Search results for "Simulation"

showing 10 items of 5095 documents

Climate change and the building sector: Modelling and energy implications to an office building in southern Europe

2018

Abstract The building sector is one of the most relevant sectors in terms of generation of wealth and occupation, but it is also one of the main contributor to energy use and greenhouse gas emissions (e.g. at the European level it is currently responsible for 36% of CO2 emissions). For these reason this sector must play a key role in achieving a low-carbon economy consistent with the objective of holding the increase of the average temperature of the globe below 2 °C if compared to pre-industrial levels. In this context, the paper analyses the potential impact of climate change on the energy uses for heating and cooling in southern Europe, based on the assumptions of the latest Intergovernm…

Consumption (economics)Settore ING-IND/11 - Fisica Tecnica AmbientaleMeteorologyIPCCRenewable Energy Sustainability and the Environment020209 energyGeography Planning and Development0211 other engineering and technologiesClimate changeContext (language use)02 engineering and technologyModelling climate changeManagement Monitoring Policy and LawBuilding simulationOrder (exchange)Effects of global warmingGreenhouse gasRange (aeronautics)Weather data file021105 building & construction0202 electrical engineering electronic engineering information engineeringEnvironmental scienceClimate changeDownscaling
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Alcohol consumption in Spain and its economic cost: A mathematical modeling approach

2010

In this paper, a mathematical model for alcohol consumption in Spanish population is proposed. Its parameters are estimated by fitting the model to real data from Spanish Ministry of Health. Predictions about the future behavior of the alcohol consumption in Spain are presented using this model. Results are applied to estimate the economic costs (sanitary and non-sanitary) assumed by Spanish society that are derived from this consumption.

Consumption (economics)Spanish populationModeling and SimulationEconomic costModelling and SimulationEconometricsChristian ministryDifferential systemsMathematical economicsAlcohol consumptionMathematicsComputer Science ApplicationsMathematical and Computer Modelling
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mplicit Identification of Contact Parameters in a Continuous Chain Model

2011

Accurate contact modeling is of great importance in the field of dynamic chain simulations. In this paper emphasis is on contact dynamics for a time-domain simulation model of large chains guided in a closed loop track. The chain model is based on theory for unconstrained rigid multibody dynamics where contact within the chain and with the track is defined through continuous point contacts using the contact indentation and rate as means. This paper presents an implicit method to determine contact parameters of the chain model through the use of none gradient optimization methods. The set of model parameters are estimated by minimizing the residual between simulated and measured results. The…

Contact modelMathematical optimizationEngineeringbusiness.industryExperimental measurementsMultibody systemResiduallcsh:QA75.5-76.95Computer Science ApplicationsHysteresisChain (algebraic topology)Control and Systems EngineeringControl theoryModeling and SimulationIndentationDamping factorPoint (geometry)Contact dynamicslcsh:Electronic computers. Computer sciencebusinessOptimization methodsSoftwareModeling, Identification and Control: A Norwegian Research Bulletin
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On the Real-Time Simulation and Control of the Continuous Casting Process

1990

Ll this paper we present a method for controlling in real-time the secondary cooling of the continuous casting machine. The method is based on the heat transfer model, which simulates the temperature distribution of the cast, and on the use of direct digital control (DDC). Off-line simulation results considering the control method is presented.

Continuous castingComputer scienceReal-time simulationControl (management)Process (computing)Heat transfer modelDirect digital controlSimulationControl methods
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Real-time simulation and control system for the continuous casting process

2005

In this paper we present a real-time system which is used to simulate the unsteady-state continuous casting process and to control the secondary cooling water sprays. The aim of the control system is to keep the surface temperature of the slab constant with respect to time in spite of casting speed variations, and in this way minimize the formation of cracks in the final product. The simulator calculates the temperature distribution using a mathematical model based on a heat conduction formula with phase changes. The optimal spray water flow rates for each spray cooling zone will be calculated by minimizing the deviation between the target surface temperature and the calculated actual surfa…

Continuous castingMaterials scienceReal-time simulationWater flowCasting (metalworking)Control systemSlabWater coolingMechanicsThermal conduction
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On numerical simulation of the continuous casting process

1988

In this paper a steady-state nonlinear parabolic-type model, which simulates the multiphase heat transfer during solidification in continuous casting, is presented. An enthalpy formulation is used and we apply a FE-method in space and an implicit Euler method in time. A detailed solution algorithm is presented. We compute the temperature distributions in the strand when the boundary conditions (mold/spray cooling) on the strand surface are known. The numerical model gives thereby a good basis for the testing of new designs of continuous-casting machines. An application of the model to continuous casting of billets is presented.

