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Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
User Guide for the Long Term Countermeasure Model LCMT6.2 of
RODOS-PV6.0
Tom Charnock
Contents
USER GUIDE FOR THE LONG TERM COUNTERMEASURE MODEL LCMT6.2 OF RODOS-PV6.0................................................................................................ 1
1 Overview ..........................................................................................................................................3
2 Starting the long-term counter measure module..........................................................................4
2.1 Before the run...............................................................................................................................4 2.2 Starting the module.......................................................................................................................4 2.3 Passing archived LCMT results to the graphics server.................................................................8
3 Input options for long-term countermeasures: terrestrial (LCMT) .........................................11
3.1 Introduction ................................................................................................................................11 3.2 LCMT Initialisation windows ....................................................................................................11
3.2.1 Selection of long term countermeasure module ................................................................13 3.2.2 (LCMT6-1.0) Selection of tasks .......................................................................................13 3.2.3 (LCMT6-2.0) Selection of input for relocation + agr. countermeasures...........................14
3.3 Initialisation windows for relocation and agricultural countermeasures (Option 1)...................15 3.4 Initialisation windows for relocation (Options 1 and 2) .............................................................15
3.4.1 (LCMT6-3.0) Relocation: Selection of input ....................................................................15 3.4.2 (LCMT6-3.3) Relocation: Relocation criteria...................................................................16 3.4.3 (LCMT6-3.4) Relocation: Decontamination options ........................................................18 3.4.4 (LCMT6-3.4.1) Decontamination strategy options...........................................................19 3.4.5 (LCMT6-3.5) Relocation: Dose options ...........................................................................24
3.5 Initialisation windows for agricultural countermeasures (Options 1, 3 and 5) ...........................25 3.5.1 (LCMT6-4.01 or LCMT6-4.02) Agricultural countermeasures: Selection of input .........25 3.5.2 (LCMT6-4.3) Agr. countermeasures: Selection of intervention levels for food groups ...26 3.5.3 (LCMT6-4.5) Agr. countermeasures: Selection of effect of relocation ............................27
3.6 Initialisation windows for decontamination only (Option 4)......................................................28 3.7 LCMT dynamic windows...........................................................................................................29 3.8 Dynamic windows for user defined areas...................................................................................29 3.9 Dynamic window for worker doses............................................................................................34 3.10 Dynamic windows for the relocation (Options 1 and 2).............................................................36 3.11 Dynamic windows for the agricultural subsystem (Options 1, 3 and 5).....................................43 3.12 Dynamic windows for decontamination (Option 4) ...................................................................51 3.13 Modifying input data ..................................................................................................................52
3.13.1 Files which can be changed ..............................................................................................53 3.13.2 Files which should remain unchanged ..............................................................................54
4 Results and endpoints ...................................................................................................................55
4.1 Graphical output .........................................................................................................................55 4.2 The evaluation subsystem endpoints ..........................................................................................62 4.3 Abbreviations used .....................................................................................................................67
5 References ......................................................................................................................................70
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
1 Overview
This document describes Version 6.2 of the Late Countermeasures Module - Terrestrial (LCMT).
LCMT considers three major groups of countermeasures: relocation of the population, decontamination of inhabited land, and agricultural countermeasures. LCMT links closely with other modules of RODOS, particularly the Food chain and Dose Module (FDMT) which provides input on activity concentrations in air, foods and animal feedstuffs, deposition rates as a function of location, nuclide and time, and models to calculate doses from the relevant exposure pathways without countermeasures. Using this information, along with information on the countermeasure criteria and on the effectiveness of countermeasures in reducing external gamma doses from material deposited on the ground, in reducing resuspension and in reducing activity concentrations in foods, LCMT calculates endpoints of use to a decision-maker for scoping possible countermeasure strategies.
The principal endpoints evaluated within LCMT include, for each countermeasure, the extent (area, quantities of food, population numbers) and duration of restrictions, doses received and saved and additional data required for evaluating the costs of countermeasure implementation. A selection of key results are transferred to the RODOS graphical system for presentation to the user in the form of maps, plots of information as a function of time etc. Information is also passed to the economics and health sub-modules of RODOS Late Consequences Module. Information can also be passed to the evaluation system (Web-Hipre) for formal decision evaluation.
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2 Starting the long-term countermeasure module
2.1 Before the run
To run LCMT, the results of a previous run of FDMT and, dependent on the configuration, from EmerSim, are required as input data to LCMT. Make sure that the Load list selected is appropriate. When the effects of evacuation calculated by EmerSim have to be considered in LCMT, a Load list must be activated which contains the Data Class emerlcmt with the arrays:
• kennev(2520)
• outeva.
By default, a Load list without consideration of EmerSim is implemented in the system. In this case, kennev is loaded from the assign-file where it is filled with zeros (indicating that no evacuation has occurred).
2.2 Starting the module
An interactive computation run of LCMT is started in the usual way:
• Ensure the graphics server is running by pressing [Graphics].
• In the Main Dialogue window of RODOS select the button [Interactive].
• In the Interactive Manager window choose [Configuration] and then [Importing Result-Dataset To] from the menu bar at the top to select the results of a previous runs of FDMT and, optionally, EmerSim as input to LCMT.
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• A window called Target-Programs appears.
• Press [LCMT] and a window appears in which all archived input module runs are listed.
There are two possible modes of operation in LCMT:
1. only a single previous run of the FDMT module is input into LCMT,
2. archived runs of both the early countermeasure module EmerSim and FDMT are input in LCMT.
The second mode is necessary if the impact of evacuation on relocation is to be included in LCMT or if the user wishes to set relocation or decontamination countermeasure zones to match the area of evacuation calculated by EmerSim. The user must provide the load list accordingly, either with or without the inclusion of EmerSim.
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An archived run is selected by clicking on it and then pressing the button [Apply], control then returns to the Interactive Manager window. To select a second run, repeat the procedure by pressing [Configuration] and [Importing Result-Dataset To] on the Interactive Manager window.
• When the required input archived module runs have been selected, click on the button [LCMT] in the Interactive Manager window to start a new run of LCMT.
• A Start window for the definition of the Run-Id pops up, the Run-Id (here ‘lcmt’) has to be entered by the user.
The Run-ID can be any character string using letters and numbers (maximum 12 characters) and must be different from the Run-IDs of previous runs that are archived in the database.
• When [Initialising] is pressed the Program Initialization window is displayed. From here the input parameters and endpoint options can be modified via a set of initialisation windows access by pressing [LCMT62], as described in Section 3.
• When the selections and changes are complete the user leaves the set of initialisation windows and returns to the Program Initialisation window. The button [LCMT62] will now be
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deactivated to indicate the selections have been made. At this point three options are available.
1. To apply the selection made in the set of initialisation windows click on [Apply] and then [Return].
2. To make new selections and changes in the set of Initialisation windows click on [unlock buttons] to activate [LCMT62], and then [LCMT62] again to re-enter the windows.
3. To discard the selections and start the program with the previous selections click on [Return].
If the user presses [Return] without [Apply] or chooses not to enter the Program Initialisation window in the first place, the input-parameters and endpoint options used will either be a default set or based on the previous LCMT run depending on the options chosen in the Interactive Manager window.
• The program run is started by clicking on [Start] in the Start window.
NB After pressing [Initializing] or [Start] in the Start window an
information message (called an info message in RODOS) may be
displayed that indicates there is no load list available and that an
automatic copy of the load list will be generated by the system.
Wait until that process has finished. Then press [Initializing] or
[Start] again and continue.
After the program has been started, a Control & Services window appears. This control window is divided into an upper and lower part. The upper part contains the Run-ID of the currently selected run as well as four buttons to control the progress of the run. The lower part contains five buttons with which various services can be chosen. All buttons are described in detail in the User Guides for the RODOS system and the Graphics Server.
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2.3 Passing archived LCMT results to the graphics server
Graphical data from LCMT is archived by RODOS in the usual way.
• Archived graphical output of LCMT can be displayed by selecting [File] and [Display Results] in the menu bar of the Interactive Manager window of RODOS.
• The Program Groups window is displayed which lists all the modules in RODOS as buttons.
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• By pressing the button [LCMT] to select the LCMT module, a window pops up with the list of all LCMT runs archived.
• One run out of the list has to be selected and the button [Apply] has to be pressed. If they are not already present, two windows appear: The Control & Services window and the Application List window.
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The Application List window lists all the runs of any module that are currently resident in memory. Runs may be in memory because they are currently running, because they have been run within the current RODOS session or because they have been retrieved from the archive. The Control and Services window gives information and control of whichever run is selected in the Application List window.
• The next step is first to select the run in the Application List window by clicking on it (colour does not change) and second to select the [Graphics] button in the Control & Services window. A window with the hierarchy of all results archived for this run is displayed.
*
• Descend the hierarchy and select the endpoints of interest by clicking on them. Selected end-points are marked with a red cross. Alternatively, select all endpoints by pressing [All]. Once the required selection is made press the [Apply] button to pass the results to the Graphics Server. If no further results are required, press [Close] to close the window.
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3 Input options for long-term countermeasures: terrestrial (LCMT)
3.1 Introduction
The calculation of the effects of long-term countermeasures requires the user to choose options by the use of three methods.
• The overall options for the calculation runs are chosen by accessing the RODOS initialisation windows before the program is started (see Section 3.2).
• In addition a number of dynamic windows may appear as the program progresses (see Section 3.7).
• The parameter values describing the effectiveness of the chosen options, which are used during run-time of LCMT, are chosen by examining, and editing where necessary, a number of data files containing default or user-modified input values pertaining to LCMT (see Section 3.13).
3.2 LCMT Initialisation windows
This section describes how the user can set options for the calculations within the initialisation windows. The advantage of initialisation options is that once they have been set they can be used repeatedly for several LCMT runs without the need to re-entering them on each run.
