Author: G. M. NalleyPublisher:
ISBN:
Category : Groundwater flow
Languages : en
Pages : 34
Book Description
Simulation of the Effects of Nearby Quarrying Operations on Ground-water Flow at the South Well Field, Franklin County, Ohio
Author: G. M. NalleyPublisher:
ISBN:
Category : Groundwater flow
Languages : en
Pages : 34
Book Description
Water-resources Investigations Report
Author: Ground-water Levels, Water Quality, and Potential Effects of Toxic-substance Spills Or Cessation of Quarry Dewatering Near a Municipal Ground-water Supply, Southern Franklin County, Ohio
Author: Alan C. SedamPublisher:
ISBN:
Category : Groundwater
Languages : en
Pages : 118
Book Description
Bibliography of Agriculture with Subject Index
Author: Hydrogeology and Simulation of Transient Ground-water Flow at the South Well Field, Columbus, Ohio
Author: William L. CunninghamPublisher:
ISBN:
Category :
Languages : en
Pages : 308
Book Description
New Publications of the U.S. Geological Survey
Author: New Publications of the Geological Survey
Author: Geological Survey (U.S.)Publisher:
ISBN:
Category : Geology
Languages : en
Pages : 836
Book Description
Numerical Modeling of the Effects of Dewatering at Seaway Quarry, Lucas County, Ohio
Author: Martin David Van OortPublisher:
ISBN:
Category : Groundwater flow
Languages : en
Pages : 292
Book Description
Abstract: The Seaway quarry near Toledo, Ohio pumped an average of 1.2 mgd over 10 years of operation, reaching a maximum rate of 5.8 mgd in 2000, and depressurized and/or dewatered two bedrock aquifers. In addition, there are several high capacity wells near the quarry and regional ground-water levels have been declining since the mid-80s. A calibrated, three-dimensional, transient ground-water flow model was constructed to help investigate the relative magnitudes of ground-water level decline in the area around the Seaway quarry due to the three factors mentioned above and to aid in delineating the area affected by the quarry. Conceptually, ground-water flow in the study area is from northwest to southeast and from higher stratigraphic units to lower, but this flow pattern is interrupted by the high capacity wells and the quarry, and over time these sinks increase in prominence in the ground-water flow system in the model area. Both steady- state and transient models were created, representing the period before the Seaway quarry when anthropogenic stresses and ground-water levels were relatively constant and the period from 1985 through 2004 when anthropogenic stresses caused water levels to decline substantially in some areas, respectively. The transient model was divided into four phases each corresponding to a stage of mining at the quarry. The models are 10 miles on each side and roughly centered on the Seaway quarry, divided into 132 rows and columns, each 400 feet on a side, range from 470 feet to 10 feet thick, and include six active layers, representing the upper boundary simulating the water-table aquifer, the Antrim Confining Unit, the Tenmile Creek Aquifer, the Silica Confining Unit, and the two members of the Dundee Aquifer, the Dundee Limestone and the Detroit River Group. The physical properties assigned to the various hydrostratigraphic units are based on published values for the appropriate lithology, and adjusted during calibration. The sources and sinks in the model are represented by specified-head boundaries, used for the Seaway quarry and the Village of Whitehouse wells; specified-flux boundaries, used for all other wells; and head-dependent flux boundaries, with general-head boundary cells simulating horizontal regional flow and a boundary layer above the model vertical flow to and from the unconfined aquifer. The models are calibrated primarily to head targets, and a couple flux targets, by minimizing the RM and ARM of heads in the flow model through a trial-and-error method. For the steady-state model, the RM is 0.53 feet and the ARM is 6.36 feet. For the transient model, the RM is 0.77 feet and the ARM is 6.89 feet. The specified-head boundary conditions for Whitehouse and the Seaway quarry are flux targets used as a check of the accuracy of the model fluxes. The calibrated model was used to create predictive scenarios that removed the components of the model, which simulated the quarry, wells, and regional declines. Comparisons of the scenarios reveal the relative effects of the different stresses on the ground-water flow system. The simulation of ground-water flow around the Seaway quarry should be used to compliment, not replace, the field observations made by OSU and the ODNR over the courses of their studies of water-level impacts related to the Seaway quarry. Because the quarry is a highly visible water user, complaints of decreased water supply to small domestic wells in the model area cited the quarry as a suspected source of decreased availability of water. Additionally, because the cones of depression of the high capacity wells expand and contract seasonally with changes in pumping, the impacts of these wells may not be recognized by the well owner. These factors resulted in the investigation of water-level declines being conducted by the ODNR Division of Mineral Resources Management, which regulates mining in Ohio. Registered ground-water withdrawal facilities, such as the high volume wells in the model area, are regulated by the ODNR Division of Water. The results of the transient simulations show that the high capacity wells near the Seaway quarry have a greater effect than was envisioned prior to this study. The Tenmile Creek and Dundee aquifers are affected differently by the aquifer stresses due to their different hydraulic characteristics. The effects of the high capacity wells is more pronounced in the Tenmile Creek Aquifer due to its lower transmissivity, and the fact that the high capacity wells fully penetrate the Tenmile Creek Aquifer, but only partially penetrate the Dundee Aquifer. In the Dundee Aquifer, the cone of depression of the quarry is larger because the quarry has depressurized what was originally a confined aquifer. When at peak pumping rates, the high capacity wells produce slightly greater drawdown than is caused by the quarry at its deepest mining stage. Nearly all the small domestic wells in the model area have been affected by both the high capacity wells and the quarry to some extent. However, the primary cause of drawdown at any small domestic well is dependant [sic] on its proximity to the major water users in the model area and the magnitude of the respective stresses at the time. Regional declines have affected all wells regardless of their location, and by 2004, regional decline is the greatest factor causing drawdown at most small domestic wells, except those that are near a pumping high capacity well.
Monthly Catalog of United States Government Publications
Author: Publisher:
ISBN:
Category : Government publications
Languages : en
Pages : 658
Book Description
Ground-water Flow and the Possible Effects of Remedial Actions at J-Field, Aberdeen Proving Ground, Maryland
Author: W. Brian HughesPublisher:
ISBN:
Category : Groundwater flow
Languages : en
Pages : 48
Book Description