Item talk:Q227887
From geokb
{
"@context": "http://schema.org/", "@type": "WebPage", "additionalType": "Project", "url": "https://www.usgs.gov/centers/california-water-science-center/science/modflow-one-water-hydrologic-flow-model-conjunctive", "headline": "MODFLOW One-Water Hydrologic Flow Model\u2014Conjunctive Use Simulation Software (MF-OWHM)", "datePublished": "April 7, 2020", "author": [ { "@type": "Person", "name": "Scott Boyce, PhD", "url": "https://www.usgs.gov/staff-profiles/scott-boyce", "identifier": { "@type": "PropertyValue", "propertyID": "orcid", "value": "0000-0003-0626-9492" } } ], "description": [ { "@type": "TextObject", "text": "Documentation | Program History | Downloads and Documentation | Superseded Versions | Training | Package Support" }, { "@type": "TextObject", "text": "Boyce, S.E., Hanson, R.T., Ferguson, I., Schmid, W., Henson, W., Reimann, T., Mehl, S.M., and Earll, M.M., 2020, One-Water Hydrologic Flow Model: A MODFLOW based conjunctive-use simulation software: U.S. Geological Survey Techniques and Methods 6\u2013A60, 435 p., https://doi.org/10.3133/tm6A60" }, { "@type": "TextObject", "text": "The official USGS reports describe the theory and input instructions at the time the distributions were first released. If you use of this software, please cite the reports in any associated publications and reports." }, { "@type": "TextObject", "text": "Software Downloads" }, { "@type": "TextObject", "text": "Boyce, S.E., 2022, MODFLOW One-Water Hydrologic Flow Model (MF-OWHM) Conjunctive Use and Integrated Hydrologic Flow Modeling Software, version 2.2.0: U.S. Geological Survey Software Release, https://doi.org/10.5066/P9P8I8GS" }, { "@type": "TextObject", "text": "MF-OWHM v2.1 introduced the Surface Water Operations (SWO) process for dynamic reservoir operations and S Interpretive Language (Slang) for Customizable User Input." }, { "@type": "TextObject", "text": "MF-OWHM v2.0 is the second major release of MF-OWHM. This version involved a total rewrite of the Farm Process (FMP), inclusion of the Conduit Flow Process (CFP Shoemaker and others, 2008), and modifications that improved all the base MODFLOW packages." }, { "@type": "TextObject", "text": "MF-OWHM v2.2 introduced a ZoneBudget v3.2 and includes enhancements to the Farm Process (FMP), Newton Solver (NWT), Head Observation (HOB), Subsidence package (SUB), and the Basic package (BAS)." }, { "@type": "TextObject", "text": "The MODFLOW One-Water Hydrologic Flow Model (MF-OWHM) \u2013 Conjunctive Use Simulation Software (Boyce, 2022; Boyce and others, 2020; Hanson and others, 2014) builds upon the MODFLOW-2005 framework for the simulation and analyses of conjunctive-use, water-management, and climate-crop-water scenario problems." }, { "@type": "TextObject", "text": "The MODFLOW One-Water Hydrologic Flow Model (MF-OWHM; Boyce and others, 2020; Hanson and others, 2014) is a MODFLOW-2005 based integrated hydrologic model designed for the analysis of conjunctive-use management. The term \u201cintegrated\u201d refers to the tight coupling of groundwater flow, surface-water flow, landscape processes, aquifer compaction and subsidence, reservoir operations, and conduit (karst) flow. This fusion results in a simulation software capable of addressing water-use and sustainability problems, including conjunctive-use, water-management, water-food-security, and climate-crop-water scenarios." }, { "@type": "TextObject", "text": "As a second core version of MODFLOW-2005, MF-OWHM maintains backward compatibility with existing MODFLOW-2005 versions. Existing models developed using MODFLOW-2005 (Harbaugh, 2005), MODFLOW-NWT (Niswonger and others, 2011), MODFLOW-CFP (Shoemaker and others, 2008), and MODFLOW-FMP (Schmid and others, 2006; Schmid and Hanson, 2009) can also be simulated using MF-OWHM." }, { "@type": "TextObject", "text": "The Online Guide to MODFLOW-OWHM (v1) provides quick access to the key documentation for MODFLOW-OWHM processes and packages:" }, { "@type": "TextObject", "text": "The following links are to USGS internal-only training resources" }, { "@type": "TextObject", "text": "MF-OWHM v1.0 was the first major release of MF-OWHM that is a unification of the many separate versions of MODFLOW that have evolved for various classes of hydrologic issues. In addition to this, modifications were made to the MF2005 source code that improve stability, accuracy and make the resulting software more \"user friendly\". MF-OWHM v1.00 is now considered legacy code with minimal support." }, { "@type": "TextObject", "text": "The following software is not actively supported by the USGS. The software has been superseded by MODFLOW-OWHM Version 2. The software versions below are provided online for historical reference only, and the pages may contain outdated information or broken