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LCMT6-1.0 Selection of tasks
Option 1: Relocation + agricultural countermeasures
• LCMT6-2.0 Selection of input for relocation + agricultural countermeasures
• Input for relocation: LCMT6-3.0 Selection of input
• options as in “Option 2: Relocation only – LCMT6-3.0 selection of input“
• Input for agr.countermeasures: LCMT6-4.01 Calculations
• options as in “Option 3: Agricultural countermeasures only – LCMT6-4.02“
• Selection of effects of relocation: LCMT6-4.5 Effect of Relocation
Option 2: Relocation only
• LCMT6-3.0 Selection of input
• Comment: LCMT6-3.1 Comment
• Selection of relocation criteria: LCMT6-3.3 Options
• Decontamination options: LCMT6-3.4 Decontamination options
• Decontamination strategy options: LCMT6-3.4.1
• Decontamination techniques option: LCMT6-3.4.2
• Decontamination factors option: LCMT6-3.4.3
• Dose options: LCMT6-3.5 Outdoor or normal living doses
Option 3: Agricultural countermeasures only
• LCMT6-4.02 Calculations
• Comment: LCMT5-4.1
• Selection of intervention levels: LCMT6-4.3 Food groups
• Food group 1: LCMT6-4.3.1 Intervention levels (milk products)
• Food group 2: LCMT6-4.3.2 Intervention levels (others except beer)
• Food group 3: LCMT6-4.3.3 Intervention levels (beer)
• Food group 4: LCMT6-4.3.4 Intervention levels (not used)
• Food group 5: LCMT6-4.3.5 Intervention levels (not used)
Option 4: Decontamination only
• LCMT6-3.4.0 Decontamination only
• Decontamination options: LCMT6-3.4 Decontamination options
• Decontamination strategy option: LCMT6-3.4.1
• Decontamination techniques option: LCMT6-3.4.2
• Dose options: LCMT6-3.5 Outdoor or normal living doses
Figure 3-1 hierarchy of windows for selection of tasks and
corresponding options. (Each window is numbered to indicate its
position in the hierarchy and to aid cross-referencing).
Figure 3-1 provides an overview of the input options for the user and shows the sequence of initialisation windows. The windows are organised in a tree-structure. There are 4 basic options that lead the user to further windows for modifying input parameters or selecting specific endpoints:
1. Relocation and agricultural countermeasures Option 1 (default)
2. Relocation only Option 2
3. Agricultural countermeasures only Option 3
4. Decontamination only Option 4
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Most of the windows have the usual buttons for [Close], [Update] and [Help]. The close option does not modify any settings that the user has changed. The [Update] button saves the settings entered by the user. Further explanation of the window options is given in the [Help] window.
3.2.1 Selection of long term countermeasure module
By selecting [Initialising] in the Start window (see Chapter 2) and then selecting [LCMT62] in the following Program Initialisation window, the Dataset Selection window comes up.
This window allows the user to select between modification of default inputs, inputs from the previous initialisation, or the inputs from another initialisation made earlier. After pressing the appropriate button, the Initialisation windows are called to define parameter values to be used by the LCMT calculations.
Whichever button is pressed, the first window (LCMT 1.0) in the LCMT input hierarchy is displayed.
3.2.2 (LCMT6-1.0) Selection of tasks
The user can select one of the first four options given in this window. The fifth option is not used in initialisation and should be ignored.
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• Relocation and agricultural countermeasures - Option 1 (default)
Option 1 is a combination of Options 2 and 3 described below – relocation only and agricultural countermeasures only. Selecting this option takes the user to window LCMT6-2.0.
• Relocation only - Option 2
Under Option 2, LCMT will assess the impact of relocation, with a user-selected decontamination strategy (including that of no decontamination). Selecting this option takes the user to window LCMT6-3.0.
• Agricultural countermeasures only - Option 3
Under Option 3, LCMT will assess the impact of agricultural countermeasures. For up to 5 foods selected in FDMT, the user may choose up to 12 agricultural countermeasures including the decontamination of agricultural land. Selecting this option takes the user to window LCMT6-4.02.
• Decontamination only - Option 4
Under option 4, LCMT will assess the impact of a chosen decontamination strategy on external and resuspension doses. No calculations involving relocation or agricultural countermeasures are undertaken. Selecting this option takes the user to window LCMT5-3.4.1.
[Close] exits the window without storing any selections from this or subordinate windows, [Update] confirms any selections.
3.2.3 (LCMT6-2.0) Selection of input for relocation and agriculture countermeasures
This window is presented only if the default option 1 is selected in LCMT6-1.0. From here the user may review and modify the inputs required for relocation and for agricultural countermeasures.
• Input for relocation
Selecting this option takes the user to window LCMT6-3.0.
• Input for agricultural countermeasures
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Selecting this option takes the user to window LCMT6-4.01.
[Close] exits the window without storing any selections on subordinate windows, [Update] confirms any selections.
3.3 Initialisation windows for relocation and agricultural countermeasures (Option 1)
The first initialisation window for Option 1, allows the user to access the windows for initialising the relocation subsystem (Section 3.4) or the agricultural subsystem (Section 3.5).
3.4 Initialisation windows for relocation (Options 1 and 2)
The input windows for the relocation options are identical for the two options:
• Relocation + Agricultural countermeasures (Option 1)
• Relocation only (Option 2)
3.4.1 (LCMT6-3.0) Relocation: Selection of input
• Comment
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This option takes the user to window LCMT6-3.1, which allows entry of a brief comment.
• Selection of relocation criteria
This option takes the user to window LCMT6-3.3
• Decontamination options
This option takes the user to window LCMT6-3.4
• Dose options
This option takes the user to window LCMT6-3.5
[Close] exits the window, updates are made in the individual selections.
3.4.2 (LCMT6-3.3) Relocation: Relocation criteria
In this input window the relocation intervention and withdrawal criteria are defined.
The criteria for implementing relocation are made EITHER on the basis of potential outdoor external and resuspension doses OR expected normal living external and resuspension doses. The default is Normal Living. The user toggles between the options by checking and
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unchecking the button [Compare against outside doses]. The doses displayed in the graphics window and those passed to the HEALTH-module are always specified separately irrespective of the dose that the relocation criteria are based on.
In LCMT, two types of relocation are considered – temporary and permanent. Permanent relocation is the removal of people from an area with no expectation of their return. However, the land may be released at a later stage and resettled by different individuals. Temporary relocation is the removal of people from an area for an extended but limited period of time.
Note that both temporary and permanent relocation areas may be identified by LCMT following an accident.
The user can modify the dose (Sv) and integration periods (days) for imposition and relaxation of relocation, the time when relocation is first considered (days), the implementation time for relocation (days), the maximum duration of temporary relocation (days) and the minimum duration of relocation (days).
NB if the user sets a minimum duration for relocation that is
larger than the maximum duration of temporary location, LCMT
will calculate all relocation as permanent.
Default criteria and timings are given in Table 1.
At each location, LCMT finds the start of the period when the imposition criterion is exceeded and the start of the period when the dose is below the relaxation criterion. Both the algorithm for finding the imposition time and that for the relaxation time, proceed on daily steps.
NB LCMT does not check whether future doses exceed the
relaxation criteria again.
Figure 3-2, illustrates the procedure for calculating the relocation period. The length of AB is the time period for the imposition criterion, AB is the first period in which the dose exceeds the imposition criterion dose. The length of CD is the time period for the relaxation criterion, CD is the first period after A in which the dose drops below the relaxation criterion dose. The period of relocation is the period AC.
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A B
C D
Relocation period
Time
Dose
Figure 3-2 Example of finding the period of relocation at an area.
Table 1: Default relocation criteria and timings
Parameter Default value
Imposition criterion 0.015 Sv
Time period 365 days
Relaxation criterion 0.015 Sv
Time period 365 days
Time when relocation first considered 1 day
Implementation time: temporary relocation permanent relocation
0 days 0 days
Maximum duration of temporary relocation 200 days
Minimum duration of relocation 28 days
[Close] exits the window without storing any selections/user changes, [Update] confirms any selections.
3.4.3 (LCMT6-3.4) Relocation: Decontamination options
Window LCMT6.3.4 is accessed from LCMT6-3.0.
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The user can indicate whether decontamination is to be considered. If the [No decontamination] option is selected, no decontamination occurs. This is the default.
If [Decontamination] is pressed the window LCMT6-3.4.1 is displayed.
[Close] exits the window without storing any selections, [Update] confirms any selections.
3.4.4 (LCMT6-3.4.1) Decontamination strategy options
Selected techniques and implementation times can be considered by selecting [Techniques] in window LCMT6-3.4.1. The alternative is that the user can consider a selection of decontamination factors, urban surfaces and implementation times by selecting [Decontamination factors] in window LCMT6-3.4.1.
[Close] exits the window without any selection. If the decontamination factors option is chosen no output will be generated for the Economics module or for decision evaluation module (Web-Hipre).
3.4.4.1 The decontamination option "Techniques"
If [Techniques] is selected in LCMT6-3.4.1, the user can choose up to five technique and implementation time combinations from the list provided in LCMT6-3.4.2. A technique is chosen by entering a ‘1’ in the box adjacent to an implementation time for that technique. A ‘0’
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indicates that the technique is not selected. More than one implementation time may be selected for a given technique. If more than five techniques and implementation times are selected, only the first five selections are considered. By default the first two options are selected (1) and the remainder are not selected (0). The techniques available are listed in Table 2.
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Table 2: Default work rates and waste arising for decontamination
techniques
Technique
Skim and burial ploughing Rotovating / digging gardens
Shrub and plant removal Fire hosing roads
Grass cutting Vacuum sweeping roads
Road planing Sand blasting external walls
Standard ploughing Roof brushing
Soil removal Vacuuming indoors
Double digging gardens Tree / bush removal
3.4.4.2 The decontamination option "Decontamination factor"
If [Decontamination factor] is selected in LCMT6-3.4.1, the user can choose up to five decontamination factor, urban surface and implementation time combinations from the list provided in LCMT6-3.4.3. A combination is chosen by placing an index number for the chosen decontamination factor, surface and implementation time against each strategy, taken from the lists in the top part of the window. These options are listed in Table 3.
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Table 3: Index values for DF, surface and implementation time
Decontamination
Factor (DF)
Urban surface Implementation
Times, days
Index Index Index
1.2 1 Walls 1 1 1
1.5 2 Roofs 2 7 2
2 3 Internal surfaces 3 14 3
3 4 Paved (roads and pavements)
4 30 4
5 5 Soil and grass 5 90 5
10 6 Trees 6 365 6
50 7 730 7
100 8 3650 8
3.4.4.3 Timing of decontamination techniques
Within RODOS, releases of up to 48 days duration may be modelled (see Reference 3, RODOS(RA3)-RP3_01). LCMT allows decontamination to be performed before the end of the release. However, the user should be aware of the consequences of doing this.
