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Mathematical Modeling of Hydride Formation (Chapter 9). / Chernov, Ilya A.; Gabis, Igor E.

Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series). Nova Science Publishers, Inc., 2011. p. 288, 203-246.

Research output: Chapter in Book/Report/Conference proceedingChapter

Harvard

Chernov, IA & Gabis, IE 2011, Mathematical Modeling of Hydride Formation (Chapter 9). in Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series). Nova Science Publishers, Inc., pp. 288, 203-246. <https://www.novapublishers.com/catalog/product_info.php?products_id=12167>

APA

Chernov, I. A., & Gabis, I. E. (2011). Mathematical Modeling of Hydride Formation (Chapter 9). In Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series) (pp. 288, 203-246). Nova Science Publishers, Inc.. https://www.novapublishers.com/catalog/product_info.php?products_id=12167

Vancouver

Chernov IA, Gabis IE. Mathematical Modeling of Hydride Formation (Chapter 9). In Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series). Nova Science Publishers, Inc. 2011. p. 288, 203-246

Author

Chernov, Ilya A. ; Gabis, Igor E. / Mathematical Modeling of Hydride Formation (Chapter 9). Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series). Nova Science Publishers, Inc., 2011. pp. 288, 203-246

BibTeX

@inbook{910a5f03e63e4ba5a50ab0ad7c369597,
title = "Mathematical Modeling of Hydride Formation (Chapter 9)",
abstract = "In the chapter we consider some mathematical models of hydriding of metal powders. The aim of the mathematical modelling is to choose the most significant factors in order to construct adequate but rather simple models. We describe the process of non-metal hydride formation for a single particle and focus on the case of hydriding with formation of a hydride skin on the surface of a particle. Mathematical models are constructed for this case. We present the results of fitting the series of experimental curves in order to estimate kinetic parameters and study the influence of the powder particles{\textquoteright} shape. It is shown that different shapes provide similar results and thus the shape is insignificant. Then we add some factors, previously not taken into account: changing pressure, heat releasing effects accompanied by changing temperature, different heat capacities of metal and hydride phases and hydrogen, and formation of higher hydrides. Significant release of heat during hydriding is an important problem when con",
author = "Chernov, {Ilya A.} and Gabis, {Igor E.}",
year = "2011",
language = "English",
isbn = "978-1-61668-681-9",
pages = "288, 203--246",
booktitle = "Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series)",
publisher = "Nova Science Publishers, Inc.",
address = "United States",

}

RIS

TY - CHAP

T1 - Mathematical Modeling of Hydride Formation (Chapter 9)

AU - Chernov, Ilya A.

AU - Gabis, Igor E.

PY - 2011

Y1 - 2011

N2 - In the chapter we consider some mathematical models of hydriding of metal powders. The aim of the mathematical modelling is to choose the most significant factors in order to construct adequate but rather simple models. We describe the process of non-metal hydride formation for a single particle and focus on the case of hydriding with formation of a hydride skin on the surface of a particle. Mathematical models are constructed for this case. We present the results of fitting the series of experimental curves in order to estimate kinetic parameters and study the influence of the powder particles’ shape. It is shown that different shapes provide similar results and thus the shape is insignificant. Then we add some factors, previously not taken into account: changing pressure, heat releasing effects accompanied by changing temperature, different heat capacities of metal and hydride phases and hydrogen, and formation of higher hydrides. Significant release of heat during hydriding is an important problem when con

AB - In the chapter we consider some mathematical models of hydriding of metal powders. The aim of the mathematical modelling is to choose the most significant factors in order to construct adequate but rather simple models. We describe the process of non-metal hydride formation for a single particle and focus on the case of hydriding with formation of a hydride skin on the surface of a particle. Mathematical models are constructed for this case. We present the results of fitting the series of experimental curves in order to estimate kinetic parameters and study the influence of the powder particles’ shape. It is shown that different shapes provide similar results and thus the shape is insignificant. Then we add some factors, previously not taken into account: changing pressure, heat releasing effects accompanied by changing temperature, different heat capacities of metal and hydride phases and hydrogen, and formation of higher hydrides. Significant release of heat during hydriding is an important problem when con

M3 - Chapter

SN - 978-1-61668-681-9

SP - 288, 203-246

BT - Mathematical Modeling, Clustering Algorithms and Applications/ Ed. by Caroline L. Wilson. - (Mathematics Research Developments Series)

PB - Nova Science Publishers, Inc.

ER -

ID: 4418111