Mathematical Modelling of Mass and Charge Transport and Reaction in the Central Membrane of the IDEAL-Cell

Mathematical modelling is reaching a high acceptance level within the glass industry. Today most new furnaces are being modelled before the final design is decided. It is clear that the modelling helps to optimise the furnace in respect to glass quality, energy efficiency and furnace life-time. The extra effort of the modelling is leading for sure to a quick pay-back of this extra investment and an increased profit over the furnace life-time. Even the furnace life-time can be extended with better insight on temperature distribution and glass speeds that corrode the refractory. Many glass produces are always asking us: “what is the optimal glass depth”? There is not just one answer to this, but the paper demonstrates how mathematical modelling can help to find the optimal furnace depth for a certain furnace design.

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Charge Transport in Dilute Aluminum Alloys

Canadian Journal of Physics ◽

10.1139/p75-216 ◽

1975 ◽

Vol 53 (18) ◽

pp. 1693-1704 ◽

Cited By ~ 3

Author(s):

F. W. Kus ◽

J. P. Carbotte

Keyword(s):

Experimental Data ◽

Electrical Resistivity ◽

Aluminum Alloys ◽

Charge Transport ◽

Impurity Scattering ◽

Major Effect ◽

Pure Metal ◽

Matthiessen's Rule ◽

Matthiessen’S Rule ◽

The Ideal

We have calculated the electrical resistivity of several dilute aluminum based alloys for which experimental data exist on the deviation from Matthiessen's rule(DMR). We take account of the anisotropy in the ideal (pure metal) scattering and its modification on adding impurities. This is a major source of DMR. In addition, we compute the effect of inelastic impurity scattering, interference between impurity and ideal scattering, Debye–Waller factors, and also the effect of mass changes on the alloy resistivity. While some of these mechanisms for DMR can be of importance under specific conditions, they should be included only after the major effect of anisotropy in the ideal scattering has been properly treated.

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CHAPTER 9. Mathematical Modelling and Simulations for Using Nanotubes and Graphene for Ultrafiltration and Molecular and Charge Transport

Ambipolar Materials and Devices - Smart Materials Series ◽

10.1039/9781788019279-00214 ◽

2020 ◽

pp. 214-225

Author(s):

Yue Chan

Keyword(s):

Mathematical Modelling ◽

Charge Transport ◽

Modelling And Simulations

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Analysis of the mathematical modelling of a static expansion system

ACTA IMEKO ◽

10.21014/acta_imeko.v10i3.1061 ◽

2021 ◽

Vol 10 (3) ◽

pp. 185

Author(s):

Carlos Mauricio Villamizar Mora ◽

Jonathan Javier Duarte Franco ◽

Victor Jose Manrique Moreno ◽

Carlos Eduardo García Sánchez

Keyword(s):

Mathematical Modelling ◽

Design Process ◽

High Vacuum ◽

Ideal Gas ◽

Absolute Pressure ◽

Residual Pressure ◽

High Importance ◽

Expansion System ◽

Ideal Gas Model ◽

The Ideal

Static expansion systems are used to generate pressures in medium and high vacuum and are used in the calibration of absolute pressure meters in these pressure ranges. In the present study, the suitability of different models to represent the final pressures in a static expansion system with two tanks is analysed. It is concluded that the use of the ideal gas model is adequate in most simulated conditions, while the assumption that the residual pressure is zero before expansion presents problems under certain conditions. An uncertainty analysis of the process is carried out, which leads to evidence of the high importance of uncertainty in a first expansion over subsequent expansion processes. Finally, an analysis of the expansion system based on uncertainty is carried out to estimate the effect of the metrological characteristics of the measurements of the input quantities. Said design process can make it possible to determine a set of restrictions on the uncertainties of the input quantities.