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Surface activity is passed from FDMT as a time series of activity concentrations for each location and deposition day1. If the user chooses to decontaminate before the end of the release, the profiles subsequent to the decontamination will not be affected. Profiles for deposition that occurred before the decontamination will be affected from the time of decontamination onwards. See Figure 3-3.
The longer material remains on a surface the more it adheres to that surface. Therefore, for decontamination techniques implemented after the deposition has stopped, material deposited early in the deposition period may be less easily removed than material deposited later during the deposition period. This will be especially true for techniques that use a mechanical action to remove material from a surface as opposed to those techniques that remove the surface itself or bind the material within the surface. LCMT uses an ‘effectiveness time window’ in order to model this. The ‘effectiveness time window is measured back towards time zero from the time of decontamination. Only deposition occurring within the window is affected by the technique, and a single uniform decontamination factor specific to the technique is assumed.
LCMT assumes that techniques specified by a DF-surface-implementation combination have an effectiveness-window that extends to the beginning of the release from the time of implementation of the decontamination. Currently for named techniques, the default data files also assume that the effectiveness window extends to the start of the release. This is because of the paucity of the data available. This is an optimistic assumption, however it is only optimistic when applied to very long duration releases and to techniques that remove deposited material, whilst leaving the surface intact, and are applied near to the end of the release. However, LCMT is coded such that if the data files were revised to specify a shorter effectiveness window, this would be modelled explicitly within LCMT, as described in the previous paragraph.
1 Strictly they are passed as a set of normalised activity concentrations, which are multiplied by the deposition of each radionuclide, on each day of deposition, at each location.
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a
b
Time (days)
day 1
day 2
day 3
day 4
Dose due to
deposited activity
1 2 3 4 5 6 7 8
Time (days)
day 1
day 2
day 3
day 4
Dose due to
deposited activity
1 2 3 4 5 6 7 8
Figure 3-3 (a) Summation of deposition-day dose profiles without
decontamination. (b) Summation of deposition-day dose profiles
with decontamination applied at 2 days. In (b) the profiles for
deposition on days 3 and 4 are unaffected, the profiles for
deposition on days 1 and 2 are only affected from the end of the
second day
3.4.5 (LCMT6-3.5) Relocation: Dose options
The Dose Options window LCMT 6-3.5 is accessed from LCMT6-3.0. Here the user can specify the type of doses that should be presented as results in the graphics and also whether the effects of evacuation should be included in the calculation of doses. Two selections can be activated:
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• Pressing the button [Display outdoor doses] results in LCMT calculating the doses without any shielding (i.e. staying outdoors). Otherwise normal living conditions with the corresponding location factors are calculated. The type of doses selected by the user on this window will determine both the doses displayed in the graphics server and also the doses passed to the HEALTH-module and the decision evaluation module (ESY). If the HEALTH-module is to be used, then normal-living doses should be chosen.
• Pressing the button [Include the effect of evacuation] allows the user to consider the dose reduction due to evacuation as calculated in EmerSim. If this option is chosen, the user has to ensure that an appropriate run of EmerSim is available in the archive and that the correct Load list (which loads both FDMT and EmerSim results) is activated (see also Section 2.1). If the selected Load List is not correct, the user will receive a warning message saying that the impact of evacuation could not be considered, even if it is selected in the input window here.
[Close] exits the window without storing any selections, [Update] confirms any selections.
3.5 Initialisation windows for agricultural countermeasures (Options 1, 3 and 5)
3.5.1 (LCMT6-4.01 or LCMT6-4.02) Agricultural countermeasures: Selection of input
Following the window LCMT6-2.0, options related to agricultural countermeasures will be made available via the window LCMT6-4.01 (Option 1) or LCMT6-4.02 (Options 3 and 5). If Option 1 is selected, the additional possibility of investigating the effect of relocation on the agricultural production is available (LCMT6-4.01).
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[Close] exits the window, updates are made in the individual selections.
3.5.2 (LCMT6-4.3) Agriculture countermeasures: Selection of intervention levels for
food groups
Selecting ‘selection of intervention levels’ gives window LCMT6-4.3.
This window allows the user to define intervention levels for up to five food groups. The food groups 1 to 3 are used by default and default data are only provided for these three groups. The user may define intervention criteria for additional food groups (or modify the default values) by changing the data (see Section 3.13):
• Group 1: milk and milk products (excluding cheese);
• Group 2: all others except liquid foods;
• Group 3: liquid foods (only beer at the moment);
• Group 4 and 5 are not used in the data sets.
The maximum permissible activity concentrations in foodstuffs, defined by the European Commission in 1987 – 1989 are set as default values.
As an example the input window for the first food group is displayed.
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[Close] exits the window without storing any selections, [Update] confirms any selections.
3.5.3 (LCMT6-4.5) Agriculture countermeasures: Selection of effect of relocation
When relocation and agricultural countermeasures are selected (Option 1), the impact of relocation on agricultural production can be defined. For areas with temporary relocation, it is assumed that crop production and livestock management are unaffected for the duration of relocation. Only areas with permanent relocation may have the normal agricultural production interrupted. Three options are available for both arable crops and livestock production as shown in LCMT6-4.5:
• production is not affected, i.e. pre-accident production is continued;
• production of all crops and/livestock ceases;
• production is continued only for specified foods.
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When selecting the second or third option, the default settings from the database will be activated (see Section 3.7). There is no choice via the input windows to select further parameters.
[Close] exits the window without storing any selections, [Update] confirms any selections.
3.6 Initialisation windows for decontamination only (Option 4)
The considerations and issues to take into account when analysing decontamination are the same as when analysing decontamination in conjunction with relocation. The same windows are used in both cases.
After selecting Option 4 (decontamination only) on window LCMT6-1.0 (see Section 3.2.2), the user is presented with window LCMT6-3.4.0.
• Decontamination strategy option
This option takes the user to window LCMT6-3.4.1. This window is described in Section 3.4.4.
• Dose options
This option takes the user to window LCMT6-3.5. This window is described in Section 3.4.5.
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3.7 LCMT dynamic windows
During a run of LCMT, dynamic windows are displayed to the user which request information and present choices on how the run should proceed. The windows displayed depend on the options chosen in the initialisation windows, as well as options chosen in previous dynamic windows.
Most of the windows have the usual buttons for [Close], [Update] and [Help]. The close option does not modify any settings that the user has changed. The [Update] button saves the modifications made.
The use of dynamic windows means that there are many more pathways through LCMT version 6.2 than there were in previous versions. Some options will produce results that are equivalent to previous versions other options will produce results that are subtly different. The label (LCMT5) next to an option indicates that the option will replicate the behaviour of the previous version of LCMT.
3.8 Dynamic windows for user defined areas
In LCMT, the user is able to define or modify the areas or zones over which countermeasure or calculations are performed (See Reference 4, RODOS(RA4)-RP04_01). In LCMT, zones are delineated by marking grid-squares on a map. For whatever purpose the zone is defined, the procedure is the same and the dynamic windows presented are similar. The example below is for the decontamination zone; however it could be for relocation or for food countermeasure zones.
As the module progresses, the user will first be asked if the zone is to be defined graphically or by some other method. If some other method is selected (for example dose criteria) there may then be an opportunity for the user to graphically modify the calculated area. Whether they have chosen to graphically define an area or to modify a calculated area, the user is presented with an Input Mode window that gives up to three input choices:
1. Edit Calculated Zone;
2. Modify Archived Zone;
3. New Zone Input.
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Selecting any of the options will access the dynamic windows that allow the user to graphically define or modify the area, however each has slightly different behaviour. Option 1 should only be selected if the zone has previously been calculated by some other method or has been modified previously. Option 2 allows the user to selected an archived LCMT run and to use the zone defined within (whether that area was defined graphically or by some other method). If Option 2 is chosen any calculated or modified area will be discarded. Option 3 allows the user to start from a blank grid. If Option 3 is chosen, any calculated or modified area will be discarded. The overall procedure for graphically defining or modifying zones is illustrated in Figure 3-4.
The user is presented with options e.g. Calculate zone by method 1 Calculate zone by method 1 and then modify graphically Calculate zone by method 2 Calculate zone by method 2 and then modify graphically
Define zone graphically
An input mode window is presented: Edit calculated zone Modify archived zone New Zone Input Close
Apply method 1
Apply method 2
Only press Close when zone has been defined either graphically or by a calculation
method
Retrieve calculated and/or previously modified area. Allow user to modify it, if no such area
exists then present a blank map
Discard any calculated and/or modified zone and allow user to select the zone from an archived run
to modify
Discard any calculated and/or modified zone and present user with a blank map to modify
Start zone definition
Zone definition finished
Apply method 1
Apply method 2
Figure 3-4 Zone definition process.
If the user chooses [Edit Calculated Zone] or [New Zone Input] a sequence of windows begins that is illustrated in Figure 3-5. If the user selects [Modify Archived Zone] two additional windows are added to the sequence as illustrated in Figure 3-6. Whichever, route is chosen the user will eventually be required to interact with the Graphics Server.
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If the user selects the 1st or 3rd Option, the
Graphics Input window is displayed
When called from the Graphics Input windowthe graphics server will appear as the usual mapwindow along with a second window with
various options. On the actions tab-sheet select
module on the Save to drop down. Click [Save]
when edits* are complete to return to the
Graphics Input window.
*Editing processes described below
From the Graphics Input window the Graphics
Server can be called. When returning from the
Graphics Server, click [Close] to discard edits or
“Update” to write them to shared memory
Figure 3-5 Sequence of dynamic windows if the user selects
[Edit Calculated Zone] or [New Zone Input].
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If the user selects the 2nd Option, the Archived
Selection window is displayed
From the Archived Selection window the usercan call up a list of archived runs by pressing[Continue]. Press [Close] to return to the Input
Mode window.
When called from the Graphics Input windowthe graphics server will appear as the usual mapwindow along with a second window containingvarious options. On the Actions tab-sheet select
Module on the Save to drop down. Click [Save]when edits* are complete to return to the
Graphics Input window.
