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Brief description of the RODOS installation PV6.0 draft 1.0
Brief description of the RODOS installation PV6.0 final
Wolfgang Raskob
Brief description of the RODOS installation PV6.0 final..................... 1
1 Introduction...................................................................................... 2
2 Major changes in RODOS 6 ............................................................ 4 2.1 ADM (LSMC, QUICKPRO) ...................................................................... 4 2.2 EMERSIM .................................................................................................. 5 2.3 Exercise preparation module....................................................................... 5 2.4 LCMT ......................................................................................................... 5 2.5 DEMM........................................................................................................ 6 2.6 FOMM........................................................................................................ 6 2.7 WEB-Hipre ................................................................................................. 6 2.8 FDMT ......................................................................................................... 7 2.9 LCMF ......................................................................................................... 7 2.10 Automatic Mode ....................................................................................... 7 2.11 Modules with major changes in input windows ........................................ 7 2.12 New system functionalities ....................................................................... 8
3 Programs installed:......................................................................... 10 3.1 ASY .......................................................................................................... 10 3.2 CSY........................................................................................................... 10 3.3 ESY........................................................................................................... 10
4 Dependencies modules - data......................................................... 11 4.1 Interactive flow chart without data assimilation features .......................... 11 4.2 Interactive flow chart for the data assimilation modules........................... 12 4.3 Near range ADM (LSMC, QUICKPRO).................................................. 13 4.4 Far range ADM (MATCH) ....................................................................... 14 4.5 DEMM...................................................................................................... 15 4.6 FDMT ....................................................................................................... 16 4.7 FDMF ....................................................................................................... 17 4.8 FDMH....................................................................................................... 18 4.9 Food Monitoring Module FOMM............................................................. 19 4.10 EMERSIM .............................................................................................. 20 4.11 EARLYCONS......................................................................................... 21 4.12 LCMT ..................................................................................................... 22 4.13 LCMF ..................................................................................................... 23 4.14 LATECONS............................................................................................ 24 4.15 Web-HIPRE............................................................................................ 25 4.16 Sequence of models in emergency mode ................................................ 26
5 Data bases ...................................................................................... 27 5.1 RoGIS ....................................................................................................... 27
Brief description of the RODOS installation PV6.0 final draft 1.0
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1 Introduction
The following summarises the content of the RODOS version PV 6.0
final, delivered in August 2007. As in the previous version, separate
package contain the RODOS WebServer which is required for the B-
user functionality and the evaluation tool Web-Hipre. The hydrological
model chain is not part of this distribution.
A major change compared to former RODOS versions is the
implementation of the new user friendly user interface called RODOS-
Lite. This interface written in the JAVA language allows to define runs
for the early phase modules without the selection of the model itself. It
contains a guided input path which is always controlled by the system
and therefore allows to correct mistakes during the input process. The
still existing A-type user interface can be run in parallel as RODOS-
Lite was designed for the use in the first hours only. However, having
expanded its functionality, RODOS-Lite can be used as long as no
intensive interaction with Automatic mode functionalities are foreseen
and late phase models such as LCMT and LCMF are not of interest.
The content of this description concentrates on the models and does not
cover the WebServer and its functions as both can be installed
independently.
To run the RODOS modules, HP-UX 11 is mandatory as several
models are programmed in FORTRAN 90 and the runtime libraries are
not delivered with HP-UX-10.20.
The following models were added or modified in its functionalities:
• Improved user interface RODOS-Lite implemented for the early
phase application of RODOS
• The ADM modules (ALSMC + QUICKPRO) were expanded to
cover 25 calculation nuclides
• The ADM modules (ALSMC + QUICKPRO) use three
different time steps (10, 30 and 60 minutes)
• The ADM modules (ALSMC + QUICKPRO) consider now
mobile locations for transport accidents and radiation dispersal
devices
• Country specific intervention criteria for early phase actions are
considered now in RODOS (defaults for all European countries
are implemented)
• The data assimilation modules DEMM and FoMM contain
more functionalities
• Screening of foodstuffs to identify those above reference levels
has been added as new feature to FDMT.