Continuous castingSurface (mathematics)Nonlinear systemMaterials scienceComputer simulationGeneral MathematicsHeat transferMultiphase heat transferGeneral EngineeringCalculusBoundary value problemMechanicsBackward Euler methodJournal of Engineering Mathematics
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Packing a trunk - Now with a twist!

2005

In an industry project with a German car manufacturer we are faced with the challenge of placing a maximum number of uniform rigid rectangular boxes in the interior of a car trunk. The problem is of practical importance due to a European industry norm which requires car manufacturers to state the trunk volume according to this measure. No really satisfactory automated solution for this problem has been known in the past. In spite of its NP hardness, combinatorial optimization techniques, which consider only grid-aligned placements, produce solutions which are very close to the one achievable by a human expert in several hours of tedious work. The remaining gap is mostly due to the constrain…

Continuous modellingComputer scienceSimulated annealingDesign processCombinatorial optimizationSoftware systemCombinatorial methodGridIndustrial engineeringTrunkSimulation
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An evolutionary method for complex-process optimization

2010

10 páginas, 7 figuras, 7 tablas

Continuous optimizationMathematical optimizationOptimization problemGeneral Computer ScienceEvolutionary algorithmMetaheuristicsManagement Science and Operations ResearchEvolutionary algorithmsMulti-objective optimizationComplex-process optimizationContinuous optimizationModeling and SimulationGenetic algorithmDerivative-free optimizationGlobal optimizationMulti-swarm optimizationMetaheuristicMathematicsComputers & Operations Research
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Black box scatter search for general classes of binary optimization problems

2010

The purpose of this paper is to apply the scatter search methodology to general classes of binary problems. We focus on optimization problems for which the solutions are represented as binary vectors and that may or may not include constraints. Binary problems arise in a variety of settings, including engineering design and statistical mechanics (e.g., the spin glass problem). A distinction is made between two sets of general constraint types that are handled directly by the solver and other constraints that are addressed via penalty functions. In both cases, however, the heuristic treats the objective function evaluation as a black box. We perform computational experiments with four well-k…

Continuous optimizationMathematical optimizationOptimization problemGeneral Computer ScienceL-reductionManagement Science and Operations ResearchMulti-objective optimizationEngineering optimizationVector optimizationModeling and SimulationPenalty methodAlgorithmMetaheuristicMathematicsComputers & Operations Research
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A symmetric nonlocal damage theory

2003

The paper presents a thermodynamically consistent formulation for nonlocal damage models. Nonlocal models have been recognized as a theoretically clean and computationally efficient approach to overcome the shortcomings arising in continuum media with softening. The main features of the presented formulation are: (i) relations derived by the free energy potential fully complying with nonlocal thermodynamic principles; (ii) nonlocal integral operator which is self-adjoint at every point of the solid, including zones near to the solid's boundary; (iii) capacity of regularizing the softening ill-posed continuum problem, restoring a meaningful nonlocal boundary value problem. In the present app…

Continuum (measurement)Applied MathematicsMechanical EngineeringMathematical analysisNonlocal boundaryTangentLocalization limiterCondensed Matter PhysicsNonlocal damageAssociative damageModuliQuantum nonlocalityMechanics of MaterialsModeling and SimulationThermodynamicsGeneral Materials ScienceTangent stiffness matrixSettore ICAR/08 - Scienza Delle CostruzioniSofteningAssociative propertyMathematicsInternational Journal of Solids and Structures
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