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Localization of Intracellular Antigens in thin Sections with Ferritin Labeled Antibody

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100067868 ◽

1970 ◽

Vol 28 ◽

pp. 174-175

Author(s):

M.S. Shahrabadi ◽

T. Yamamoto

Keyword(s):

Bovine Serum Albumin ◽

Bovine Serum ◽

Antigenic Determinants ◽

Conjugate Prior ◽

Thin Sections ◽

Specific Attachment ◽

Intracellular Antigen ◽

Antigen Antibody ◽

Ideal Method ◽

The Ideal

The technique of labeling of macromolecules with ferritin conjugated antibody has been successfully used for extracellular antigen by means of staining the specimen with conjugate prior to fixation and embedding. However, the ideal method to determine the location of intracellular antigen would be to do the antigen-antibody reaction in thin sections. This technique contains inherent problems such as the destruction of antigenic determinants during fixation or embedding and the non-specific attachment of conjugate to the embedding media. Certain embedding media such as polyampholytes (2) or cross-linked bovine serum albumin (3) have been introduced to overcome some of these problems.

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Criteria and Methods for Reliable Three-Dimensional Image Reconstruction

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100051669 ◽

1974 ◽

Vol 32 ◽

pp. 330-331

Author(s):

R. A. Crowther

Keyword(s):

Image Reconstruction ◽

Finite Number ◽

Density Distribution ◽

Electron Micrographs ◽

Mathematical Problem ◽

Three Dimensional ◽

Ideal Case ◽

Dimensional Image ◽

General Object ◽

The Ideal

The reconstruction of a three-dimensional image of a specimen from a set of electron micrographs reduces, under certain assumptions about the imaging process in the microscope, to the mathematical problem of reconstructing a density distribution from a set of its plane projections.In the absence of noise we can formulate a purely geometrical criterion, which, for a general object, fixes the resolution attainable from a given finite number of views in terms of the size of the object. For simplicity we take the ideal case of projections collected by a series of m equally spaced tilts about a single axis.

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X-Ray Analysis of Frozen Hydrated Sections:The Unconventional Approach

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100056065 ◽

1982 ◽

Vol 40 ◽

pp. 754-757

Author(s):

R. Beeuwkes ◽

A. Saubermann ◽

P. Echlin ◽

S. Churchill

Keyword(s):

Ratio Method ◽

Frozen Sections ◽

Technical Problems ◽

Sample Handling ◽

X Ray ◽

Common Group ◽

Ideal Method ◽

Classic Paper ◽

Physical Principles ◽

The Ideal

Fifteen years ago, Hall described clearly the advantages of the thin section approach to biological x-ray microanalysis, and described clearly the ratio method for quantitive analysis in such preparations. In this now classic paper, he also made it clear that the ideal method of sample preparation would involve only freezing and sectioning at low temperature. Subsequently, Hall and his coworkers, as well as others, have applied themselves to the task of direct x-ray microanalysis of frozen sections. To achieve this goal, different methodological approachs have been developed as different groups sought solutions to a common group of technical problems. This report describes some of these problems and indicates the specific approaches and procedures developed by our group in order to overcome them. We acknowledge that the techniques evolved by our group are quite different from earlier approaches to cryomicrotomy and sample handling, hence the title of our paper. However, such departures from tradition have been based upon our attempt to apply basic physical principles to the processes involved. We feel we have demonstrated that such a break with tradition has valuable consequences.

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High Resolution Study of Polytypism: Application to SiC and Au3 Mn

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100055540 ◽

1982 ◽

Vol 40 ◽

pp. 540-541

Author(s):

G. Van Tendeloo ◽

J. Van Landuyt ◽

S. Amelinckx

Keyword(s):

Electron Microscopy ◽

High Resolution ◽

Stacking Sequence ◽

X Ray ◽

Powerful Technique ◽

Resolution Study ◽

The Ideal

Polytypism has been studied for a number of years and a wide variety of stacking sequences has been detected and analysed. SiC is the prototype material in this respect; see e.g. Electron microscopy under high resolution conditions when combined with x-ray measurements is a very powerful technique to elucidate the correct stacking sequence or to study polytype transformations and deviations from the ideal stacking sequence.

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