Standard

Mechanism of overhumidification of layer surface during pellet drying on the firing machine. / Bokovikov, B. A.; Solodukhin, A. A.; Malkin, V. M. и др.
в: Stal', № 2, 2005, стр. 28-30.

Результаты исследований: Вклад в журналСтатьяРецензирование

Harvard

Bokovikov, BA, Solodukhin, AA, Malkin, VM, Avdeenko, AA & Yaroshenko, YG 2005, 'Mechanism of overhumidification of layer surface during pellet drying on the firing machine', Stal', № 2, стр. 28-30.

APA

Bokovikov, B. A., Solodukhin, A. A., Malkin, V. M., Avdeenko, A. A., & Yaroshenko, Y. G. (2005). Mechanism of overhumidification of layer surface during pellet drying on the firing machine. Stal', (2), 28-30.

Vancouver

Bokovikov BA, Solodukhin AA, Malkin VM, Avdeenko AA, Yaroshenko YG. Mechanism of overhumidification of layer surface during pellet drying on the firing machine. Stal'. 2005;(2):28-30.

Author

Bokovikov, B. A. ; Solodukhin, A. A. ; Malkin, V. M. и др. / Mechanism of overhumidification of layer surface during pellet drying on the firing machine. в: Stal'. 2005 ; № 2. стр. 28-30.

BibTeX

@article{3dc57ba61f054423972aebcbde9cb7e2,
title = "Mechanism of overhumidification of layer surface during pellet drying on the firing machine",
abstract = "Process of pellet drying on the firing conveyer belt machine has been considered. Phenomenon of 'free moisture' has been discussed. It has been shown that the pellets can absorb the free moisture. This leads to overhumidification of layer surface. Mathematical model of the moisture increase in layer surface has been developed with the use of differential equations. Coefficient of water carry-over in gas flow has been evaluated. Amount of removed free moisture has been determined. It has been noted that decrease in temperature of gas supplied to the drying zone cannot be permissible. Volume of the gas should be increased.",
author = "Bokovikov, {B. A.} and Solodukhin, {A. A.} and Malkin, {V. M.} and Avdeenko, {A. A.} and Yaroshenko, {Yu. G.}",
year = "2005",
language = "Русский",
pages = "28--30",
journal = "Stal'",
issn = "0038-920X",
publisher = "Общество с ограниченной ответственностью {"}Интермет Инжиниринг{"}",
number = "2",

}

RIS

TY - JOUR

T1 - Mechanism of overhumidification of layer surface during pellet drying on the firing machine

AU - Bokovikov, B. A.

AU - Solodukhin, A. A.

AU - Malkin, V. M.

AU - Avdeenko, A. A.

AU - Yaroshenko, Yu. G.

PY - 2005

Y1 - 2005

N2 - Process of pellet drying on the firing conveyer belt machine has been considered. Phenomenon of 'free moisture' has been discussed. It has been shown that the pellets can absorb the free moisture. This leads to overhumidification of layer surface. Mathematical model of the moisture increase in layer surface has been developed with the use of differential equations. Coefficient of water carry-over in gas flow has been evaluated. Amount of removed free moisture has been determined. It has been noted that decrease in temperature of gas supplied to the drying zone cannot be permissible. Volume of the gas should be increased.

AB - Process of pellet drying on the firing conveyer belt machine has been considered. Phenomenon of 'free moisture' has been discussed. It has been shown that the pellets can absorb the free moisture. This leads to overhumidification of layer surface. Mathematical model of the moisture increase in layer surface has been developed with the use of differential equations. Coefficient of water carry-over in gas flow has been evaluated. Amount of removed free moisture has been determined. It has been noted that decrease in temperature of gas supplied to the drying zone cannot be permissible. Volume of the gas should be increased.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=24744462069

M3 - Статья

SP - 28

EP - 30

JO - Stal'

JF - Stal'

SN - 0038-920X

IS - 2

ER -

ID: 42300699