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• LCMT delivers evaluation results for relocation,
decontamination and food separately to Web-HIPRE
• The evaluation tool Web-HIPRE has been expanded to start
now with a limited attribute tree which can be expanded with
the complete tree. In addition background information from the
EURANOS countermeasure templates are added. Web-Hipre is
integral part of the RODOS delivery, but has to be installed
individually following the installation of the WebServer.
• An Exercise preparation model was added as art of the
EMERSIM module. Input to this model is art of special input
windows in RODOS-Lite
The following functionalities were added to the system:
• The system can be started without any password
• The XML file created by RODOS-Lite can be used as start for
RODOS calculations. This allows to start the system in a
special mode from outside the centre by transferring this file
into a distinct directory.
• Graphics functionalities were improved with direct transfer of
graphical results to the Graphics window. A loop function for
displaying results were added
• The language used in the model results can be customised via
the National Language Support functionalities
• The colours of the graphical results can be customised
Specific description of these changes can be found in the various user
guides and the document for the adaptation of the system to national
conditions.
Brief description of the RODOS installation PV6.0 final draft 1.0
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2 Major changes in RODOS 6 final
The following RODOS modules were affected by major changes
compared to version 6 delivered in April 2004.
Specific description of these changes can be found in the various user
guides and the document for the adaptation of the system to national
conditions.
2.1 ADM (LSMC, QUICKPRO)
The ADM module can be started individually as part of the A-type user
interface or as a chain of models inside RODOS-Lite.
The following changes were implemented
• Before, the duration of the ADM time step was always fixed to
30 minutes. Now, there is also the possibility to choose a time
step length of either 10 minutes or 60 minutes.
• It is now possible to apply country-specific intervention criteria
for the early countermeasures sheltering, evacuation, and iodine
tablets.
• It is now possible to consider not only nuclear accidents, but
also the explosion of a radiological dispersion device (RDD-
Explosion). The selection of the accident type is made via the
site selection.
• It is now possible to consider considering a radiological
accident associated with a fire, for example, an accident with
the inflammation of gasoline during road transport of
radiological sources for industrial, medicinal, scientific or
public purposes, of radioactive waste, of fissile materials for the
nuclear fuel cycle, or of nuclear weapons (RAC-with-Fire).
• RODOS can perform the near range calculations with 1 to 25
nuclides
• RODOS considers country-specific intervention criteria for
sheltering, evacuation, and iodine tablets. The term
“countermeasure criteria” for the ADM-model comprises the
dose concept (projected or averted dose), and the exposure
pathways considered for each organ, and the integration times,
for the comparison with the intervention levels for early
countermeasures. The numerical value of the intervention levels
themselves are subject of the early countermeasure model
EmerSim of RODOS. By default, the countermeasure criteria of
the country where RODOS is installed are applied. However, it
is possible to select the criteria of another country, or to modify
the criteria of a selected country.
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• The vertically released volume flux and the vent area of the
release to the atmosphere was added to the source term input
2.2 EMERSIM
As before, the early emergency simulation module EMERSIM is based
on the results of an ADM run. This can be either QUICKPRO or
LSMC. EMERSIM is part of the RODOS-Lite user interface or can be
accessed via the A-type user interface. Major changes are:
• Country specific intervention criteria for sheltering, evacuation,
and iodine tablets can be modified within EMERSIM, whereas
the exposure pathways and integration times are part of the
definition filled in in the ADM input windows.
• EMERSIM calculates specific results for the exercise
preparation module. Input for the module is considered as
specific part of the RODOS-Lite user interface.
2.3 Exercise preparation module
Input of the module is realised within RODOS-Lite where you can
define
• Locations of monitors
• Time resolution of results for dose rates and nuclide specific
ground contamination
• Location of the emergency care centre
• Parameters of the emergency care centre
Output are doses and concentrations at the defined locations as well as
people approaching the emergency care centre with dose histories.
