Failu krātuve :: MODFLOW-OWHM/

priede.bf.lu.lv/ftp/pub/TIS/datu_analiize/ModelMuse/MODFLOW-OWHM

 Name                                  Last modified      Size  Description
 Parent Directory                                           -   
 about.txt                             2017-10-25 01:23  1.6K  Text, ASCII format
 adrese.txt                            2017-10-25 01:23   41   Addresses, URL
 guideOWHM.zip                         2017-10-25 01:28  6.2M  Compressed archive
 MF_OWHM.txt                           2017-10-25 01:24   16K  Text, ASCII format
 MF_OWHM_v1_0.tar.gz                   2017-10-25 01:27   28M  Compressed archive
 MF_OWHM_v1_0.zip                      2017-10-25 01:27   37M  Compressed archive
 readme.txt                            2017-10-25 01:23   28K  Text, ASCII format
 release.txt                           2017-10-25 01:23  1.0K  Text, ASCII format
 tm6-a51.pdf                           2017-10-25 01:24  6.1M  Digital document (Acrobat)

MODFLOW-OWHM: One Water Hydrologic Flow Model

The One-Water Hydrologic Flow Model (MF-OWHM) is a MODFLOW-based 
integrated hydrologic flow model (IHM). MF-OWHM is designed for the 
analysis of a broad range of conjunctive-use issues. Conjunctive use is 
the combined use of groundwater and surface water. MF-OWHM allows the 
simulation, analysis, and management of human and natural water 
movement within a physically-based supply-and-demand framework.

MF-OWHM is based on the Farm Process for MODFLOW-2005 (MF-FMP2, Schmid 
and Hanson, 2009) that is now combined with Local Grid Refinement (LGR, 
Mehl and Hill, 2013) for embedded models to allow use of the Farm 
Process (FMP) and Streamflow Routing (SFR) within embedded grids. 
MF-OWHM also now includes new features such as the Surface-Water 
Routing Process (SWR, Hughes and others, 2012), Seawater Intrusion 
(SWI, Bakker and others, 2013), and Riparian Evapotranspiration 
(RIP-ET, Maddock III and others, 2012). MF-OWHM contains all the 
previously available solvers and the new solvers such as Newton-Raphson 
(NWT, Niswonger and others, 2011) and the nonlinear preconditioned 
conjugate gradient (PCGN, Naff and Banta, 2008).

What makes MF-OWHM unique is that it allows the simulation of 
head-dependent flows, flow-dependent flows, and deformation dependent 
flows that collectively affect conjunctive use of water resources. The 
supply-constrained and demand-driven framework combined with the 
linkages among packages and processes provides relations of water use 
and movement, and helps to prevent mass loss to an open system thus 
facilitating the accounting for "all of the water everywhere and all of 
the time."