*Editing processes described below
From the Graphics Input window the GraphicsServer can be called. When returned from theGraphics Server, click [Close] to discard edits or
[Update] to write them to shared memory
Select a previous archived run and press [Apply]to go to the Graphics Input window. Press close
to return to Archived Selection.
Figure 3-6 Sequence of windows if the user selects [Modify
Archived Zone].
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The Graphics server appears as two windows, the first is the familiar graphics map window, the second is the Input window. Before marking grid-squares on the map the user must perform the following steps.
• Select the Action tab-sheet on the Input window.
• Set the Save to drop-down list to Module.
• Click the [User Input] button.
Grid-squares may be marked with one of two values. The value “0” indicates grid-squares that are not part of the zone. Therefore, “0” should be used to erase parts of the zone. The second value, for example Decontaminate, indicates grid-squares that are part of the zone.
There are two modes for drawing onto the map, Pencil Mode and Area Mode.
To draw or erase onto the map in Pencil Mode, select the appropriate value. Position the mouse pointer on a location and hold the left mouse-button down. Drag the pointer to create a line. The line is finished when the mouse-button is released.
To draw or erase onto the map in Area Mode, select the appropriate value. Click a location with the left mouse-button. Move the mouse-pointer to a second location and click the left mouse-button to draw a line. Move the mouse-pointer to a third location and click to create a polygon. Repeat to extend the polygon. Click the right mouse-button to finish.
Zones are marked into the underlying grid. Because the grid is coarser away from the centre, the area marked will not follow exactly the line or area drawn. The process of marking areas in both Pencil and Area mode and the zones created are illustrated in Figure 3-7.
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Left click to start line
Left click in anotherlocation to extend the
line
Left click in anotherlocation to extend theline further and createa polygon. Right click
to finish
Refresh the mapwindow to see thearea marked on the
underlying grid
Pencil mode Area mode
Locate the startingpoint and hold the leftmouse-button down
Drag themouse-pointer to
draw a line
When the line isfinished release the
left mouse-button
Refresh the mapwindow to see the linemarked on the
underlying grid
Figure 3-7 Marking grid-squares on a map.
When the zone has been marked onto the map, press [Save] to return to the Graphics Input window. Press [Update] on the Graphics Input window to write the area to shared memory. Press [Close] on each window to ascend the sequence (as in Figure 3-5 or Figure 3-6) and continue the run.
3.9 Dynamic window for worker doses
The agricultural, relocation and decontamination subsystems calculate worker doses using a common methodology and common dynamic windows (see Reference 5, RODOS(RA4)-RP04_02).
In this methodology there are two categories of countermeasures: those that are applied in a single application (or a series of single applications) and those that are applied continuously over a period of time. For example, the work involved in relocation is performed as a single application; people are removed once regardless of how long the period of relocation continues. It would be illogical to calculate worker doses on the assumption that people were removed each day of the period of relocation. However, the work involved in applying a countermeasure such as adding sorbents to feed continues as long as
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the countermeasure is applied. It would be illogical to calculate worker doses on the assumption that all sorbents can be added to the feed at the start or end of the period of application.
For continuous application countermeasures LCMT is able to directly calculate the period over which the work of the countermeasure is performed and from this estimate the number of workers required and the amount of time they are exposed. For the single application countermeasure, LCMT is not able to calculate the period as it depends on resources and manpower as well as the priorities of the decision-makers, therefore the user must supply it.
When LCMT is calculating worker dose for a particular countermeasure it will display a Countermeasure Specification window to get required information from the user. If the countermeasure is a single application countermeasure the window will appear as in Figure 3-8 otherwise if the countermeasure is applied continuously the window will appear is in Figure 3-9.
Figure 3-8 the single application version of the countermeasure
specification window
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Figure 3-9 the continuous application version of the
countermeasure specification window
At the top of both versions of the window is a label indicating which countermeasure is being considered. The button next to the label is an artefact of the user interface system and can be ignored.
The next button allows the user to indicate whether the workers are using personnel protective equipment (PPE). If the button is pressed, LCMT will assume that inhalation doses are zero and these will not be calculated. LCMT will use a special work-rate specified for PPE in the countermeasure data-files.
The user can give an indication of how dusty the countermeasure is by entering a resuspension enhancement factor of 1, 10 or 100. The factor will be applied to resuspension doses if the workers are not using PPE. If the user clicks more than one enhancement factor the lowest is used.
If the window is for a single application countermeasure (as in Figure 3-8) it will have an entry for the maximum duration permitted (by the user) for the application of the countermeasure. By default the value is one day. The user must enter a value that is greater than zero and reasonable given the logistics of the countermeasure. LCMT uses this number to calculate the numbers of teams and workers required and the time individual workers are likely to be exposed. The duration entered does NOT affect the public dose calculations.
3.10 Dynamic windows for the relocation (Options 1 and 2)
If the user chooses Options 1 or 2 in the initialisation windows (see Section 3.2.2), LCMT will use the relocation subsystem to calculate relocation endpoints. A sequence of dynamic windows will be displayed as the subsystem progresses. The first part of the sequence is shown in Figure 3-10. This part deals with the definition of the zone
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where relocation is applied. The first window presents the user with five options.
1 Define the relocation zone and the duration of relocation using dose criteria. This is the approach adopted in previous versions of LCMT and is the default.
2 Define the relocation and duration of relocation using dose criteria and then modify graphically.
3 Define the relocation zone based on the area that EmerSim calculated should be evacuated. For this option an EmerSim run must have been included (see Section 2.1).
4 Define the relocation based on the area that EmerSim calculated should be evacuated, and then modify graphically.
5 Define the relocation zone graphically.
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LCMT enters relocation subsystem
LCMT pauses to get user input
LCMT pauses to display an input
mode window
LCMT merges the graphically modifiedarea and the calculated area using themethod specified in Relocation Zone:merge dose criteria zone and user
defined zone window.
Calculates relocation area,start and duration in absence
of decontamination
Calculates relocation area,start and duration in absence
of decontamination
Sets relocation area to besame as evacuation area fromEmerSim run
Sets relocation area to besame as evacuation area fromEmerSim run
START
CONTINUE
Figure 3-10 First part of the sequence of Dynamic windows in
LCMTR. The sequence includes an Input Mode window as
described in Section 3.8.
Additionally from the first window, the user can access a sub-window by pressing [Define start and duration of relocation].
If the relocation zone is specified graphically or by editing a calculated zone, LCMT needs to know the period of relocation. The user can specify a start time and duration in the Relocation zone: start and duration window. If the relocation regime has been calculated at each location and then the user graphically modifies the overall zone, LCMT needs some method of reconciling the calculated relocation period at each location with the overall user-specified period. The user
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can choose one of three methods from the specified at the bottom of the Relocation zone: start and duration window. The options are listed below and illustrated in Figure 3-11.
1 Set duration of relocated zones to user entered duration. Regardless of the period calculated, the period assumed at all locations will be that specified on the Relocation zone: start and duration window.
2 Set the minimum duration of all relocated zones to the user-entered duration. For example if, using dose criteria, the period of relocation at a location was calculated to start from day 5 and continue for 10 days and the user set the start of relocation to day 3 and the duration for 28 days, then the user-entered duration would take priority. However, if the calculated start was day 2 and the duration was 40 days, the period at that location would not be changed.
3 Only set additional user-entered relocation zones to the user-entered duration. If the user has increased the zone of relocation the additional locations are given the duration specified, the periods at the other locations are not changed.
Start 2
Duration 10
Start 4
Duration 2
No
relocation
Start 1
Duration 20
Start 3
Duration 15
No
relocation
Start 1
Duration 40
Start 3
Duration 40
No
relocation
Do not
relocate
Do not
relocate
Do not
relocate
Relocate Relocate Do not
relocate
Relocate Relocate Relocate
User set:Start 2 day
Duration 30days
No
relocation
No
relocation
No
relocation
Start 2
Duration 30
Start 2
Duration 30
No
relocation
Start 2
Duration 30
Start 2
Duration 30
Start 2
Duration 30
No
relocation
No
relocation
No
relocation
Start 1
Duration 30
Start 2
Duration 30
No
relocation
Start 1
Duration 40
Start 2
Duration 40
Start 2
Duration 30
No
relocation
No
relocation
No
relocation
Start 1
Duration 20
Start 3
Duration 15
No
relocation
Start 1
Duration 40
Start 3
Duration 40
Start 2
Duration 30
Relocation as calculated by LCMT Relocation as set by user
Merge using method 1 Merge using method 2 Merge using method 3
Figure 3-11 The effect of merging calculated and user set
relocation zones.
NB generally only an expert user will choose to graphically modify
a relocation zone calculated with dose criteria.
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If the user chooses an option that includes graphical modification an Input Mode window is displayed. The use of the Input Mode window to graphically modify zones is described in Section 3.8.
NB if the user wishes to edit a calculated zone (either calculated by
dose criteria or by setting the same as evacuation), the [Edit
Calculated Zone] button should be chosen on the Input Mode
window, otherwise the results of these calculations may be lost.
The final window in Figure 3-10 is the Countermeasure specification window for relocation (see Section 3.9). Worker doses for relocation are calculated for the case where there is no decontamination and for each of the named decontamination techniques chosen by the user. However, the Countermeasure specification window is only presented once. LCMT assumes that relocation is performed under the same constraints with or without decontamination.
At the end of the sequence of windows shown in Figure 3-10 a relocation regime in the absence of countermeasures, including a delineated zone and a period of relocation at each location within the zone, will have been defined. The sequence of dynamic windows continues as illustrated in Figure 3-12.
If, in the initialisation windows, the user has chosen to consider the effects of decontamination (see Section 3.4.3) a set of dynamic windows is displayed that allows the user to define the decontamination zone.
The first window presents the user with seven options.
1 Set the decontamination zone to be the same as relocation. This is one of the approaches adopted in previous versions of LCMT.
2 Set the decontamination zone to be the same as relocation and then graphically modify the zone.
3 Define the decontamination zone based on the area that EmerSim calculated should be evacuated. For this option an EmerSim run must have been included (see Section 2.1).
4 Define the decontamination zone based on the area that EmerSim calculated should be evacuated and then graphically modify.
5 Set the decontamination zone to wherever deposition occurred. This is one of the approaches adopted in previous versions of LCMT.