They can be used to simulate players in exercises which come to such a
centre from differently contaminated areas. Results are available in the
“outall” directory.
2.4 LCMT
LCMT has various usability enhancements over previous versions,
identified and implemented under the EVATECH project. These
include:
• The user may select a subset of the food passed from FDMT to
analyse. In previous versions, LCMT either performed
calculations for all foods passed or, in ESY mode, performed
calculations for just one food.
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• There is no longer a specific ESY (evaluation subsystem) mode
for agricultural countermeasures.
• The user creates a large ESY file – a comprehensive set of
endpoints – and a very much smaller ESY file.
• The “disposal and stopping production” agricultural
countermeasure has been modified to produce endpoints
comparable with other agricultural countermeasures.
• The agricultural countermeasures “change of crop” and “change
of land use” have been implemented.
• Additional run information is stored with each run and with
each individual countermeasure within each run.
2.5 DEMM
The task of the Deposition Monitoring Module DEMM is to update the
predicted total (dry + wet) deposition on the ground and on all kinds of
plant surfaces. The predicted deposition data is calculated with a
deposition model using results from atmospheric dispersion modeling.
The update is based on measurements of net gamma dose rates after the
deposition process has ended. DEMM can be configured via a special
configuration file located in the directory
“~rodos/roextern/data/demm”. This file “demm.config” contains
selections for a twin experiment mode in which DEMM is running for
demonstration purposes.
Constraints are the still missing link to the data assimilation version of
the ADM (RIMPUFF).
2.6 FOMM
In its present version, the coupling to FDMT has been realised.
2.7 WEB-Hipre
Web-HIPRE (HIerarchical PREference analysis in the World Wide
Web) is a Java-based software for decision analytic problem
structuring, multi-criteria evaluation and prioritisation. It will be
accessed via the RODOS WeServer and is running in a web browser. It
can be applied to results of LCMT. Starting point is a limited attribute
tree which can be expanded with the complete set of attributes
delivered by LCMT. In its current version it also contains background
information about the countermeasures which are part of the
EURANOS compendia. Web-Hipre is integral part of the RODOS
delivery, but has to be installed individually following the installation
of the WebServer.
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2.8 FDMT
Food screening mode: Food contamination is calculated for all raw
foodstuffs and four nuclide groups and compared against EU reference
level. Results are given in one overview text file and map graphs for all
food-nuclide combinations above the reference level (optional).
A Result table showing contributions of pathways / nuclide groups to
the total dose can be calculated for the location of the maximum of the
total dose
Information about maximum value and date of max. value is given in
in legend for maps of food contamination.
The location can be selected for time plots (either the loc. with the
maximum – as before - or an arbitrary loc. defined by the RODOS grid
cell number).
New output for deposition for nuclide group.
Language of all FDMT GUI and graphic output fully depends now on
RODOS language selection.
FDMT can be configured via a special configuration file located in the
directory “~rodos/roextern/data/fdm”. This file “config.txt” contains
selections for the definition of standard results and interface definitions
related to other modules (e.g. LCMT) or output (e.g. Google Earth).
FDMT is the first RODOS module in which an interface to Google
Earth is realised. The file created there (can be found in the outall
directory) can be imported into Google Earth for displaying there.
2.9 LCMF
The revision of the programme code of FDMF has an effect on the
input data of LCMF (see 4.7 FDMF).
2.10 Automatic Mode
The time step in the automatic mode is now fixed to one hour to speed
up the computation time
2.11 Modules with major changes in input windows
The following major changes in the input windows took place for the
following modules
• RODOS-Lite:
Advanced user interface for the application of RODOS in
the early phase of an emergency. It contains guided input
for the ADM and EMERSIM. Standard results of FDMT
Brief description of the RODOS installation PV6.0 final draft 1.0
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and LCMT can be also requested, however no input mask is
foreseen
• ADM:
Input of the country specific intervention criteria
• EMERSIM
Input of the country specific intervention criteria
2.12 New system functionalities
2.12.1 RODOS-Lite
Based on the feedback by the users community, collected within the
RODOS Users Group (RUG), the so called RODOS Lite version of
RODOS was developed. This comprised mainly the development of a
Java based graphical user interface, designed by the RUG. Modules
affected are the ADM (ALSMC), the early phase countermeasure
simulation module (EMERSIM) and the foodchain module FDMT.
