology designed to close the industrial process loop and facilitate the bulk-re-use of waste in, for example, construction. The present work discusses a treatment step that employs accelerated carbonation to convert gaseous carbon dioxide into solid calcium carbonate through a reaction with industrial thermal residues. Treatment by accelerated carbonation enabled a synthetic aggregate to be made from thermal residues and waste quarry fines. The aggregates produced had a bulk density below 1000 kg/m3 and a high water absorption capacity. Aggregate crushing strengths were between 30% and 90% stronger than the proprietary lightweight expanded clay aggregate available in the UK. Cast concrete blocks containing the carbonated aggregate achieve compressive strengths of 24 MPa, making them suitable for use with concrete exposed to non-aggressive service environments. The energy intensive firing and sintering processes traditionally required to produce lightweight aggregates can now be augmented by a cold-bonding, low energy method that contributes to the reduction of green house gases to the atmosphere.

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The disposal of industrial waste presents major logistical, financial and environmental issues. Technologies that can reduce the hazardous properties of wastes are urgently required. In the present work, a number of industrial wastes arising from the cement, metallurgical, paper, waste disposal and energy industries were treated with accelerated carbonation. In this process carbonation was effected by exposing the waste to pure carbon dioxide gas. The paper and cement wastes chemically combined with up to 25% by weight of gas. The reactivity of the wastes to carbon dioxide was controlled by their constituent minerals, and not by their elemental composition, as previously postulated. Similarly, microstructural alteration upon carbonation was primarily influenced by mineralogy. Many of the thermal wastes tested were classified as hazardous, based upon regulated metal content and pH. Treatment by accelerated carbonation reduced the leaching of certain metals, aiding the disposal of many as stable non-reactive wastes. Significant volumes of carbon dioxide were sequestrated into the accelerated carbonated treated wastes.

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Today, the key to commercial success in manufacturing is the timely development of new products that are not only functionally fit for purpose but offer high performance and quality throughout their entire lifecycle. In principle, this demands the introduction of a fully developed and optimised product from the outset. To accomplish this, manufacturing companies must leverage existing knowledge in their current technical, manufacturing and service capabilities. This is especially true in the field of tolerance selection and application, the subject area of this research. Tolerance knowledge must be readily available and deployed as an integral part of the product development process. This paper describes a methodology and framework,currently under development in a UK manufacturer, to achieve this objective.

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The marine diatom Phaeodactylum tricornutum can accumulate up to 30% of the omega-3 long chain polyunsaturated fatty acid (LC-PUFA) eicosapentaenoic acid (EPA) and, as such, is considered a good source for the industrial production of EPA. However, P. tricornutum does not naturally accumulate significant levels of the more valuable omega-3 LC-PUFA docosahexaenoic acid (DHA). Previously, we have engineered P. tricornutum to accumulate elevated levels of DHA and docosapentaenoic acid (DPA) by overexpressing heterologous genes encoding enzyme activities of the LC-PUFA biosynthetic pathway. Here, the transgenic strain Pt_Elo5 has been investigated for the scalable production of EPA and DHA. Studies have been performed at the laboratory scale on the cultures growing in up to 1 L flasks a 3.5 L bubble column, a 550 L closed photobioreactor and a 1250 L raceway pond with artificial illumination. Detailed studies were carried out on the effect of different media, carbon sources and illumination on omega-3 LC-PUFAs production by transgenic strain Pt_Elo5 and wild type P. tricornutum grown in 3.5 L bubble columns. The highest content of DHA (7.5% of total fatty acids, TFA) in transgenic strain was achieved in cultures grown in seawater salts, Instant Ocean (IO), supplemented with F/2 nutrients (F2N) under continuous light. After identifying the optimal conditions for omega-3 LC-PUFA accumulation in the small-scale experiments we compared EPA and DHA levels of the transgenic strain grown in a larger fence-style tubular photobioreactor and a raceway pond. We observed a significant production of DHA over EPA, generating an EPA/DPA/DHA profile of 8.7%/4.5%/12.3% of TFA in cells grown in a photobioreactor, equivalent to 6.4 μg/mg dry weight DHA in a mid-exponentially growing algal culture. Omega-3 LC-PUFAs production in a raceway pond at ambient temperature but supplemented with artificial illumination (110 μmol photons m-2s-1) on a 16:8h light:dark cycle, in natural seawater and F/2 nutrients was 24.8% EPA and 10.3% DHA. Transgenic strain grown in RP produced the highest levels of EPA (12.8%) incorporated in neutral lipids. However, the highest partitioning of DHA in neutral lipids was observed in cultures grown in PBR (7.1%). Our results clearly demonstrate the potential for the development of the transgenic Pt_Elo5 as a platform for the commercial production of EPA and DHA.