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Proyectos realizados / Environmental improvement of operating supply chains: A multi-objective approach for the cement industry
Nora Cadavid Giraldo
Abstract
Nowadays companies worldwide face a growing pressure to reduce the environmental impact of their manufacturing activities. However, the strategies used to achieve this goal are not clearly defined because of their conflicting relations with financial outcomes. In parallel, globalization trends imply that as companies grow, usually through mergers and acquisitions, their supply chains become more complex. The environmental improvement of these supply chains imply not only technical retrofit decisions aiming at adopting cleaner production technologies but also decisions regarding the structure of the supply chain itself. Making these decisions becomes a difficult task because of the large number of variables involved, and the diversity of the interactions among them. To tackle this problem, this research aims at providing a multi-objective solution approach for making technological retrofit decisions within an operating supply chain, so that both environmental and financial goals are best met. The proposed solution approach is applied to the case of an operating cement supply chain in Colombia. Several computational experiments were conducted, obtained results demonstrates that the proposed model is an effective tool for multi-objective improvement decisions making, towards a more sustainable production process.
Keywords:
Sustainable supply chain management, technological updating decision making, en-terprise wide optimization, multi-objective optimization, mixed integer linear programming.
THE MECHANICAL BEHAVIOR OF DENTIN: IMPORTANCE OF MICROSTRUCTURE, CHEMICAL COMPOSITION AND AGINGTHE MECHANICAL BEHAVIOR OF DENTIN: IMPORTANCE OF MICROSTRUCTURE, CHEMICAL COMPOSITION AND AGING
Carolina Montoya Mesa
February 2017Abstract
Dental fracture is one of the three most common forms of failure of restored teeth and the most common cause of tooth loss or extraction in elderly patients. Previous investigations conducted on aging of hard tissues have identified that there is a considerable reduction in the mechanical properties (i.e. fracture toughness, fatigue and flexural resistance) of dentin with aging and that may predispose tooth racture. These declines in properties have been attributed to microstructural and chemical composition changes over time. However, these aging processes have not been really quantified and related with the changes in mechanical properties. Accordingly, the aim of this work is to evaluate the aging process of coronal dentin in terms of the evolution of microstructure, changes in chemical composition and mechanical properties from selected age groups (young and old donors). The changes in these properties were evaluated in three different regions (outer, middle and inner) in order to identify spatial variations within the crown.
The scattering of SH waves by a finite crack with a superposition based diffraction technique
Abstract
The problem of diffraction of cylindrical and plane SH waves by a finite crack is revisited. We construct an approximate solution by the addition of independent diffracted terms. We start with the derivation of the fundamental case of a semi-infinite crack obtained as a degenerate case of generalized wedge. This building block is then used to compute the diffraction of the main incident waves. The interaction between the opposite edges of the crack is then considered one term at a time until a desired tolerance is reached. We propose a recipe to determine the number of required interactions as a function of frequency. The solution derived with the superposition technique can be applied at low and high frequencies.
Implementation of user element subroutines for frequency domain analysis of wave scattering problems with commercial finite element codes
Abstract
A user element subroutine (UEL) to be used into the commercial finite element code ABAQUS has been developed and implemented. The subroutine is intended to treat generalized wave propagation problems in 2D-domains and in particular wave scattering problems. It has been formulated in the frequency domain, but fully implemented in terms of real-valued degrees of freedom as required by ABAQUS. Results are obtained both in the frequency and time domain. The subroutine is tested in the solution of problems related to topographic effects in earthquake engineering and in the propagation of waves in materials with microstructure introducing dispersion. Results have been provided in the frequency and in the time domain. The frequency domain is not only powerful from a conceptual point of view, since it offers many insights into the physical aspects of the problem, but it also has other advantages like:
Easy incorporation of excitations based on plane wave assumptions.
Simultaneous Consideration of temporal and spatial periodicity.
Easy consideration of dispersive materials.
Geometric analysis of trapezoidal hills subject to vertically incident SH waves
Abstract
Topographic effects have been shown to play a significant role on the local ground response during earthquakes. However, due to the large number of involved parameters the problem is rarely considered in seismic design regulations. Recently, there has been a tremendous development by the engineering community, regarding methods and computational infrastructure to address the problem via numerical simulations.
Although numerically based models may give accurate results when fed with appropriate field data, the obtained solutions are still very limited and strongly dependent on unknown factors like the input excitation. Therefore, there is a clear need to develop strong conceptual understanding allowing practising engineers to arrive at first order approximations, useful to validate complex numerical solutions. In this work we explore the use of purely geometrical methods in the determination of the dynamic response of trapezoidal geometries to vertically incident horizontally polarized shear waves.
The geometries may be considered representative of hills or earth embankments, depending on its characteristic dimensions. The hill response is first found with a frequency domain based boundary element code and the results are later analysed using a geometric approach, where the solution is partitioned into incident and reflected rays, forming the incoming or optical field, and the diffraction contribution.
This last term is obtained with a technique available from the literature. The analysis corresponding to the optical field, reveals that there are only 5 possible scenarios or different solutions and that any given hill can be classified into one of these five possible cases. Depending upon the dimensionless frequency of the problem (relating incident wavelength to the hill characteristic dimension), the solution is found to be governed by the optical solution or by the contribution from the diffraction terms. The results are first presented in terms of frequency amplitude functions since that description facilitates the analysis by geometric methods, however for completeness, the resulting transfer functions are later used to obtain results in the time domain representative of typical numerical solutions as the ones derived with commercial computational software.
Ver proyecto completo.
Implementation of the Moving Particle Semi-implicit method to predict the drag resistance coefficient on 2D
Carlos Andrés Pérez Gutiérrez
June 2016
Abstract
A dam break problem and the flow around a 2D submerged body on different scen- arios were solved with the original Moving Particle Semi-implicit (MPS) method proposed by Koshizuka and Oka in 1996. The results of this study showed that although the original method reproduces the free surface of the fluid on the dam break computation, it can not accurately compute the pressure distribution over the submerged bodies. It was found that the free surface was inaccurate when negative pressures were present in the particle domain. Also, when modelling the interaction of a solid immersed in a fluid, the simulation exhibited stability issues and solid penetration. Several modifications of the original MPS were studied, implemented and tested. This thesis proposes a modified Moving Particle Semi-implicit (MPS) method for modelling immerse bodies in an free surface flow. The MPS method is based on the prediction-correction calculation of the velocity field based on the Helmhotz-Hodge decomposition. Initially the predicted velocity is calculated based on the viscous and external forces terms and then corrected by the gradient of the pressure which is obtained by the solution of the Poisson Pressure’s equation. This thesis shows how small variations in the source term of the Poisson Pressure’s equa- tion can destabilise or stabilise simulations. One of the main result of this research is an improved stability by means of a reformulation of the Poisson Pressure equation and the aid of relaxation factors. Also, the pressure gradient was computed for non free surface particles only. The results show that, although pressure fluctuations were still present, good results were obtained when compared the drag coefficient to the reported values in the literature.
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