RODOS-Lite provides a set of input tabs which complete the necessary
input step by step. Whenever a tab is completed, the input will be
checked if consistent. RODOS-Lite offers the possibility to change the
language and time zone and is in this way fully customisable to
national conditions
2.12.2 Modem
The MODEM software was developed as a data and information
exchange tool for interconnecting decision support systems (DSSs).
The kernel of the prototype for data and information exchange consists
of the MODEM Server which collects information from the various
decision support systems (DSS) and distribute this information to other
servers subscribed to the MODEM network. A local MODEM Server
has to be configured for each DSS. This server collects the information
and distributes it to the local MODEM Servers of the other DSS. Once
distributed, any DSS with a local MODEM Server can download the
information and use it for its own purposes, e.g. perform runs with the
information provided or displaying results if available.
Tasks of the MODEM Server consist of:
• Message creation via a web interface.
• Automatic message creation and sending as a result of
information provided by a DSS.
• Message exchange had to be secured while being sent over
Internet
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• For each message sent in the system a correspondent e-mail
notification message has to be transmitted
• Experts from emergency centres have to be able to send,
receive, view and edit messages. Messages could be imported
and exported to/from decision support systems
In addition, services have to be provided to collect the necessary
information at the local DSS and transfer them to the local MODEM
host.
2.12.3 Core system
When starting the RODOS system, two options are provide
• “runrodos” starts the system in the A-type user windows mode
• “runrodosL” starts the system in the in a dual mode with the
possibility to select the RODOS-Lite mode or the A-type user
windows mode
In addition, RODOS can be started now with or without password.
XML files generated and stored by RODOS-Lite can be used as input
to the system without approaching the user interfaces. Stored XML
files can be modified by a standard editor and send again to the system.
This allows generating batch jobs with existing XML files.
Extended National Language Support (NLS) has been added to the
simulation modules. This comprises the possibility
• to change the language for the table results in ADM and
EMERSIM
• to change the description of the graphical results for all
modules
• change the colour of the graphical results for ADM, EMERSIM
and FDMT
2.12.4 Graphics system
As part of the NLS, the colours o the results of the modules ALSMC,
FDMT and EMERSIM can be customised and defined for each country
separately
The results displayed in the graphics window can be displayed and
printed in portrait and landscape format.
An animation of the results was added for those results which are time
dependent
Results are send automatically to the graphics window when defined in
specific configuration files. These files are country dependent.
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3 Programs installed:
3.1 ASY
6.0 Name Comment
x
ALSMCdiagn Short range dispersion, new met. pre-processor, long term
capabilities, automatic mode, ATSTEP
x
ALSMCprogn Short range dispersion, new met. pre-processor, long term
capabilities, interactive mode, ATSTEP
x DEMM Data assimilation ground contamination
x DEPOM Deposition calculation for foodchain module FDMT, part of
program group FDMT
x FDMF Forest foodchain + dose
x FDMH Tritium foodchain + dose
x FDMT Main foodchain + dose, part of program group FDMT
x FOMM Data assimilation food contamination
x MATCH Long range dispersion, capability to read HIRLAM, ALADIN
and EZMW formats
x INT-MA-FDM Interface MATCH – FDMT
x QUICKPRO Short range dispersion, ATSTEP, one met. Station only
x MATCHVIEW Displays MATCH results in the graphics
x MATCH/LSMC Long range dispersion, based on output from LSMC
3.2 CSY
6.0 Name Comment
x EARLYCONS Consequences from early actions
x EMERSIM Early countermeasure module (evacuation, sheltering, iodine
tablets, relocation, action/no-action), detailed calculations only
for the last 24 hours!
x LATECONS Consequences from late actions
x LCMF Forest countermeasure module, based on FDMF
x LCMT Late countermeasures terrestrial (relocation, decontamination,
foodban), reduced number of feed- and foodstuffs as input from
FDMT
3.3 ESY
6.0 Name Comment
x Web-HIPRE Web based evaluation module, based on results from LCMT
Brief description of the RODOS installation PV6.0 final draft 1.0
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4 Dependencies modules - data
The basic installation 6.0 of the RODOS system contains only
terrestrial modules. The aquatic modules might be added when the
RODOS re-engineering is completed.
