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Fu, M. C. - Andradottir, S. - Carson, J. S. - Glover, F. - Harrell, C. R.- Ho, Y. C. - Kelly, J. P. -Robinson, S. M. (2000): Integrating Optimization and Simulation: Research and Practice. In: Jones, J. A
Mooney, C. Z. (1997): Monte Carlo Simulation. Sage University Paper series on Quantitative Applications in the Social Sciences , 07-116.
Abstract
Several decades ago, when working in the field of magnetism, we had to use a balance the sensitivity of which was limited only by Brownian motion. This balance was a very slow one and to calculate the moment of force measured by it we used its equation of motion, T=Jα+kα+Cα, where we measured the values of all the quantities present on the right-hand side of this equation. At the 21st Conference on Vacuum Microbalance Techniques in Dijon, we suggested that, with the help of a computer, this procedure could also be made applicable to the handling of fast balances. The present paper contributes to this topic by presenting a computer simulation of such a fast balance.
., Lu, R. (2007) Monte Carlo simulation of light propagation in apples. ASABE Paper No. 073058. Minneapolis, Minnesota. Qing, Z., Ji, B., Zude, M. (2007a) Predicting soluble solid content and firmness in apple fruit
Abstract
Nowadays the facades of newly built buildings have significant glazed surfaces. The solar gains in these buildings can produce discomfort caused by direct solar radiation on the one hand and by the higher indoor air temperature on the other hand. The amplitude of the indoor air temperature variation depends on the glazed area, orientation of the facade and heat storage capacity of the building. This paper presents the results of a simulation, which were made in the Passol Laboratory of University of Debrecen in order to define the internal temperature variation. The simulation proved that the highest amplitudes of the internal temperature are obtained for East orientation of the facade. The upper acceptable limit of the internal air temperature is exceeded for each analyzed orientation: North, South, East, West. Comparing different building structures, according to the obtained results, in case of the heavy structure more cooling hours are obtained, but the energy consumption for cooling is lower.
References [1] Hensen J. L. M. , Lamberts R. (Eds.) Building performance simulation for design and operation , Spon Press , London , 2011
Journal of Electrostatics 2013 71 373 376 Horváth I. Simulation of a memristor-spark-gap model for
. ( 2014 ), Transient Numerical Simulation of Linear Thermal Transmittance in Software CalA . Envibuild 2014 . Trans Tech Publications . Switzerland . [12] Horká
, Akadémiai Kiadó , Budapest , 2008 . [8] Iványi A. Continuous and discrete simulations in electrodynamics
the EPS material due to direct heat in laboratory environment. Using results of the measurement the development of computer simulation has also been initialized in order to help to understand the phenomena more accurately and also contribute to the