Tracy Nishikawa (Former Employee)
Science and Products
Filter Total Items: 38
A simulation-optimization model for water-resources management, Santa Barbara, California A simulation-optimization model for water-resources management, Santa Barbara, California
In times of drought, the local water supplies of the city of Santa Barbara, California, are insufficient to satisfy water demand. In response, the city has built a seawater desalination plant and gained access to imported water in 1997. Of primary concern to the city is delivering water from the various sources at a minimum cost while satisfying water demand and controlling seawater...
Authors
Tracy Nishikawa
Statistical analysis and mathematical modeling of a tracer test on the Santa Clara River, Ventura County, California Statistical analysis and mathematical modeling of a tracer test on the Santa Clara River, Ventura County, California
To better understand flow processes, solute-transport processes, and ground-water/surface-water interactions on the Santa Clara River in Ventura County, California, a 24-hour fluorescent-dye tracer study was performed under steady-state flow conditions on a 28-mile reach of the river. The study reach includes perennial (uppermost and lowermost) subreaches and ephemeral subreaches of the...
Authors
Katherine S. Paybins, Tracy Nishikawa, John A. Izbicki, Eric G. Reichard
Geohydrology of Storage Unit III and a combined flow model of the Santa Barbara and foothill ground-water basins, Santa Barbara County, California Geohydrology of Storage Unit III and a combined flow model of the Santa Barbara and foothill ground-water basins, Santa Barbara County, California
The city of Santa Barbara pumps most of its ground water from the Santa Barbara and Foothill ground-water basins. The Santa Barbara basin is subdivided into two storage units: Storage Unit I and Storage Unit III. The Foothill basin and Storage Unit I of the Santa Barbara basin have been studied extensively and ground-water flow models have been developed for them. In this report, the...
Authors
John R. Freckleton, Peter Martin, Tracy Nishikawa
Water-resources optimization model for Santa Barbara, California Water-resources optimization model for Santa Barbara, California
A simulation-optimization model has been developed for the optimal management of the city of Santa Barbara's water resources during a drought. The model, which links groundwater simulation with linear programming, has a planning horizon of 5 years. The objective is to minimize the cost of water supply subject to: water demand constraints, hydraulic head constraints to control seawater...
Authors
Tracy Nishikawa
Seawater intrusion in aquifers underlying the oxnard plain, Ventura County, California Seawater intrusion in aquifers underlying the oxnard plain, Ventura County, California
[No abstract available]
Authors
John A. Izbicki, Eric G. Reichard, Tracy Nishikawa, Peter Martin
Postaudit of optimal conjunctive use policies Postaudit of optimal conjunctive use policies
A simulation-optimization model was developed for the optimal management of the city of Santa Barbara's water resources during a drought; however, this model addressed only groundwater flow and not the advective-dispersive, density-dependent transport of seawater. Zero-m freshwater head constraints at the coastal boundary were used as surrogates for the control of seawater intrusion. In...
Authors
Tracy Nishikawa, Peter Martin
Science and Products
Filter Total Items: 38
A simulation-optimization model for water-resources management, Santa Barbara, California A simulation-optimization model for water-resources management, Santa Barbara, California
In times of drought, the local water supplies of the city of Santa Barbara, California, are insufficient to satisfy water demand. In response, the city has built a seawater desalination plant and gained access to imported water in 1997. Of primary concern to the city is delivering water from the various sources at a minimum cost while satisfying water demand and controlling seawater...
Authors
Tracy Nishikawa
Statistical analysis and mathematical modeling of a tracer test on the Santa Clara River, Ventura County, California Statistical analysis and mathematical modeling of a tracer test on the Santa Clara River, Ventura County, California
To better understand flow processes, solute-transport processes, and ground-water/surface-water interactions on the Santa Clara River in Ventura County, California, a 24-hour fluorescent-dye tracer study was performed under steady-state flow conditions on a 28-mile reach of the river. The study reach includes perennial (uppermost and lowermost) subreaches and ephemeral subreaches of the...
Authors
Katherine S. Paybins, Tracy Nishikawa, John A. Izbicki, Eric G. Reichard
Geohydrology of Storage Unit III and a combined flow model of the Santa Barbara and foothill ground-water basins, Santa Barbara County, California Geohydrology of Storage Unit III and a combined flow model of the Santa Barbara and foothill ground-water basins, Santa Barbara County, California
The city of Santa Barbara pumps most of its ground water from the Santa Barbara and Foothill ground-water basins. The Santa Barbara basin is subdivided into two storage units: Storage Unit I and Storage Unit III. The Foothill basin and Storage Unit I of the Santa Barbara basin have been studied extensively and ground-water flow models have been developed for them. In this report, the...
Authors
John R. Freckleton, Peter Martin, Tracy Nishikawa
Water-resources optimization model for Santa Barbara, California Water-resources optimization model for Santa Barbara, California
A simulation-optimization model has been developed for the optimal management of the city of Santa Barbara's water resources during a drought. The model, which links groundwater simulation with linear programming, has a planning horizon of 5 years. The objective is to minimize the cost of water supply subject to: water demand constraints, hydraulic head constraints to control seawater...
Authors
Tracy Nishikawa
Seawater intrusion in aquifers underlying the oxnard plain, Ventura County, California Seawater intrusion in aquifers underlying the oxnard plain, Ventura County, California
[No abstract available]
Authors
John A. Izbicki, Eric G. Reichard, Tracy Nishikawa, Peter Martin
Postaudit of optimal conjunctive use policies Postaudit of optimal conjunctive use policies
A simulation-optimization model was developed for the optimal management of the city of Santa Barbara's water resources during a drought; however, this model addressed only groundwater flow and not the advective-dispersive, density-dependent transport of seawater. Zero-m freshwater head constraints at the coastal boundary were used as surrogates for the control of seawater intrusion. In...
Authors
Tracy Nishikawa, Peter Martin