Your search keyword '"Grace W"' showing total 9 results

1. Miniaturization of the flowing fluid electric conductivity logging technique

Author

Su, Grace W., Quinn, Nigel W.T., Cook, Paul J., and Shipp, William

Subjects

Electrical conductivity -- Research, Hydraulic measurements -- Research, Earth sciences

Abstract

The electrical conductivity profiles recorded in a well using the flowing fluid electric conductivity (FEC) logging method can be analyzed to estimate interval-specific hydraulic conductivity and estimates of the salinity concentration with depth. A study demonstrates that a modified, miniaturized FEC logging system can be successfully used in irrigation wells with limited access and large diameters.

Published

2006

2. Interpreting velocities from heat-based flow sensors by numerical simulation

Author

Su, Grace W., Freifeld, Barry M., Oldenburg, Curtis M., Jordan, Preston D., and Daley, Paul F.

Subjects

Groundwater flow -- Research, Computer-generated environments -- Usage, Computer simulation -- Usage, Speed -- Research, Earth sciences

Abstract

Numerical simulations of three-dimensional nonisothermal flow around an in situ heat-based flow sensor was carried out with an aim to investigate the way in which formation heterogeneities can affect the interpretation of ground water flow velocities from the instrument. The effort helped in demonstrating the modeling, which could be used to simulate instrument response to formation heterogeneity and caution to be used in interpreting data from devices.

Published

2006

3. Estimation of hydraulic conductivity in an alluvial system using temperatures

Author

Su, Grace W., Jasperse, James, Seymour, Donald, and Constantz, Jim

Subjects

Water, Underground -- Research, Water -- Management, Earth sciences, Research

Abstract

Well water temperatures are often collected simultaneously with water levels; however, temperature data are generally considered only as a water quality parameter and are not utilized as an environmental tracer. In this paper, water levels and seasonal temperatures are used to estimate hydraulic conductivities in a stream-aquifer system. To demonstrate this method, temperatures and water levels are analyzed from six observation wells along an example study site, the Russian River in Sonoma County, California. The range in seasonal ground water temperatures in these wells varied from < 0.2 °C in two wells to ~8°C in the other four wells from June to October 2000. The temperature probes in the six wells are located at depths between 3.5 and 7.1 m relative to the river channel. Hydraulic conductivities are estimated by matching simulated ground water temperatures to the observed ground water temperatures. An anisotropy of 5 (horizontal to vertical hydraulic conductivity) generally gives the best fit to the observed temperatures. Estimated conductivities vary over an order of magnitude in the six locations analyzed. In some locations, a change in the observed temperature profile occurred during the study, most likely due to deposition of fine-grained sediment and organic matter plugging the streambed. A reasonable fit to this change in the temperature profile is obtained by decreasing the hydraulic conductivity in the simulations. This study demonstrates that seasonal ground water temperatures monitored in observation wells provide an effective means of estimating hydraulic conductivities in alluvial aquifers., Introduction Quantifying surface water/ground water exchanges has become an important component of water resources management because of the increase in the conjunctive use of water. Reducing uncertainty in models used [...]

Published

2004

4. Comparison of heat and bromide as ground water tracers near streams

Author

Constantz, Jim, Cox, Marisa H., and Su, Grace W.

Subjects

Water, Underground -- Research, Hydrology -- Research, Solute transport (Hydrology) -- Research, Earth sciences, Research

Abstract

Heat and bromide were compared as tracers for examining stream/ground water exchanges along the middle reaches of the Santa Clara River, California, during a 10-hour surface water sodium bromide injection test. Three cross sections that comprise six shallow (, Introduction Surface water and ground water are a coupled resource, mandating examination as a continuum to fully characterize each resource. Hydrological tracers provide a tool for examining this continuum, because [...]

Published

2003

5. Heat, Chloride, and Specific Conductance as Ground Water Tracers near Streams

Author

Jim Constantz, Marisa H. Cox, and Grace W. Su

Subjects

Hydrology, Geologic Sediments, Hot Temperature, Fresh Water, STREAMS, Models, Theoretical, Conductivity, Chloride, Clogging, Hydraulic conductivity, medicine, Environmental science, Alluvium, Seasons, Water quality, Computers in Earth Sciences, Groundwater, Water Science and Technology, medicine.drug

Abstract

Commonly measured water quality parameters were compared to heat as tracers of stream water exchange with ground water. Temperature, specific conductance, and chloride were sampled at various frequencies in the stream and adjacent wells over a 2-year period. Strong seasonal variations in stream water were observed for temperature and specific conductance. In observation wells where the temperature response correlated to stream water, chloride and specific conductance values were similar to stream water values as well, indicating significant stream water exchange with ground water. At sites where ground water temperature fluctuations were negligible, chloride and/or specific conductance values did not correlate to stream water values, indicating that ground water was not significantly influenced by exchange with stream water. Best-fit simulation modeling was performed at two sites to derive temperature-based estimates of hydraulic conductivities of the alluvial sediments between the stream and wells. These estimates were used in solute transport simulations for a comparison of measured and simulated values for chloride and specific conductance. Simulation results showed that hydraulic conductivities vary seasonally and annually. This variability was a result of seasonal changes in temperature-dependent hydraulic conductivity and scouring or clogging of the streambed. Specific conductance fits were good, while chloride data were difficult to fit due to the infrequent (quarterly) stream water chloride measurements during the study period. Combined analyses of temperature, chloride, and specific conductance led to improved quantification of the spatial and temporal variability of stream water exchange with shallow ground water in an alluvial system.