4.1 Interactive flow chart without data assimilation features
LSMC/
QUICKPRO
EMERSIM
EARLYCONS LATECONS
Match
FDMH
FDMF
FDMT(DEPOM,
FDMT)
LCMT LCMF
Web-HIPRE
ASY
CSY
ESY
Brief description of the RODOS installation PV6.0 final draft 1.0
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4.2 Interactive flow chart for the data assimilation modules
The data assimilation programs integrated in version 5 are for test-
operational use only. They demonstrate the potential to assimilate
gamma dose measurements for the determination of the ground
contamination (DEMM) and use measurements in food samples to
extrapolate the contamination at harvest (FOMM). DEMM can provide
input to the module FDMT (not program group) with an updated
ground contamination. A similar transfer of information is realised for
FOMM.
QUICKPRO
DEMM
FDMT
DEPOM
FOMM
ASYFDMT
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4.3 Near range ADM (LSMC, QUICKPRO)
QUICKPRO, ALSMC, RLSMC
Meteorological data
QUICKPRO only
user input
LSMC also met.
towers and forecast
data
Fixed data base
plant, source
term, inventory,
disp. and dep.,
nuclides and
doses
Concentrations
air and ground
(maps, nuclide
dependent)
Doses
dose + dose rates
for cloud, ground,
inhalation, skin
(maps)
Other
plume arrival,
wind field, tables
Provides input to:
EMERSIM, FDMT, FDMF,
FDMH and MATCH/LSMC
Input windows
nuclides, grid,
inventory, source
term, meteorology
Input data
Model flow
Main results
Atmospheric dispersion
Interface
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4.4 Far range ADM (MATCH)
The version MATCH/LSMC uses input directly from a previous
LSMC run and requires only user input about the duration of the run
and its endpoints.
MATCH
Meteorological data
meteorological
forecast data
Fixed data base
no input
Concentrations
air and ground
(maps, nuclide
dependent)
Doses
dose for cloud,
(maps)
Other
rain, temperature,
mixing height,
heat flux
Provides input to:
FDMT
Input windows
nuclides, grid,
source term
Input data
Model flow
Main results
Atmospheric dispersion - far range
Interface
Brief description of the RODOS installation PV6.0 final draft 1.0
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4.5 DEMM
The DEposition Monitoring Module DEMM allows the assimilation of
gamma dose measurements with results from the near range ADM to
estimate a more consistent radiological situation after the accident. It
can be also applied using only the monitoring results. In this mode,
only point information is displayed and no interpolation to provide an
aerial picture is provided
At present, no uncertainties are delivered by the ADM but the
connection to the real- time data base is established. However, the
features implemented can demonstrate how the tool would react under
certain boundary conditions.
DEMM
Results from ADM
ground
contamination
Measurements
simulated
gamma dose rate
measurements
Concentrations
ground (maps,
nuclide
dependent)
Doses
dose (maps,
nuclide
dependent)
Other
uncertainties
Provides input to:
FDMT
Input windows
uncertainties +
variations of
measuremnts +
predictions
Input data
Model flow
Main results
Deposition Monitoring Module
Interface
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4.6 FDMT
The present FDMT is a program group which contains two RODOS
modules, however, not visible for the user. DEPOM calculates the
deposition to soil and crops whereas the module FDMT calculates the
concentration in feed- and foodstuffs and the potential doses from all
exposure pathways. This subdivision is only visible when a load list is
created. In case the user defines a new list, the ADM provides data for
DEPOM and DEPOM delivers data to FDMT.