6 Set the decontamination zone to wherever deposition occurred and then graphically modify.
7 Define the relocation zone graphically.
If option 2, 4, 6 or 7 is chosen an Input Mode window is displayed. The use of the Input Mode window is described in Section 3.8.
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NB if the user has chosen Option 2, 4 or 6, [Edit Calculated Zone]
button should be selected on the Input Mode window; otherwise the results of these calculations will be lost.
Next the user is prompted as to whether the relocation regime should be adjusted to account for decontamination. In previous versions of LCMT the relocation dose criteria have been applied to the predicted doses following decontamination. The result of the comparison is generally that the area and the period of relocation are reduced. Consequently people are assumed to return to the relocated areas sooner. This can have the non-intuitive consequence that the predicted doses under a decontamination and relocation regime are higher than under a regime that consists purely of relocation. In LCMT version 6.2, the user is given the choice of whether to adopt this approach or to keep a constant relocation regime regardless of the effect of decontamination. The second approach is particularly useful where the relocation regime specified in the absence of decontamination has not been calculated with dose criteria (i.e. it has been defined or modified graphically).
NB To emulate previous versions of LCMT the user should set
relocation purely on dose criteria (option 1) and allow the
relocation regime to be adjusted after decontamination.
If the user has chosen named to apply a named decontamination technique, a Countermeasure specification window is displayed (see Section 3.9).
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LCMT continues If the user chose: To consider decontamination
Not to consider decontamination
Pause LCMT to get
user option
Pause LCMT to allow user to
graphically define or modify area
Pause LCMT to ask the user whether relocation regime
under decontamination should be adjusted by dose criteria
Continue LCMT, if the user chose: Yes: apply dose criteria to doses after decontamination, adjust relocation regime to account for lower doses
No: do not adjust dose regime to account for lower doses
Set decontamination zone the same as
relocation
Set decontamination zone the same as relocation
Set decontamination zone to be same as evacuation area from EmerSim run Set decontamination zone to be same as evacuation area from EmerSim run
CONTINUE
Set decontamination zone to wherever deposition occurred Set decontamination zone to wherever deposition occurred
Pause LCMT to display appropriate Counter
measure specification windows
FINISH
Figure 3-12 Second part of the sequence of Dynamic windows in
LCMTR. The sequence uses an Input Mode window as described in
Section 3.8.
Finally the user is prompted as to whether to generate results for the Graphics Server and for ESY. Passing graphics results to the Graphics Server is time consuming and may not be necessary if the user is intending the LCMT results to be passed to subsequent modules. Results will always be generated for the Late Consequences module.
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Results can only be generated for ESY if the user chooses to apply decontamination and to use named decontamination techniques. Results are not generated for ESY if decontamination was specified in terms of surfaces and DFs, because there is no information about cost and resource requirements that are an essential part of the decision.
The endpoints passed to ESY are listed in Section 4.2.
3.11 Dynamic windows for the agricultural subsystem (Options 1, 3 and 5)
When the user runs FDMT as a precursor to LCMT, the user must choose up to five foods to pass to LCMT for further analysis. The first dynamic window presented to the user in the LCMT agricultural subsystem is the Agr. countermeasure: Selected foods window. This window allows the user to select which of these foods will be analysed, see Figure 3-13. LCMT will loop over each selected food and ignore the remaining foods. Before the program enters the food loop a sequence of dynamic window is presented as illustrate in Figure 3-13.
The next dynamic window (Zones for food countermeasures) asks the user how the agriculture countermeasure zone is to be defined. The user has two options.
1 Define agriculture countermeasure zone by activity criteria. This is the approach used by previous versions of LCMT. Each food is considered individually. Activity criteria are used to find the zone where the food exceeds at least one of the criteria in the absence of any countermeasure. Only within this zone will the countermeasures for a particular food be tried.
2 Define agriculture countermeasure zone graphically. The user defines an overall zone to delineate countermeasure application. The zone applies to all foods. Activity criteria are applied to each food individually. Only where at least one of the criteria is exceeded WITHIN the overall food countermeasure zone are countermeasures tried.
If the user chooses to define the zone graphically an Input Mode window is directly displayed. This window differs from the usual Input Mode window (see Section 3.8) in that there is no option to [Edit Calculated Zone] button. This is because the calculated zone will be different for each food.
The next dynamic window asks the user how the zone over which the ingestion collective dose is calculated should be defined. The user is given three options.
1 Define the food collective dose zone by activity criteria. This is the approach used by previous versions of LCMT. Each foodstuff is considered individually. Activity criteria are used to find the zone where the food exceeds at least one of the criteria in the absence of any countermeasure. The collective dose is calculated across this
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zone regardless of whether any countermeasure was successfully applied.
2 Define the food collective dose zone to be the same as food countermeasure zone. This option is included for convenience, if the user has defined a countermeasure zone graphically, they can use the same zone for the collective dose calculation. If the user has not defined a countermeasure zone the subsystem defaults to Option 1.
3 Define the food collective dose zone graphically. The user can define a zone that is independent of other zones and which remains consistent as the program loops over food.
As with the food countermeasure zone, if the user chooses to define the food collective zone graphically an Input Mode window is directly displayed. Again this window differs from the usual Input Mode window (see Section 3.8) in that there is no [Edit Calculated Zone] button. This is because the calculated zone would be different for each foodstuff.
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LCMT enters agricultural subsystem LCMT pauses to ask user for a list of foods to analyse
LCMT continues If user chose: Option 1: LCMT takes the zone that food activity exceeds at least one of the criteria in the absence of countermeasures as the zone over which to calculate collective dose.
Option 2: LCMT checks the countermeasure zone was defined graphically. If it was LCMT uses this zone to calculate collective dose, if not LCMT issues warning and proceeds with Option 1
Option 3: LCMT uses the zone defined graphically by the user to calculate collective dose
LCMT continues
LCMT pauses to ask user how to define food countermeasure zone
LCMT continues, If user chose: Option 1: LCMT calculates zone based on activity criteria for each food and tests countermeasure within zone
Option 2: LCMT calculates zone based on activity criteria for each food and tests
countermeasure in intersection between zone and area defined graphically by user
LCMT pauses to ask user how to define collective dose collection zone
START
CONTINUE
Figure 3-13 Beginning of the sequence of dynamic windows in the
agricultural subsystem
After the preliminary choices have been made LCMT enters the loop over food.
A second set of dynamic windows is presented to the user. These windows are illustrated in Figure 3-14.
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LCMT pauses to display list of countermeasures available for foodstuff
NB The window listing countermeasures will change depending on the foodstuff being analysed
LCMT continues LCMT enters loop over countermeasure.
LCMT pauses to request timing information for
countermeasure.
LCMT continues LCMT calculates endpoints for food If remaining countermeasures to analyse return to start of countermeasure loop
If remaining foods to analyse return to start of food loop
NB The window requesting timing information will be different depending on the countermeasure being analysed, two example
windows are shown here
LCMT enters loop over food
LCMT pauses to show appropriate
countermeasure specification windows
FINISH
CONTINUE
Figure 3-14 Sequence of the dynamic windows within the food and
countermeasure loops of agricultural subsystem.
For each of the foods selected by the user a dynamic input window appears listing the countermeasure strategies appropriate to that food
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(Agri. countermeasures). Table 4 lists the countermeasures that can be applied to each food. Here the user may choose which countermeasures to consider. If no selection is made, NO ACTIONS is implemented, i.e. LCMT calculates only areas in which food activity exceeds the criteria. Whenever the button NO ACTION is activated, all selected strategies are ignored and only areas in which food activity exceeds at least one of the criteria are calculated.
An example of an input window for choosing agricultural countermeasures for cows milk is given below (LCMT5-4.6).
[Close] exits the window without storing any selections, [Update] confirms any selections.
After the user has selected some strategies, LCMT analyses each in turn and further input windows appear which allow the user to modify timing parameters for each strategy. The appearance of the timing window (LCMT6-4.7-n) depends only the strategy n and is shown below for the action "Disposal or stopping production".
[Close] exits the window without storing any changes, [Update] confirms any selections. The default timings for each countermeasure option are given in Table 5. These timings are displayed in the window and can be overridden.
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Certain countermeasures are constrained not to be applicable before the end of the deposition, see (see Reference 3, RODOS(RA3)-RP3_01). If a timing value is entered that invalidates this constraint it will be adjusted forward to the time of the end of deposition and an information message will be issued.
The definition of the strategies and benefits and drawbacks are described in more detail in the RODOS report WG3-TN(99)-43 (Reference 1).
If the user tries to select more than 12 strategies for a single food only the first 12 will be analysed.
A countermeasure specification window is displayed for each countermeasure to enable LCMT to calculate the worker doses (see Section 3.9).
Finally after the loop over countermeasure the user chooses the outputs to generate via a dynamic window.
The user can choose to send output to the graphics server and to create output for the decision evaluation subsystem (ESY). The contents of the data file is listed in Section 4.2, the data file uses the abbreviations for techniques listed in Section 4.3.
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Table 4: List of agricultural countermeasures available for each
foodstuff considered in LCMT.
Rmov
Rduc
countermeasure
foodstuff Disp
Proc
Stor
T=0 T>0 T=0 T>0 AddS
Amel
AgrD
Crop
Land
Spring wheat (whole) � � � � � � �
Winter wheat (bran) � � � � � �
rye (whole) � � � � � �
Oats � � � � � �
Potatoes � � � � � �
Leafy vegetables � � � � � �
Root vegetables � � � � � �
Fruit vegetables � � � � � �
Fruits � � � � �
Berries � � � � �
Cow’s milk � � � � � � � � � �
Goat’s milk � � � � � � � � �
Sheep’s milk � � � � � � � � �
Beef (cow) � � � � � � � � �
Beef (bull) � � � � � � � � �
Veal � � � �
Pork � � � � � � � � �
Lamb � � � � � � � � �
Chicken � � � � � � � � �
Roe deer � � � �
Eggs � � � � � � � � �
Beer � � � � �
NB agricultural countermeasure abbreviations are given in
Section 4.3.
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Table 5: Default timings for agricultural countermeasure options
(identical for all foods).
