Jancík Petr: Dynamický model rozptylu
znecištujících látek v ovzduší a GIS, GIS Oppava 99, Oppava, 1999, pp
229-243, ISSN 1211-4855
Dynamic Air Pollution Model and GIS
Annotation:
The interconnection of Computer Fluid Dynamic (CFD) model and
GIS, the prototypical interconnection in 1998. Results comparison of the SYMOS
97 statistical model and the Fluidyn Panache dynamic model for flat terrain. The
advantages of using GIS as a data source for border conditions in real terrain dynamic
modeling.
Jancík Petr, Kozubková Milada, Drábková Sylva:
Úloha GIS pri numerickém modelování
rozptylu lehkého a težkého plynu., Ovzduší 99,
Brno, February 1999, ISBN 80-210-2018-0
The Role of GIS in Numerical Modeling of Heavy and Light Gases
Dispersion.
Annotation:
The interconnection of CFD Fluidyn Panache S/W and GIS. Testing of chlorine and ammonia
modeling. The comparison of the test results in GIS environment. The comparison of the
test results with statistical modeling results. Differences in test results close to
buildings.
Danihelka Pavel, Jancík Petr, Kozubková Milada, Drábková
Sylva: Numerical
Modeling of Toxic Cloud Dispersion and Geographic Information System, International
Conference on Induppial Safety and Emergency Planning, Balatonfüred, Hungaria, May 1999
Modelování rozptylu toxického mraku a GIS
Annotation:
The use of modern information technologies for the prediction of
accident consequences. Tests of the GIS and the dynamic model (Fluidyn Pnache)
interconnection. The expression of dynamic release of air pollutant, the evolution of the
polution with time, the influence of buildings.
Jancík Petr, Obroucka Karel: Využití moderních informacních technologií pro
ochranu životního prostredí v metalurgii, casopis Hutnické listy, rocník LIV
- 1999,c. 7/8, pp.141-144., ISSN 0018-8069
Using of Modern Information Technologies
for Environmental Protection in Metallurgy
Annotation:
New top laboratory for exploitation of
new information technologies for environmental protection on Department of Environmental
Protection in Induppy. Geographic Information Systems (GIS). Statistic and dynamic air
pollution models(Fluidyn Panache, Fluent). Using of Internet/Intranet for access to
spatial data. Examples of solved projects.
Jancík Petr: GIS a dynamický model rozptylu znecištujících látek
v ovzduší, casopis GEOinfo roc. 1999, 6,
pp. 18 –21 ISSN 1212-4311
GIS and Dynamic Air Pollution Model
Annotation:
The prototypical interconnection of the dynamic air pollution
model(Fluidyn Panache) and GIS. The use of GIS as a data source for
border conditions. GIS applications for the automated data preparation using the ZABAGED1
standard. GIS as a tool for 3D presentation of results of dynamic modeling in real
terrain.
Jancík Petr: Možnosti
modelování rozptylu znecištujících látek v ovzduší v komplexním
terénu a v zástavbe, konference GIS Oppava 2000
Possibilities
of Modeling of Air Pollution Spreading in Complex Terrain and in Urban Areas
Annotation:
Pri testování dynamického modelu
se vyskytly se problémy s velikostí výpoctové síte (limity použité
výpocetní techniky trídy PC) zpusobené clenitostí terénu. Ukázala se nutnost
generalizace terénu. Prokázala se nutnost použití GIS jako zdroje dat pro
okrajové podmínky dynamického modelování v reálném terénu.
There
were problems during testing of dynamic model caused by size of computing network. The
terrain generalization was needed. GIS was important as a data source for border
conditions for dynamic modeling in real terrain.
Jancík Petr: Dynamické
modelování šírení znecištujících látek v ovzduší a GIS, ESRI
User Conference, San Diego 2000, USA
Dynamic
Air Pollution Model and GIS
Annotation:
GIS is a source of spatial data for border conditions for CFD
(computer fluid dynamics). Automatic creation of those conditions for modeling is now
possible thanks AML modules in ArcInfo. GIS can also automatically separate results of
modeling from CFD output files(Fluidyn Panache) and convert them to ArcInfo coverages.
Than is possible to show them in 3D (flow vectors) in real space using ArcView 3D analyst.
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