FDMT
Results from
QUICKPRO,
LSMC, MATCH,
DEMM, FOMM
Model data base
data should be
completed with
installation of
RODOS
Concentrations
map results + time
functions for feed-
and foodstuffs
(nuclide dep.)
Doses
potential ind. + coll.
doses (exposure
pathways, age,
integration time)
Other
population
distribution,
shielding factor
Provides input to:
LCMT, DCM, LATECONS
and LATEHEAL
Input windows
feed- and
foodstuffs,
exposure
pathways, doses
Input data
Main results
Foodchain and Dose modelling
Interface
Mode
l
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4.7 FDMF
Certain algorithms and details of the programme code were revised
after testing and identification of unclear parts. The effect on end
results was true but not of major significance.
FDMF
Results from
RLSMC
ALSMC
QUICKPRO
Model data base
data should be
completed with
installation of
RODOS
Concentrations
map results + time
functions for feed-
and foodstuffs
(nuclide dep.)
Doses
potential individual
doses (population
group, age,
integration time)
Other
Provides input to:
LCMF
Input windows
forest type,
foodstuffs,
exposure
pathways, doses
Input data
Model
Main results
Forest Module
Interface
By default, only a load list for QUICKPRO is delivered, however a
new load list can be created by copying the existing load list to a new
file, exchanging the name QUICKPRO by ALSMCprogn , importing
the new load list via the Load Editor and activating the load list in the
Load Editor.
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4.8 FDMH
By default, only a load list for QUICKPRO is delivered, however a
new load list can be created by copying the existing load list to a new
file, exchanging the name QUICKPRO by ALSMCprogn , importing
the new load list via the Load Editor and activating the load list in the
Load Editor.
FDMH
Results from
RLSMC
ALSMC
QUICKPRO
Model data base
data should be
completed with
installation of
RODOS
Concentrations
map results +
time functions for
feed- and
foodstuffs
(nuclide dep.)
Doses
potential individual
doses (population
group, age,
integration time)
Other
Provides input to:
DCM
Input windows
feed- and
foodstuffs,
exposure
pathways, doses
Input data
Model
Main results
Tritium Module
Interface
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4.9 Food Monitoring Module FOMM
The Food Monitoring Module FOMM allows to use measurements of
contaminated feed- and foodstuffs for updating the corresponding
model predictions. The resulting time dependent contamination is
further processed in FDMT, for the calculation of ingestion doses.
FOMM starts from the contamination of crops and soil which have
been derived by the Deposition Monitoring Module DEMM. At
present, measurements have to be simulated by file input as the module
is not connected to the real-time data base of RODOS.
FOMM
Results from DEMM
assimilated ground
contamination
Measurements
simulated plant
contamination
from file
Concentrations
normalise, in
feed- and
foodstuffs
Doses
Other
differnce
measured
predictied
Provides input to:
FDMT
Input windows
uncertainties +
variations of
measuremnts +
predictions
Input data
Model flow
Main results
Food Monitoring Module
Interface
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4.10 EMERSIM
EMERSIM
Results from
QUICKPRO,
ALSMC,
RLSMC
Fixed data base
countermeasures
Areas
evacuation,
sheltering, iodine
tablets, relocation
Doses
doses with and
without action
(maps, diff.