Countermeasure Quantity Default value
Disposal or stopping production
Time when production stops 365 days
Food processing None -
Maximum storage time for fresh food 180 days Storing food
Maximum storage time for processed food
730 days
Removing animals from contaminated feed (t=0)
Duration of feeding – three required 7 days, 30 days, 90 days
Start time of feeding 2 days Removing animals from contaminated feed (t>0) Duration of feeding – three required 7 days, 30 days,
90 days
Duration of feeding – three required 7 days, 30 days, 90 days
Reducing animals’ contaminated feed (t=0)
Fraction of diet replaced 0.25
Start time of feeding 2 days
Duration of feeding – three required 7 days, 30 days, 90 days
Reducing animals’ contaminated feed (t>0)
Fraction of diet replaced 0.25
Start time 2 days Adding sorbents to animal diet Duration 7 days
Start time when amelioration effective (>365 days)
365 days Land amelioration
Duration of effectiveness (5 applications) 1095 days,
0, 0, 0, 0
Time decontamination occurs 730 days Agricultural decontamination Length of time food production lost
following decontamination 30 days crops
730 days pasture grass
Time at which change of crop is considered
365
Minimum time for activity criteria in original food to be exceeded for a change of crop variety to be considered
730
Crop change
Minimum time for activity criteria in original food to be exceeded for a change of crop species to be considered
3650
Land use change Minimum for activity criteria in food to be exceeded for change in land-use to be considered.
25550 days (70 years)
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3.12 Dynamic windows for decontamination (Option 4)
If the user chooses Option 4 in the initialisation windows (see Section 3.2.2), the LCMT run uses the decontamination subsystem and a sequence of dynamic windows will be displayed as the subsystem progresses. The sequence is shown in Figure 3-15. The first window in the sequence (Zones for decontamination) presents options for defining the decontamination zone.
1 Define zone with a dose criterion. This is a convenient way for the user to identify and delineate zones with a high contamination problem. A dose criterion is only used to delineate the zone, they are not used to judge whether the decontamination has been successful.
2 Define a zone with a dose criterion and then modify graphically.
3 Define the decontamination zone based on the area that EmerSim calculated should be evacuated. For this option an EmerSim run must have been included (see Section 2.1).
4 Define the decontamination zone base on the area that EmerSim calculated should be evacuated and then modify graphically.
5 Set the decontamination zone wherever deposition occurred. This is the approach used in previous versions of LCMT.
6 Set the decontamination zone wherever deposition occurred and then modify graphically.
7 Define the decontamination zone graphically.
If the user selects Option 1 or 2, a window is presented within which the dose criterion can be set. The user specifies a dose with an integration period and indicates whether the dose is outdoors or normal living. The dose criterion is applied in a similar manner to relocation imposition as described in 3.4.2. At each location the criterion is tested, if the dose at any time exceeds the criterion the location is marked for decontamination.
If option 2, 4, 6 or 7 is selected the user is presented with an Input Mode window. The use of the Input Mode window to graphically define or modify zones is described in 3.8.
NB if the user wishes to edit a calculated zone (i.e. they have
selected Option 2, 4 or 6 for defining the decontamination zone),
the [Edit Calculated Zone] button should be chosen on the Input
Mode window, otherwise the results of these calculations may be
lost.
After the decontamination zone has been defined, the decontamination subsystem proceeds to calculate the endpoints. Finally the user is prompted as to whether to generate results for the Graphics server (see Section 4.1. and whether to generate results for decision evaluation
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system, ESY (see Section 4.2). Results are not generated for ESY if decontamination was specified in terms of surfaces and DFs, because there is not information about cost and resource requirements that are an essential part of the decision.
LCMT enters decontamination subsystems LCMT pauses to get user options
LCMT pauses to allow user to graphically define or modify area
If named technique selected LCMT pauses to show appropriate countermeasure specification window
LCMT pauses to get output options from User.
START
Set decontamination zone with dose
criteria
Set decontamination zone with dose criteria
Set decontamination zone to be same as evacuation area from EmerSim run Set decontamination zone to be same as evacuation area from EmerSim run Set decontamination zone to wherever deposition occurred Set decontamination zone to wherever deposition occurred
FINISH
Figure 3-15 The sequence of dynamic windows in the
Decontamination subsystem.
3.13 Modifying input data
All the data specifying the input parameter values necessary for running relocation, agricultural countermeasures and decontamination subsystems can be found in a number of ASCII files. These files
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contain default values, which may be edited by the user. The values then become user input values and are read during run-time by the system. The values that the user changes become the new default values. A description of the default values and the data files is given in reference 1. A full justification of the default values with other supporting information is given in reference 2.
All these data files are located in the directory: ~rodos/roextern/data/lcm/
3.13.1 Files which can be changed
The user is advised to view or edit these files before undertaking a calculation in LCMT. The file names are listed below with a brief description of their function.
Food countermeasure subsystem files
• fcdbase6.data
data for production per animal, dry matter content of animal feeds
• fcbans6.data
radionuclide and food groups assigned to criteria for banning foods and food groups for management of relocated areas
• fcproc6.data
choice of food decontamination (milk only), processing or both, and, decontamination factors for milk
• fcstor6.data
list of foods requiring storage only or storage following processing
• fcadds6.data
effectiveness of addition of sorbents to animal feeds (default is AFCF to feeds)
• fcamel6.data
effectiveness factors for amelioration of land (default is liming)
• fcdecf6.data
agricultural decontamination techniques effectiveness
Worker dose files
All worker dose files have a similar structure and are held in subdirectory ~rodos/roextern/data/lcm/worker6/
Each file in the subdirectory corresponds to a countermeasure that can be applied in LCMT.
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3.13.2 Files which should remain unchanged
It is recommended that the following files should not be changed. (Some of the data have been derived from running complex models and there are numerous interdependencies, explicit and implicit, between them).
Relocation countermeasure subsystem files
• Rdresltm_6.data
output times for relocation doses
• Rddata_6.data
life expectancy for 3 age groups for relocation
Food countermeasure subsystem files
• fcfood6.data
list of indices of output times for dose endpoint calculations.
Decontamination countermeasure subsystem files
• dcdecon_6.data
lists of decontamination techniques, time of implementation, urban surfaces and decontamination factors to link input windows to LCMT calculations.
• dcdrext1_6.data
external dose reductions for decontamination techniques
• dcresus1_6.data
resuspension from surfaces following decontamination (technique option)
• dcresus2_6.data
resuspension from surfaces following decontamination (decontamination factor option)
• dcsurfact_6.data
surface activities as a function of time under normal conditions
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4 Results and endpoints
4.1 Graphical output
The RODOS graphics server structures data as a hierarchy of endpoints, see Figure 4-1.
a) b)
Figure 4-1 The graphics server presents end-points as a hierarchy.
(a) At the top of the hierarchy are the run-Ids of all the module
runs that have been performed or loaded during the current
RODOS session. (b) The user can descend the hierarchy by
clicking on the Run-IDs and subordinate items.
Table 6 gives the hierarchy for the agricultural subsystem, Table 7 gives the hierarchy the relocation subsystem and Table 8 gives the hierarchy for the decontamination subsystem.
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Table 6 The hierarchy of endpoints for the agricultural subsystem.
Run.info – a text file that gives run information for the agricultural subsystem as a whole. It includes the foods chosen for analysis and the method chosen for specifying the agricultural countermeasure zone and ingestion dose calculation zone.
Countermeasure.zone – if the user specified the food countermeasure zone graphically then this endpoint is created to indicate what the zone is.
Food/
Collective.dose.zone – if the user specified the collective dose zone graphically then this endpoint is created to indicate what the chosen zone is.
Criteria not exceeded – only displayed if at no location are the activity criteria for the food exceeded. If this message is displayed no countermeasures are considered and no output other than Food/run.info is displayed.
Run.info – a text file that gives the activity criteria used for the particular food in the particular run. The file gives the radionuclide group and the criteria in Bq kg-1 and lists the radionuclide that belong to the group that have been passed from FDMT. A maximum of ten radionuclides important for the ingestion pathway are passed from FDMT.
Duration – a map that gives the interval over which food activity concentrations exceed at least one of the criteria, in days. It is assumed that the activity concentrations in food are excessive for all times between the time when the activity concentrations first exceed the at least one of the criteria to the last time at least one of the criteria are exceeded.
Numerical results – a text file containing a collection of summary statistics:
“Total amount of food above criteria’ is the total amount of food with activity concentration greater than at least one of the criteria after the countermeasure has been applied. For most food it is given as kg, for animals it is given as ‘Head’.
“Maximum area where activity concentration exceeds criteria” is the area under production that exceeds at least one of the criteria at any time.
“Collective dose” is a table of public collective ingestion dose (manSv) integrated to 1, 2, 5 and 50 years. It is calculated for each food and organ passed from FDMT and is summed over all radionuclides considered in the ingestion pathway. No food produced above at least one of the activity criteria is consumed, all other food that is not disposed is consumed. The area over which collective dose is calculated depends on the user responses to choices presented in dynamic windows as the agricultural subsystem runs, see Section 3.11. If the user chooses to base the zone on activity criteria then, the area where food exceeds the intervention criteria at least one time on the time grid in the absence of any countermeasure is used as the zone over which collective doses are calculated. However, if the user chooses to define the zone graphically, either directly or indirectly (by setting it the same as the food countermeasure zone), then this user-defined zone will be used for calculating the collective dose and the area will be the same for all foods listed.
Groups.first – a map indicating the radionuclide-groups that exceed the corresponding activity criteria at each location first.
RunID/
Foods 1 to n/(e.g
. milk, lea
fy vegatea
bles, p
ork etc).
No Actio
n/
Groups.last – a map indicating the radionuclide-groups that exceed the corresponding activity criteria at each location last.
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Table 6 The hierarchy of endpoints for the agricultural subsystem.
(Cont)
Duration – same as “RunID/Foods 1 to n/No Action/Duration”
Food above – a line graph that gives the mass of food or production of food with a activity concentrations greater than at least one of the intervention criteria as a function of time. In all cases this is the amount of food exceeding at least one of the criteria after the countermeasure has been applied.
For crops, this endpoint is expressed as the land area growing the specific crop of concern as a function of time [km2]. For animals, the endpoint is expressed as the total number of animals whose product is banned as a function of time [heads]. For other foods, it is defined as the total amount of food exceeding at least one of the intervention criteria, per day, as a function of time, kg/d.
