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Emissions of dust are crucial sources of pollution of the atmosphere by anthropogenic activities. The impact of emissions on territories is essentially determined by the amount of sedimented airborne particulate matter [KOMMISSION FUR UMWELTSCHUTZ, 1976]. In routine monitoring the assessment of these loadings is usually conducted by determining the total sedimented airborne particulates (TSP) in monitoring raster screens and comparison with legally fixed thresholds. Commonly, the positions of the dust-sam- [Pg.252]

The following example demonstrates the possibilities of chemometric characterization of particulate emissions in monitoring raster screens [EINAX and DANZER, 1989 EINAX, 1993]  [Pg.253]

Only a small number of solutions for the laminar forced convection problem and experimental investigations are available in the literature with some variations in the associated thermophysical properties. To the authors knowledge, for example, no experimental study is available to clarify the effect of the Prandtl number on the heat transfer in micro-channels with different duct geometries. [Pg.188]

Almost all studies of quantum mechanical problems involve some attention to many-body effects. The simplest such cases are solving the Schrodinger equation for helium or hydrogen molecular ions, or the Born— Oppenheimer approximation. There is a wealth of experience tackling such problems and experimental observations of the relevant energy levels provides a convenient and accurate method of checking the correctness of these many-body calculations. [Pg.255]

In Volume 12 (1970)1 of this series a chapter with the same title appeared (Part I) developments between 1969 and 1982 will be discussed in the following chapter. Neither the fundamental problems and experimental techniques nor the different reactions already treated in Part I will be discussed in this chapter, and it will thus be an advantage to have read Part I before beginning this chapter. [Pg.237]

Livshits, A., N. Ohyabu, M. Notkin, V. Alimov, H. Suzuki, A. Samartsev, M. Solovyov, I. Grigoriadi, A. Glebovsky, A. Busnyuk, A. Doroshin, and K. Komatsu, Applications of superpermeable membranes in fusion The flux density problem and experimental progress. Journal of Nuclear Materials, 1997. 241-243 1203-1209. [Pg.215]

See other pages where Problem and Experimental is mentioned: [Pg.252]    [Pg.292]    [Pg.311]    [Pg.336]    [Pg.64]    [Pg.68]    [Pg.72]    [Pg.84]    [Pg.174]    [Pg.738]    [Pg.325]    [Pg.384]    [Pg.494]    [Pg.58]   


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Definition of the Problem and Experimental Details

Experimental problems

Position of the problem and experimental approach

Problems Related with Experimental Procedures and Data Analysis

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