organs + times)
Other
spectra with and
without action,
time function,
tables
Provides input to:
EARLYCONS,
LATECONS and LCMT
Input windows
measures, timing,
intervention level
Input data
Model
Main results
Early Countermeasures Module
Interface
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4.11 EARLYCONS
LATECONS
Results from
EMERSIM
Model data base
parameter in
assign file
Health effects
maps on
deterministic and
stochastic
effects
Cost
cost for
evacuation and
health effects
Other
summarising
tables
Provides input to:
none
Input windows
no input window
Input data
Model
Main results
Early consequence Module
Interface
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4.12 LCMT
LCMT
Results from
FDMT and/or
EMERSIM
Model data base
data should be
completed with
installation of
RODOS
Relocation
relocation areas,
return times,
areas + people
affected
Agricultural
pot. ban areas,
ban duration,
production lost,
amount banned
Decontamination
area for
decontamination,
dose received
Provides input to:
LATECONS,
Web-Hipre
Input windows
foodstuffs,
measures, timing,
intervention level,
user defined areas
Input data
Model
Main results
Late countermeasures
Interface
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4.13 LCMF
LCMF
Results from
FDMF
Model data base
data should be
completed with
installation of
RODOS
Food
collective doses,
duration, costs
Forest
management
collective doses,
duration, costs
Provides input to:
none
Input windows
foodstuffs,
measures, timing,
intervention level
Input data
Model
Main results
Forest countermeasures
Interface
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4.14 LATECONS
LATECONS
Results from
EMERSIM,
FDMT, LCMT
Model data base
parameter in
assign file
Health effects
maps on
stochastic
effects
Cost
cost for late
countermeasures
and health effects
Other
summarising
tables
Provides input to:
none
Input windows
no input window
Input data
Model
Main results
Late consequence Module
Interface
Brief description of the RODOS installation PV6.0 final draft 1.0
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4.15 Web-HIPRE
Web-Hipre
Results from
LCMT Model data base
not applicable
Evaluation
ranking of countermeasures,
sensitivity analysis of the selection
Provides input to:
none
Input windows
Selection of
criteria, weights
and preferences
Input data
Model
Main results
Evaluation Module Web-HIPRE
Interface
Brief description of the RODOS installation PV6.0 final draft 1.0
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4.16 Sequence of models in emergency mode
LSMCdiagn
EMERSIM
LSMCdiagn
LSMCdiagn
LSMCprogn
LSMCdiagn
EMERSIM
LSMCdiagn
LSMCdiagn
LSMCprogn
LSMCdiagn
LSMCdiagn
EMERSIMLSMCprogn
FDMT
LCMT
FDMT
LCMT
LCMT
Sequence of models in emergency mode
t=0
release
Automatic Interactive
Interactive runs
possible based
on LSMCprogn
output.
See flowchart
interactive mode
Interactive runs
possible based
on LSMCprogn
output.
See flowchart
interactive mode
time in minutes
t=10
t=20
t=30
t=40
t=50
t=60
t=70Interactive runs
possible based
on LSMCprogn
output.
See flowchart
interactive mode
FDMT
Brief description of the RODOS installation PV6.0 final draft 1.0
27
5 Data bases
5.1 RoGIS
Despite not being part of a user guide, some definitions on the data
which should be part of the static data base of the RODOS system
might be useful. In RoGIS, several type of gridded information is
stored. This comprises data on population, land use, agricultural
production, soil type and topography. Others such as shelter factors are
not longer used by the RODOS modules. The units of these parameter
differ and the following table will provide an overview on this unit
problem. It is mandatory to keep the units correctly, otherwise the
RODOS modules are fed with the wrong data. From version 5
onwards, the unit is displayed behind the parameter in the RoGIS
selection window.
Object Unit Type selected in RoGIS
Population number People per RoGIS cell Integral
Topography Mean height over the RoGIS cell Mean
Land use Main land use type in RoGIS cell Flag
Soil type Main soil type in RoGIS cell Flag
Agricultural production data Production per km2 Mean
Table 1
Brief description of the RODOS installation PV6.0 final draft 1.0
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Document History
Document Title: Brief description of the RODOS installation PV6.0 final
Version and status: Version 1.0 (draft)
Authors/Editors: W. Raskob
Address: Forschungszentrum Karlsruhe, Technik und Umwelt, PO Box
3640, D-76021, Karlsruhe, Germany
Email: [email protected]
Issued by: Wolfgang Raskob
History: Version 1.0 (draft) August 2007
Date of Issue: August 2007
Circulation:
File Name: Summary_6
Date of print: August 24, 2007