Published

2007

6. Comparison of Heat and Bromide as Ground Water Tracers Near Streams

Author

Jim Constantz, Marisa H. Cox, and Grace W. Su

Subjects

Bromides, Hydrology, Hot Temperature, Water Movements, Piezometer, Sediment, Soil science, STREAMS, Models, Theoretical, Soil, Sodium bromide, chemistry.chemical_compound, chemistry, Water Supply, Bromide, Environmental science, Computers in Earth Sciences, Surface water, Groundwater, Environmental Monitoring, Water Science and Technology

Abstract

Heat and bromide were compared as tracers for examining stream/ground water exchanges along the middle reaches of the Santa Clara River, California, during a 10-hour surface water sodium bromide injection test. Three cross sections that comprise six shallow (

Published

2003

7. Estimation of hydraulic conductivity in an alluvial system using temperatures

Author

D. Seymour, Jim Constantz, J. Jasperse, and Grace W. Su

Subjects

Hydrology, Water Movements, Temperature, Sediment, Models, Theoretical, Soil, Deposition (aerosol physics), Hydraulic conductivity, Rivers, Water Supply, Alluvium, Water quality, Seasons, Computers in Earth Sciences, Anisotropy, Geology, Groundwater, Water Science and Technology, Environmental Monitoring

Abstract

Well water temperatures are often collected simultaneously with water levels; however, temperature data are generally considered only as a water quality parameter and are not utilized as an environmental tracer. In this paper, water levels and seasonal temperatures are used to estimate hydraulic conductivities in a stream-aquifer system. To demonstrate this method, temperatures and water levels are analyzed from six observation wells along an example study site, the Russian River in Sonoma County, California. The range in seasonal ground water temperatures in these wells varied from

Published

2004

8. Miniaturization of the Flowing Fluid Electric Conductivity Logging Technique

Author

Grace W. Su, Paul Cook, William Shipp, and Nigel W.T. Quinn

Subjects

geography, geography.geographical_feature_category, Petroleum engineering, Hydraulics, Logging, Electric Conductivity, Environmental engineering, Fresh Water, Aquifer, law.invention, Hydraulic conductivity, Water Supply, Electrical resistivity and conductivity, law, Water Movements, Salts, Computers in Earth Sciences, Groundwater, Geology, Water use, Environmental Monitoring, Water Science and Technology, Water well

Abstract

An understanding of the hydraulic properties of the aquifer and the depth distribution of salts is critical for evaluating the potential of ground water for conjunctive water use and for maintaining suitable ground water quality in agricultural regions where ground water is used extensively for irrigation and drinking water. The electrical conductivity profiles recorded in a well using the flowing fluid electric conductivity (FEC) logging method can be analyzed to estimate interval-specific hydraulic conductivity and estimates of the salinity concentration with depth. However, operating irrigation wells commonly allow limited access, and the traditional equipment used for FEC logging cannot fit through the small access pipe intersecting the well. A modified, miniaturized FEC logging technique was developed for use in wells with limited access. In addition, a new method for injecting water over the entire screened interval of the well reduces the time required to perform FEC logging.

Published

2006

9. Heat, Chloride, and Specific Conductance as Ground Water Tracers near Streams.

Author

Cox, Marisa H., Su, Grace W., and Constantz, Jim

Subjects

GROUNDWATER tracers, HEAT as a groundwater tracer, CHLORIDES, WATER temperature, GROUNDWATER monitoring, HYDROGEOLOGY methodology

Abstract

Commonly measured water quality parameters were compared to heat as tracers of stream water exchange with ground water. Temperature, specific conductance, and chloride were sampled at various frequencies in the stream and adjacent wells over a 2-year period. Strong seasonal variations in stream water were observed for temperature and specific conductance. In observation wells where the temperature response correlated to stream water, chloride and specific conductance values were similar to stream water values as well, indicating significant stream water exchange with ground water. At sites where ground water temperature fluctuations were negligible, chloride and/or specific conductance values did not correlate to stream water values, indicating that ground water was not significantly influenced by exchange with stream water. Best-fit simulation modeling was performed at two sites to derive temperature-based estimates of hydraulic conductivities of the alluvial sediments between the stream and wells. These estimates were used in solute transport simulations for a comparison of measured and simulated values for chloride and specific conductance. Simulation results showed that hydraulic conductivities vary seasonally and annually. This variability was a result of seasonal changes in temperature-dependent hydraulic conductivity and scouring or clogging of the streambed. Specific conductance fits were good, while chloride data were difficult to fit due to the infrequent (quarterly) stream water chloride measurements during the study period. Combined analyses of temperature, chloride, and specific conductance led to improved quantification of the spatial and temporal variability of stream water exchange with shallow ground water in an alluvial system. [ABSTRACT FROM AUTHOR]

Published

2007