links." }, { "@type": "TextObject", "text": "Version Information and Notes" }, { "@type": "TextObject", "text": "Online MODFLOW-OWHM v1 User's Guide:\n\tPackages and processes often evolve over time. The User's Guide includes the most up-to-date input instructions and related details." }, { "@type": "TextObject", "text": "Hanson, R.T., Boyce, S.E., Schmid, Wolfgang, Hughes, J.D., Mehl, S.M., Leake, S.A., Maddock, Thomas, III, and Niswonger, R.G., 2014, One-Water Hydrologic Flow Model (MODFLOW-OWHM): U.S. Geological Survey Techniques and Methods 6-A51, 120 p., http://dx.doi.org/10.3133/tm6A51" }, { "@type": "TextObject", "text": "MF-OWHM is based on the Farm Process for MODFLOW-2005 (MF-FMP2, Schmid and Hanson, 2009) that includes Surface-water Routing Process (SWR, Hughes and others, 2012), Seawater Intrusion (SWI, Bakker and others, 2013),Riparian Evapotranspiration (RIP-ET, Maddock III and others, 2012), and Conduit Flow (CFP Shoemaker and others, 2008). 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)." }, { "@type": "TextObject", "text": "The improvements, new features, modifications to MODFLOW-2005, and newly developed processes continue the MF-OWHM philosophy of retaining and tracking as much water as is feasible in the simulation domain. This philosophy provides the scientific and engineering community with confidence in the water accounting and a technically sound foundation to address broad classes of problems for the public." }, { "@type": "TextObject", "text": "Version Highlights" }, { "@type": "TextObject", "text": "General Information" }, { "@type": "TextObject", "text": "If you wish to be included in our email list to be notified when updates occur, please send an email to modflow_owhm@usgs.gov with the word \"add\" in the title or check regularly at the download and source repository homepage:" }, { "@type": "TextObject", "text": "MF-OWHM uses a physically based simulation that is connected to a supply and demand framework. This framework starts with the landscape\u2019s demand for water consumption that originates from either an administrative requirement\u2014such as urban consumption or managed aquifer recharge\u2014or from the landscape surface\u2019s potential evaporation and transpiration. This \u201clandscape water demand\u201d is then satisfied from available supplies of water\u2014such as precipitation, surface water, groundwater, and imported water. Water supply can be limited due to physical constraints from the natural and engineered water systems. These constraints occur due to the physics of natural groundwater and surface water flow and to physical limits of engineered systems, such as diversion canals or well-production capacity. The landscape water demand can affect both surface water and groundwater due to their interconnectivity. Further, the supply of groundwater and surface water can be controlled by water rights, managed through reservoir operations, or limited due to regulations." } ], "funder": { "@type": "Organization", "name": "California Water Science Center", "url": "https://www.usgs.gov/centers/california-water-science-center" }, "about": [ { "@type": "Thing", "name": "conjunctive use" }, { "@type": "Thing", "name": "Information Systems" }, { "@type": "Thing", "name": "Interconnected Surface-Water Depletions" }, { "@type": "Thing", "name": "integrated hydrologic model" }, { "@type": "Thing", "name": "FARM Process FMP" }, { "@type": "Thing", "name": "Energy" }, { "@type": "Thing", "name": "Hydrologic Modeling" }, { "@type": "Thing", "name": "SGMA" }, { "@type": "Thing", "name": "landscape processes" }, { "@type": "Thing", "name": "Methods and Analysis" }, { "@type": "Thing", "name": "Advanced Capabilities and Research" }, { "@type": "Thing", "name": "groundwater flow" }, { "@type": "Thing", "name": "Groundwater Supply" }, { "@type": "Thing", "name": "Environmental Health" }, { "@type": "Thing", "name": "Groundwater" }, { "@type": "Thing", "name": "land use" }, { "@type": "Thing", "name": "Methods and Analyses" }, { "@type": "Thing", "name": "Science Technology" }, { "@type": "Thing", "name": "Farm processes" }, { "@type": "Thing", "name": "Nitrate" }, { "@type": "Thing", "name": "Water Availability" }, { "@type": "Thing", "name": "Sustainable Groundwater Management Act (SGMA)" }, { "@type": "Thing", "name": "Water Use" }, { "@type": "Thing", "name": "Surface Water" }, { "@type": "Thing", "name": "MODFLOW" }, { "@type": "Thing", "name": "Integrated Hydrologic Model" }, { "@type": "Thing", "name": "Flows" }, { "@type": "Thing", "name": "sustainable water management" }, { "@type": "Thing", "name": "Land Subsidence" }, { "@type": "Thing", "name": "groundwater" }, { "@type": "Thing", "name": "karst" }, { "@type": "Thing", "name": "Water" }, { "@type": "Thing", "name": "Surface Water Supply" }, { "@type": "Thing", "name": "Geology" } ]
}