For foods as grown (e.g. milk, whole wheat), the amount banned is that leaving the farm.
Groups.first – see “RunID/Foods 1 to n/No action/Groups.first”
Groups.last – see “RunID/Foods 1 to n/No action/Groups.last”
Implement – a map that indicates the areas where a countermeasure was implemented and successfully reduced the duration that food activity concentrations exceeded at least one of the criteria. It also indicates areas where the countermeasure was considered but did not reduce the duration and areas where the countermeasure was not considered.
Numerical.results – a text file similar to “No action/Numerical results”, however it also includes information on worker doses.
“Summary worker dose” gives summary information about the estimated worker doses for the agricultural countermeasures. The summary includes whether the Personal Protective Equipment (PPE) was assumed and what resuspension enhancement factor was assumed. Also presented are: the total collective dose for different pathways, the estimated number of workers required, and an indication of the task that gives the highest individual dose, the magnitude of that dose and the location. In some cases the dose is so situation specific that LCMT cannot calculate it, these cases are highlighted as “Dose expected to be > 0”
Production.lost - a line-graph that gives the cumulative production ‘lost’ because the activity concentrations exceed at least one of the intervention criteria or because production is interrupted, given in kg as a function of time.
This is the integrated amount of a food that is lost from the ‘market’ as a function of time. It includes food in which the activity concentrations exceeds at least one of the intervention criteria and food lost from stopping of its production. It is, therefore, a measure of the amount of food that would have to be found from another source to maintain normal availability to the public. It is assumed that all food with activity concentrations below all of the intervention criteria would be freely available to the public.
Resources – a line-graph that gives the cumulative resources required to implement the countermeasure as a function of time. The resources calculated depend on the countermeasure technique being implemented. The resources calculated for each technique are listed in reference 1. If the countermeasure is a combination of two techniques, two resources line-graphs may be presented.
RunID/
Foods 1 to n/(e.g
. milk, lea
fy vegatea
bles, p
ork etc)
Food counterm
easure stra
tegy 1 to n/ (E
.g. AddS, D
isp etc)
Run.info – a text file that contains the information concerning the countermeasure technique entered by the user..
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Table 6 The hierarchy of endpoints for the agricultural subsystem.
(Cont)
Col.Ext.Ground – a map of collective worker external dose from material deposited on the ground.
Col.Res.ground – a map of collective worker dose from inhalation of material resuspended.
Col.Inh.Plume – a map of collective worker dose from material inhaled from the plume.
Worker dose/
NB there may be two sets of endpoints if a combined technique is applied. Max.Ind.worker.dose – a map of highest individual dose at
each location.
RunID/
Foods 1 to n/(e.g
. milk, lea
fy vegatea
bles, p
ork etc)
Food counterm
easure stra
tegy 1 to n/ (E
.g. AddS, D
isp etc)
Action disallowed – only displayed if strategy disallowed at all locations. A strategy is not implemented at a location if it fails to shorten the period that the activity concentrations exceed at least one the intervention criteria. This may be because:
1. The countermeasure is timed to start after at least one of the intervention criteria are exceeded at a given location and to finish before it ends. In this case it cannot reduce the length that at least on of the intervention criteria are exceeded because LCMT assumes the exceedence is continuous between the first time at least one of the criteria are exceeded and the last time the activity concentrations fall below all of the criteria. The most likely cause is that the start and stop times entered by the user are inappropriate for this location
2. The countermeasure is timed to start after the last time that food activities fall below all of the intervention criteria or finish before the first time at least one of the intervention criteria are exceeded.
3. The countermeasure is simply ineffective in reducing the length of period that food activity exceeds at least one of the intervention criteria.
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Table 7 the hierarchy of endpoints for the relocation subsystem.
Decon.status – a map that indicates the area that is decontaminated under each of the techniques chosen.
Run.info – a text file that contains information about the relocation subsystem run. It indicates how the relocation zone was defined and, if appropriate, the dose criteria used. Also, if appropriate, indicates how the decontamination zone was defined.
External
exposure/ Age group
1 to 2/ (e.g
adult, 1-year
old etc).
Organs 1 to 3 (e.g.effective,
thyroid etc)
Resuspension/
NoRelocate/
Individual dose received/ – a set of maps of public individual dose received (mSv). The assumption is that there is no decontamination and no relocation. The doses presented under this item correspond to lifetime doses calculated by FDMT.
The individual doses are summed over all time periods to age 70, all radionuclides and deposition events to get the expected individual lifetime dose received. Depending on the user choice, doses are either estimated for normal living or outdoors. Displayed as a map.
Sum over pathways/
Area – a line-graph of the area relocated (km2) as a function of time.
The area relocated is calculated by summing up the area of each relocated spatial grid point at each time. If an area is resettled by new individuals following permanent relocation of the original population then the area affected by resettlement is not included in this endpoint, from the time of resettlement onwards.
Individual dose received/ … As “RunID/Relocation/NoRelocate/Individual dose received/…“, but the assumption is made that the public are relocated as necessary.
Individual dose saved/… As “RunID/Relocation/NoRelocate/Individual dose received/…“, but the dose saved by relocation.
RunID/
Relocation/
NoDecontaminate/
Numerical results – a text file containing a collection of summary statistics.
“Summary worker dose” gives summary information about the estimated worker doses relocation. The summary includes whether the Personal Protective Equipment (PPE) was assumed and what resuspension enhancement factor was assumed. Also presented are: the total collective dose for different pathways, the estimated number of workers required, and an indication of the task that gives the highest individual dose, the magnitude of that dose and the location. In some cases the dose is so situation specific that LCMT cannot calculate it, these cases are highlighted as “Dose expected to be > 0”
“Collective dose saved” gives an estimate of the public dose saved by relocation (manSv)
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Table 7 the hierarchy of endpoints for the relocation subsystem.
(Cont)
People – a line graph giving the number of people relocated as a function of time. The number of people relocated is calculated by summing up the population at each spatial grid point for which relocation is implemented at each time. People permanently relocated are assumed to be replaced by other people when relocation ends, and so cease to contribute to this endpoint once the relaxation criterion has been met.
Return.status – a map that indicates whether an area is assumed to be temporary or permanent. The criterion is based on the length of time the area has to be relocated. Areas that are permanently relocated may be re-inhabited but not necessarily by the original inhabitants
Return.time – a map displaying the time that relocation is calculated to end. The return time is the time at which the relaxation criterion is met (see Section 3.3.2). This could either imply that the original population are advised they can return or that the area is open to new resettlement.
Col.Ext.Ground – a map of collective worker external dose from material deposited on the ground.
Col.Res.ground – a map of collective worker dose from inhalation of material resuspended.
Col.Inh.Plume – a map of collective worker dose from material inhaled from the plume.
NoDecontaminate/
Wor
ker
dose/
Reloc/
Max.Ind.worker.dose – a map of highest individual dose at each location.
Area … As “RunID/Relocation/NoDecontaminate/Area”
Individual
dose received/
Individual
dose saved/…
… As “RunID/Relocation/NoRelocate/individual dose
received/”
If the user chooses to re-evaluate relocation dose criteria following decontamination (see Section 3.10) it is probable that the application of a decontamination technique will reduce the area and time over which relocation is necessary. This will result in people coming back into the area sooner, and therefore potentially continuing to be exposed at a low level for a longer time period than those who return at a much later time. It is therefore possible that those returning sooner will receive higher doses than those relocated for a longer period but not benefiting from decontamination.
RunID/
Relocation/
Decontamination tech
nique 1 to n/ (e.g
.GrassC
uttin
gT07D etc)
Numerical results – a text file containing a collection of summary statistics.
There are two “Summary worker dose” sections, one gives summary information about the estimated doses workings involved in relocation and one for workers involved in decontamination. The summaries include whether the Personal Protective Equipment (PPE) was assumed and what resuspension enhancement factor was assumed. Also presented are: the total collective dose for different pathways, the estimated number of workers required, and an indication of the task that gives the highest individual dose, the magnitude of that dose and the location. In some cases the dose is so situation specific that LCMT cannot calculate it, these cases are highlighted as “Dose expected to be > 0”
“Collective dose saved manSv” gives an estimate of the public dose saved by relocation.
“Total waste generated” gives an estimate of the mass of waste (kg) generated by the technique.
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Table 7 the hierarchy of endpoints for the relocation subsystem.
(Cont)
People … As “RunID/Relocation/NoDecontaminate/People”
Return.status … As “RunID/Relocation/NoDecontaminate/Return.status”
Return.time … As “RunID/Relocation/NoDecontaminate/Return.time”
Run.info is a text file that gives the timing information for the decontamination technique.
Reloc/
RunID/
Relocation/
Decontamination
technique 1 to n/
Worker
dose/ Tech/
… As “RunID/Relocation/NoDecontaminate/Worker
dose/Reloc/”
Table 8 the hierarchy of results for the decontamination
subsystem.
Decon.Status … As “RunID/Relocation/Decon.Status”
NoDecontaminate/
Individual dose received … As “RunID/Relocation/NoRelocate/Individual dose received”
Individual dose received/…
Individual dose saved/…
As “RunID/Relocation/NoRelocate/Individual dose received”
Numerical results – a text file containing a collection of summary statistics.
There are two “Summary worker dose” sections, one gives summary information about the estimated doses workings involved in relocation and one for workers involved in decontamination. The summaries include whether the Personal Protective Equipment (PPE) was assumed and what resuspension enhancement factor was assumed. Also presented are: the total collective dose for different pathways, the estimated number of workers required, and an indication of the task that gives the highest individual dose, the magnitude of that dose and the location. In some cases the dose is so situation specific that LCMT cannot calculate it, these cases are highlighted as “Dose expected to be > 0”
“Collective dose saved manSv” gives an estimate of the public dose saved by relocation.
“Total waste generated” gives an estimate of the mass of waste (kg) generated by the technique.
Run.info – a text file that gives the timing information for the decontamination technique.
RunID/
Decontamination/
Deco
ntamination tech
nique 1 to n
Worker dose/ … As “RunID/Relocation/NoDecontamination/Worker
dose/Reloc/”
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4.2 The evaluation subsystem endpoints
LCMT generates result files that allow sets of countermeasures to be evaluated with Web-HIPRE. The sets correspond to agricultural strategies that are applied to single foods and to urban strategies including named decontamination techniques and relocation.
