Daniel T Feinstein (Former Employee)
Science and Products
Filter Total Items: 25
A hybrid finite-difference and analytic element groundwater model A hybrid finite-difference and analytic element groundwater model
Regional finite-difference models tend to have large cell sizes, often on the order of 1–2 km on a side. Although the regional flow patterns in deeper formations may be adequately represented by such a model, the intricate surface water and groundwater interactions in the shallower layers are not. Several stream reaches and nearby wells may occur in a single cell, precluding any...
Authors
Henk M. Haitjema, Daniel T. Feinstein, Randall J. Hunt, Maksym Gusyev
Hypothetical Modeling of Redox Conditions Within a Complex Ground-Water Flow Field in a Glacial Setting Hypothetical Modeling of Redox Conditions Within a Complex Ground-Water Flow Field in a Glacial Setting
This report describes a modeling approach for studying how redox conditions evolve under the influence of a complex ground-water flow field. The distribution of redox conditions within a flow system is of interest because of the intrinsic susceptibility of an aquifer to redox-sensitive, naturally occurring contaminants - such as arsenic - as well as anthropogenic contaminants - such as...
Authors
Daniel T. Feinstein, Mary Ann Thomas
Development and application of a screening model for simulating regional ground-water flow in the St. Croix River basin, Minnesota and Wisconsin Development and application of a screening model for simulating regional ground-water flow in the St. Croix River basin, Minnesota and Wisconsin
A series of databases and an accompanying screening model were constructed by the U.S. Geological Survey, in cooperation with the National Park Service, to better understand the regional ground-water-flow system and its relation to stream drainage in the St. Croix River Basin. The St. Croix River and its tributaries drain about 8,000 square miles in northeastern Minnesota and...
Authors
Daniel T. Feinstein, Cheryl A. Buchwald, Charles P. Dunning, Randall J. Hunt
The importance of diverse data types to calibrate a watershed model of the Trout Lake Basin, Northern Wisconsin, USA The importance of diverse data types to calibrate a watershed model of the Trout Lake Basin, Northern Wisconsin, USA
As part of the USGS Water, Energy, and Biogeochemical Budgets project and the NSF Long-Term Ecological Research work, a parameter estimation code was used to calibrate a deterministic groundwater flow model of the Trout Lake Basin in northern Wisconsin. Observations included traditional calibration targets (head, lake stage, and baseflow observations) as well as unconventional targets...
Authors
R. J. Hunt, D. T. Feinstein, C.D. Pint, Marilyn P. Anderson
The vertical hydraulic conductivity of an aquitard at two spatial scales The vertical hydraulic conductivity of an aquitard at two spatial scales
Aquitards protect underlying aquifers from contaminants and limit recharge to those aquifers. Understanding the mechanisms and quantity of ground water flow across aquitards to underlying aquifers is essential for ground water planning and assessment. We present results of laboratory testing for shale hydraulic conductivities, a methodology for determining the vertical hydraulic...
Authors
D.J. Hart, K. R. Bradbury, D. T. Feinstein
Ground-water modeling of pumping effects near regional ground-water divides and river/aquifer systems - Results and implications of numerical experiments Ground-water modeling of pumping effects near regional ground-water divides and river/aquifer systems - Results and implications of numerical experiments
Agreements between United States governors and Canadian territorial premiers establish water-management principles and a framework for protecting Great Lakes waters, including ground water, from diversion and consumptive uses. The issue of ground-water diversions out of the Great Lakes Basin by large-scale pumping near the divides has been raised. Two scenario models, in which regional...
Authors
Rodney A. Sheets, Denise H. Dumouchelle, Daniel T. Feinstein
Science and Products
Filter Total Items: 25
A hybrid finite-difference and analytic element groundwater model A hybrid finite-difference and analytic element groundwater model
Regional finite-difference models tend to have large cell sizes, often on the order of 1–2 km on a side. Although the regional flow patterns in deeper formations may be adequately represented by such a model, the intricate surface water and groundwater interactions in the shallower layers are not. Several stream reaches and nearby wells may occur in a single cell, precluding any...
Authors
Henk M. Haitjema, Daniel T. Feinstein, Randall J. Hunt, Maksym Gusyev
Hypothetical Modeling of Redox Conditions Within a Complex Ground-Water Flow Field in a Glacial Setting Hypothetical Modeling of Redox Conditions Within a Complex Ground-Water Flow Field in a Glacial Setting
This report describes a modeling approach for studying how redox conditions evolve under the influence of a complex ground-water flow field. The distribution of redox conditions within a flow system is of interest because of the intrinsic susceptibility of an aquifer to redox-sensitive, naturally occurring contaminants - such as arsenic - as well as anthropogenic contaminants - such as...
Authors
Daniel T. Feinstein, Mary Ann Thomas
Development and application of a screening model for simulating regional ground-water flow in the St. Croix River basin, Minnesota and Wisconsin Development and application of a screening model for simulating regional ground-water flow in the St. Croix River basin, Minnesota and Wisconsin
A series of databases and an accompanying screening model were constructed by the U.S. Geological Survey, in cooperation with the National Park Service, to better understand the regional ground-water-flow system and its relation to stream drainage in the St. Croix River Basin. The St. Croix River and its tributaries drain about 8,000 square miles in northeastern Minnesota and...
Authors
Daniel T. Feinstein, Cheryl A. Buchwald, Charles P. Dunning, Randall J. Hunt
The importance of diverse data types to calibrate a watershed model of the Trout Lake Basin, Northern Wisconsin, USA The importance of diverse data types to calibrate a watershed model of the Trout Lake Basin, Northern Wisconsin, USA
As part of the USGS Water, Energy, and Biogeochemical Budgets project and the NSF Long-Term Ecological Research work, a parameter estimation code was used to calibrate a deterministic groundwater flow model of the Trout Lake Basin in northern Wisconsin. Observations included traditional calibration targets (head, lake stage, and baseflow observations) as well as unconventional targets...
Authors
R. J. Hunt, D. T. Feinstein, C.D. Pint, Marilyn P. Anderson
The vertical hydraulic conductivity of an aquitard at two spatial scales The vertical hydraulic conductivity of an aquitard at two spatial scales
Aquitards protect underlying aquifers from contaminants and limit recharge to those aquifers. Understanding the mechanisms and quantity of ground water flow across aquitards to underlying aquifers is essential for ground water planning and assessment. We present results of laboratory testing for shale hydraulic conductivities, a methodology for determining the vertical hydraulic...
Authors
D.J. Hart, K. R. Bradbury, D. T. Feinstein
Ground-water modeling of pumping effects near regional ground-water divides and river/aquifer systems - Results and implications of numerical experiments Ground-water modeling of pumping effects near regional ground-water divides and river/aquifer systems - Results and implications of numerical experiments
Agreements between United States governors and Canadian territorial premiers establish water-management principles and a framework for protecting Great Lakes waters, including ground water, from diversion and consumptive uses. The issue of ground-water diversions out of the Great Lakes Basin by large-scale pumping near the divides has been raised. Two scenario models, in which regional...
Authors
Rodney A. Sheets, Denise H. Dumouchelle, Daniel T. Feinstein