Difference between revisions of "Modelling tool user interfaces"

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The two tables below summarise basic information about the tools in this set:  the first gives [[#Table 1 Anchor|'''intended uses and broad structural characteristics''']] and the second gives an [[#Table 2 Anchor|'''overview of modelling capabilities''']] across the tools that are likely to be in demand for many typical use-cases.  
+
The table below gives a comparison of the user interface for each of the modelling tools.    
 
{| class="wikitable"
 
{| class="wikitable"
 
|+<span id = "Table 1 Anchor"> <big>Background & basic characteristics of reviewed modelling tools</big></span>
 
|+<span id = "Table 1 Anchor"> <big>Background & basic characteristics of reviewed modelling tools</big></span>
Line 45: Line 45:
 
|style='background: #F5FCFF' |Theory  manuals:(DHI, 2017a, 2017b);  
 
|style='background: #F5FCFF' |Theory  manuals:(DHI, 2017a, 2017b);  
 
User’s manuals:(DHI, 2017d, 2017c)
 
User’s manuals:(DHI, 2017d, 2017c)
|-
 
|'''Intended spatial scale'''
 
'''(catchment or model area)'''
 
|style='background: #FFF5FA' | Local to regional:
 
no suggested min-max model size
 
|style='background: #FFF7F5' | Local to regional:
 
10-10,000’s of km<sup>2</sup>,  more typical:
 
 
100-1,000’s km<sup>2</sup>
 
|style='background: #F5FFF5' | Field to regional:
 
no suggested min-max model size
 
|style='background: #FFFFF5' | Field to regional:
 
no suggested min-max model size
 
|style='background: #F5FCFF' | Field to regional:
 
no suggested min-max model size
 
|-
 
| rowspan="2" |'''Spatial discretisation'''||style='background: #FFF5FA' | Modules ('runoff' modules/subcatchments,
 
special sub-areas, channels, reservoirs) linked by routes
 
|style='background: #FFF7F5' | Subcatchments + limited internal sub-area types ||style='background: #F5FFF5' | HRUs within subcatchments || style='background: #FFFFF5' | HRUs within subcatchments ||style='background: #F5FCFF' | Fully distributed (gridded)
 
OR
 
 
combinations of grids and zones for 
 
 
different process calculations within subcatchments
 
 
(if all process zones align, would act like HRUs)
 
|-
 
|style='background: #FFF5FA' |''Intended subcat size < 1,000 km2''||style='background: #FFF7F5' |  ||style='background: #F5FFF5' |''Intended subcat size 5-50 km2;''
 
''HRU size < 30km2''
 
|style='background: #FFFFF5' |  ||style='background: #F5FCFF'|
 
|-
 
|'''Timestep'''||style='background: #FFF5FA' | Monthly* ||style='background: #FFF7F5' | Monthly* ||style='background: #F5FFF5' | Daily ||style='background: #FFFFF5' | Daily, sub-daily ||style='background: #F5FCFF' | Daily, sub-daily
 
(dynamic timestep length,
 
 
can vary across processes)
 
|-
 
| colspan="6" |'''Intended modelling applications (as documented):'''
 
|-
 
|''Water balance estimation''|| yes || yes || yes || yes || yes
 
|-
 
|''Design hydrology (flood peaks)''||  ||  || yes || yes || yes
 
|-
 
|''Supply planning (general)''|| yes || yes || yes || yes || yes
 
|-
 
|''Reservoir yield''|| yes || yes || yes || yes || yes
 
|-
 
|''Irrigation planning''|| yes ||  || yes || yes || yes
 
|-
 
|''Groundwater recharge''|| yes || yes || yes || yes || yes
 
|-
 
|''Groundwater-surface water (GW-SW) interactions & pumping impacts''|| yes || yes ||  ||  || yes
 
|-
 
|''Land cover change impacts''|| yes || yes || yes || yes || yes
 
|-
 
|''Climate change impacts''|| yes || yes || yes || yes || yes
 
|-
 
|'''Application limitations (as documented)'''|| Not for peak flow, flood assessment, or design hydrology || Not for peak flow, flood assessment, design hydrology || Not represent deep GW processes - not for GW pumping impact || Not represent deep GW processes ||''(None listed for the modelling system''
 
''as whole, only for certain process''
 
 
''representation options.)''
 
|-
 
|'''Specific development focuses particular to tool'''||
 
* Flexible network for tracking managed system transfers,
 
 
* GW-SW interaction,
 
* IAP & plantation forestry water use
 
|
 
* Parsimony,
 
* Uncertainty assessment,
 
* GW-SW interactions
 
|
 
* Land cover type representation,
 
* Crop & irrigation detail,
 
* IAP & plantation forestry water use
 
|
 
* Land cover type representation,
 
* Crop & irrigation detail,
 
* Coupling to GIS tools
 
|
 
* Spatial discretisation & fine scale processes,
 
* GW-SW interaction,
 
* Coupled hydraulic channel model with overbank flood process representation
 
 
|}
 
|}

Revision as of 21:02, 31 May 2021

The table below gives a comparison of the user interface for each of the modelling tools.

Background & basic characteristics of reviewed modelling tools
Characteristic WRSM-Pitman SPATSIM-Pitman ACRU SWAT MIKE-SHE
Developed in South Africa yes yes yes no no
Current curator / developer Bailey & Pitman Water Resources Ltd Rhodes University, Institute of Water Resources (IWR) University of KwaZulu Natal,

Centre for Water Resources Research (UKZN-CWRR)

Texas A&M University &

US Department of Agriculture (USDA)

Danish Hydrologic Institute (DHI)
Free access yes yes yes yes no
Version reviewed WRSM-Pitman version 2.9 SPATSIM GWv3 Global Options Threaded model ACRU 4 SWAT & ArcSWAT 2012 MIKE-SHE & MIKE Hydro River, version 2017
Reference documents Theory manual: (Bailey, 2015);

User manual: (Bailey and Pitman, 2016)

Theory papers: (Hughes, 2004, 2013; Kapangaziwiri, 2007);

User manual: (Hughes, 2019)

Theory manual: (Schulze, 1995);

User manuals: (Clark et al., 2012; Schulze and Davis, 2018)

Theory manual: (Neitsch et al., 2011);

User manuals: (Arnold et al., 2012)

Theory manuals:(DHI, 2017a, 2017b);

User’s manuals:(DHI, 2017d, 2017c)