Each set of results consists of a large or complete file and a small file containing a limited subset of results. In most cases the small subset will be sufficient for users’ needs. However, the large set is passed to Web-HIPRE in order to allow users to add information (attributes/alternatives) from the large set to the initial small set.
The files “RD_co.esy” and “RD_li.esy” contain the complete and limited results respectively for urban strategies generated by the decontamination or relocation subsystems. The files “FC_food_co.esy” and “FC_food_li.esy” contain the complete and limited results respectively for a given food generated by the agricultural subsystem.
At the end of the analysis of a particular food or at the end of the decontamination or relocation subsystems the user is presented with the dynamic window “LCMT6-6” which allows the user to select the options to generate graphic results and ESY results. If the user chooses to generate ESY results the files are generated in the directory $RODOS_DIR/roextern/outall/userID/RunID. The hierarchies for the large set and small subset of agricultural endpoints are given in .
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Table 9 and Table 10 respectively. The hierarchies for relocation and decontamination and for decontamination only are the same. The hierarchies for the large set and the small subset are given in Table 11 and Table 12.
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Table 9 hierarchy of the large set of agricultural ESY endpoints.
NB the hierarchy will vary depending on the number of additional
organs and age-groups that are passed from ESY.
Number of workers Resources
Man hours
Time when food first exceeds at least one of the criteria (days)
Duration that food exceeds criteria (days)
Maximum area criteria exceeded (km2)
Total amount of food above criteria given countermeasure regime (kg)
Food above criteria as a function of time given countermeasure regime - yr 1 (kg/d)
Food above criteria as a function of time given countermeasure regime - yr 2 (kg/d)
Food above criteria as a function of time given countermeasure regime - yr 5 (kg/d)
Impact
Food ab
ove Food above criteria as a function of time given countermeasure regime - yr50 (kg/d)
Collective worker dose (Sv) Worker dose Maximum individual worker dose (Sv)
Public Collective dose received - yr 1
Public Collective dose received - yr 2
Public Collective dose received - yr 5
Received
Public Collective dose received - yr50
Public Collective dose saved - yr 1
Public Collective dose saved - yr 2
Public Collective dose saved - yr 5
Collective
Saved
Public Collective dose saved - yr50
Public Individual dose received-other age-yr 1
Public Individual dose received-other age-yr 2
Public Individual dose received-other age-yr 5
Public Individual dose received-other age-yr50
Public Individual dose received-adult-yr 1
Public Individual dose received-adult-yr 2
Public Individual dose received-adult-yr 5
Received
Public Individual dose received-adult-yr50
Public Individual dose saved-other age-yr 1
Public Individual dose saved-other age-yr 2
Public Individual dose saved-other age-yr 5
Public Individual dose saved-other age-yr50
Public Individual dose saved-adult-yr 1
Public Individual dose saved-adult-yr 2
Public Individual dose saved-adult-yr 5
Dose
Organ 1 to 3 (e.g
. thyroid, effectiv
e etc)
Individual
Saved
Public Individual dose saved-adult-yr50
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Table 10 hierarchy of the small set of agricultural ESY endpoints
Number of workers Resources
Man hours
Time when food first exceeds criteria (days)
Duration that food exceeds criteria (days)
Maximum area criteria exceeded (km2)
Total amount of food above criteria given countermeasure regime (kg)
Impact
Food above Food above criteria as a function of time given countermeasure regime -
yr 1 (kg/d)
Collective worker dose (Sv) Worker dose Maximum individual worker dose (Sv)
Public Collective dose received - yr 1 Collective
Public Collective dose saved - yr 1
Public Individual dose received-adult-yr 1
Dose
Effective
Individual
Public Individual dose saved-adult-yr 1
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Table 11 hierarchy of large set of relocation and decontamination
or decontamination only ESY endpoints. NB the hierarchy will
vary depending on the number of additional organs and age-
groups that are passed from ESY.
Mass of waste (kg)
Number of workers
Resources
Man hours
Area affected (km2)-At time start
Area affected (km2)-At time one month
Area affected (km2)-At time one year
Area affected (km2)-At time ten years
People affected-At time start
People affected-At time one month
People affected-At time one year
Impact
People affected-At time ten years
Maximum individual worker dose (Sv) Worker dose Collective worker dose (Sv)
Collective(lifetime )(Received)
Collective(one week )(Received)
Collective(one month)(Received)
Received
Collective(one year )(Received)
Collective(lifetime )(Saved)
Collective(one week )(Saved)
Collective(one month)(Saved)
Collectiv
e Saved
Collective(one year )(Saved)
Maximum(other age)(lifetime) (Received)
Maximum(other age)(one week) (Received)
Maximum(other age)(one month) (Received)
Maximum(other age)(one year) (Received)
Maximum(adult)(lifetime)(Received)
Maximum(adult)(one week )(Received)
Maximum(adult)(one month)(Received)
Received
Maximum(adult)(one year )(Received)
Maximum (other age)(lifetime)(Saved)
Maximum (other age)(one week)(Saved)
Maximum (other age)(one month)(Saved)
Maximum (other age)(one year)(Saved)
Maximum (adult)(lifetime)(Saved)
Maximum (adult)(one week)(Saved)
Maximum (adult)(one month)(Saved)
Dose
Organ 1 to 3 (e.g
. thyroid, effectiv
e etc)
Individual
Saved
Maximum (adult)(one year )(Saved)
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Table 12 hierarchy of the small subset of relocation and
decontamination of relocation only ESY endpoints.
Mass of waste(kg)
Number of workers
Resources
Man hours
Area affected (km2)-At one year Impact
People affected-At one year
Maximum individual worker dose (Sv) Worker dose
Collective worker dose (Sv)
Collective(lifetime)(Received) Collective
Collective(lifetime)(Saved)
Received Maximum(adult)(lifetime)(Received)
Dose
Effective
Individual
Saved Maximum(adult)(lifetime)(Saved)
4.3 Abbreviations used
Table 13, Table 14 and Table 15 show the abbreviations used to describe decontamination techniques, agricultural countermeasures and foods.
Table 13: Abbreviations used in the graphics selection for
decontamination techniques.
no. Decontamination: short name (*) description of strategy
1 SkimBurialPl ough T90D / T02Y Skim and burial ploughing
2 ShrubPlantRe move T07D / T90D Shrub and plant removal
3 GrassCutting T07D / T14D Grass cutting
4 RoadPlaningP aved T90D / T01Y Road planing
5 OrdinaryPlou gh T30D / T01Y Standard ploughing
6 SoilRemove T90D / T02Y Soil removal
7 DoubleDiggin g T30D / T01Y Double digging gardens
8 Rotova ting T30D / T01Y Rotovating/digging gardens
9 FireHosingPa ved T07D / T14D Fire hosing roads
10 VacuumSweepP aved T07D / T14D Vacuum sweeping roads
11 SandBlastWal ls T14D / T01Y Sand blasting external walls
12 RoofBrushing T30D / T01Y Roof brushing
13 VacuumIndoor s T07D / T14D Vacuuming indoors
14 TreeBushRemo val T30D / T01Y Tree falling / bush removal
* Characters 13 to 16 of the original short name replaced by the two time points available.
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
Table 14 Abbreviations used in the graphics selection for
agricultural countermeasures.
no. Agricultural countermeasures:
short name description of countermeasure
1 Disp disposal or stopping production
2 Proc food processing
3 Stor storing food
4 Rmov,T=0 removal from contaminated feed at t=0
5 Rmov,T>0 removal from contaminated feed at t>0
6 Rduc,T=0 reducing contaminated feed at t=0
7 Rduc,T>0 reducing contaminated feed at t>0
8 AddS adding sorbents
10 Amel land amelioration
11 Crop change of crop
12 Land change in land use
13 AgrD agricultural decontamination
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
Table 15 Abbreviations used for foods
Foods:
short name description of food
fmil milk
fcom condensed milk
fcre cream
fbut butter
fchr cheese (rennet)
fcha cheese (acid)
fmis sheep’s milk
fmig goat’s milk
fbec beef (cow)
fbeb beef (bull)
fvea veal
fpor pork
flam lamb
fchi chicken
froe roe-deer
fegg eggs
fvel leafy vegetables
fver root vegetables
fvef fruit vegetables
ffru soft fruit
fber berries
fpot potatoes
fsww spring wheat (whole)
fswf spring wheat (flour)
fswb spring wheat (bran)
fwww winter wheat (whole)
fwwf winter wheat (flour)
fwwb winter wheat (bran)
fryw rye (whole)
fryf rye (flour)
fryb rye (bran)
foat oats
fbee beer
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
5 References
1. Brown, J, Mansfield, P A and Smith, J G. Modelling approach in the terrestrial late countermeasures module LCMT within RODOS v4.0. RODOS(WG3)-TN(99)-43, NRPB-M1122, Chilton, 2000.
2. Brown, J, Prett, A J and Jones, J A, Decontamination data for the Late Countermeasures Module LCMT within RODOS4.0: Data Library v1.2, NRPB-M1267.
3. Charnock T, Brown J, Morrey M. Modelling approach for the adaptation of LCMT6.1 for use for long duration releases within RODOS 5.0 and RODOS 6.0. RODOS(RA3)-RP3_01, NRPB-EA/7/2004, Chilton 2004.
4. Charnock T. Modelling approach for user selection of areas for implementation of countermeasures in LCMT6.1 within RODOS 6.0. RODOS(RA4)-RP04_01, NRPB-EA/8/2004, Chilton 2004.
5. Charnock T, Brown J, Morrey M. Modelling approach for calculating doses to people implementing countermeasures and associated data in LCMT6.1 within RODOS 6.0. RODOS(RA4)-RP04_02, NRPB-EA/9/2004, Chilton 2004.
Version 2 User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
Document History
Document Title: User Guide for the Long Term Countermeasure Model LCMT6.2 of RODOS-PV6.0
Version and status: Version 2 Authors/Editors: Tom Charnock Address: Health Protection Agency, Chilton, Didcot Email: Issued by: NRPB Date of Issue: 8th May 2007 File Name: LCMT62 user guide version 2.doc Date of print: August 23, 2007