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Statements

Subject Item
n2:RIV%2F46747885%3A24620%2F14%3A%230000654%21RIV15-MSM-24620___
rdf:type
n10:Vysledek skos:Concept
dcterms:description
An increase in the production of production lines for inorganic nanofibres is a very complicated and complex problem that depends on the intensity of the electrostatic field. This complex system may show, under given input and output conditions, variable and nearly chaotic behaviour that may consequently cause fluctuations in the electric field intensity manifested by reduced efficiency of the process. An increase in the intensity of the electrostatic field may be carried out by known methods, for example by increasing the electric potential, changing of the environmental conductivity between the electrodes through changing the relative humidity or by replacing the air with an inert gas. However, the higher total intensity of the electrostatic field may not lead to an increase in process efficiency or productivity. This is due to the fact that the main parameter is involved especially in the spatial intensity distribution of the electrostatic field. Other important parameters having an impact on the optimum process are the distance and the type of electrodes, the chemical structure and properties of the polymer solution, ambient temperature, intensity of vapour removal and others. Through TRIZ tools the influence of the polymer reservoir geometry on the electrostatic field distribution were studied. The structural geometry of the polymer reservoir carries a rotating electrode. The rotation creates a thin layer of the polymer on the surface of the roller, but it also stirs the solution - Nanospider principle. It was found that the geometric design and the relative permittivity of the used construction materials have a significant effect on the final distribution and the maximum electric field intensity at a given electric potential. The resulting intensity of the electric field can be understood as a system that is described by a complexity. An increase in the production of production lines for inorganic nanofibres is a very complicated and complex problem that depends on the intensity of the electrostatic field. This complex system may show, under given input and output conditions, variable and nearly chaotic behaviour that may consequently cause fluctuations in the electric field intensity manifested by reduced efficiency of the process. An increase in the intensity of the electrostatic field may be carried out by known methods, for example by increasing the electric potential, changing of the environmental conductivity between the electrodes through changing the relative humidity or by replacing the air with an inert gas. However, the higher total intensity of the electrostatic field may not lead to an increase in process efficiency or productivity. This is due to the fact that the main parameter is involved especially in the spatial intensity distribution of the electrostatic field. Other important parameters having an impact on the optimum process are the distance and the type of electrodes, the chemical structure and properties of the polymer solution, ambient temperature, intensity of vapour removal and others. Through TRIZ tools the influence of the polymer reservoir geometry on the electrostatic field distribution were studied. The structural geometry of the polymer reservoir carries a rotating electrode. The rotation creates a thin layer of the polymer on the surface of the roller, but it also stirs the solution - Nanospider principle. It was found that the geometric design and the relative permittivity of the used construction materials have a significant effect on the final distribution and the maximum electric field intensity at a given electric potential. The resulting intensity of the electric field can be understood as a system that is described by a complexity.
dcterms:title
System Solutions for Increasing Nanofibre Production through Triz System Solutions for Increasing Nanofibre Production through Triz
skos:prefLabel
System Solutions for Increasing Nanofibre Production through Triz System Solutions for Increasing Nanofibre Production through Triz
skos:notation
RIV/46747885:24620/14:#0000654!RIV15-MSM-24620___
n3:aktivita
n14:I n14:P
n3:aktivity
I, P(EE2.3.30.0024), P(EE2.3.30.0065), P(LO1201)
n3:cisloPeriodika
1
n3:dodaniDat
n12:2015
n3:domaciTvurceVysledku
n5:1617036
n3:druhVysledku
n13:J
n3:duvernostUdaju
n11:S
n3:entitaPredkladatele
n15:predkladatel
n3:idSjednocenehoVysledku
49182
n3:idVysledku
RIV/46747885:24620/14:#0000654
n3:jazykVysledku
n18:eng
n3:klicovaSlova
TRIZ; productivity; production line; nanofibres
n3:klicoveSlovo
n4:productivity n4:nanofibres n4:production%20line n4:TRIZ
n3:kodStatuVydavatele
DK - Dánské království
n3:kontrolniKodProRIV
[F16DAD1F003B]
n3:nazevZdroje
Journal of the European TRIZ Association INNOVATOR
n3:obor
n17:JQ
n3:pocetDomacichTvurcuVysledku
1
n3:pocetTvurcuVysledku
4
n3:projekt
n6:LO1201 n6:EE2.3.30.0065 n6:EE2.3.30.0024
n3:rokUplatneniVysledku
n12:2014
n3:svazekPeriodika
1
n3:tvurceVysledku
Novák, Ondřej Ševčík, Ladislav Petrů, Michal Lepšík, Petr
s:issn
1866-4180
s:numberOfPages
6
n16:organizacniJednotka
24620