33 research outputs found
Simulation and Analysis of Stream-Aquifer Systems
As defined for this study, a stream-aquifer system is a hydrologic system in which there is an intimate hydraulic interrelationship between one or more aquifers and a perennial stream. The objectives of this study are to better understand the response behavior of typical stream-aquifer systems, to look at the response behavior as influenced by water management practices, and to consider the problems and possibilities of integrated management of groundwater and surface water supplies within stream-aquifer systems.
A brief history of water development practices and policy, particularly in the Western United States, indicates that the tendency over the years has been to attempt to improve efficiency of use and increase water availability by means of coordinated management of sources and uses of water within hydrologic units. This tendency is manifested by the concepts of basin planning, multiple purpose projects, and comprehensive planning. Also, history shows that surface and groundwater have typically been developed separately with little regard for the interrelationships between the two.
Through the cooperation of the U.S. Geological Survey, major stream-aquifer systems in the Western United States have been identified. The Soil Conservation Service provided information on water management problems, causes, and needs found within the major stream-aquifer systems. Components of stream-aquifer systems are classified into (1) input variables, (2) system parameters, (3) output or system responses. Techniques for modeling stream-aquifer systems are discussed, and the mathematical model technique used is presented.
Over 160 stream-aquifer systems were simulated, utilizing mathematical models and digital computer solutions. The response behavior was measured in terms of the change of groundwater levels and the pattern of outflow to the stream. The latter system response is emphasized because of the effect upon other water users which is often not considered when changes are made in water management practices. The influence of such variables and parameters as (1) the total water added to the aquifer, (2) the time distribution of the water added, (3) the areal distribution of the water added, (4) the aquifer hydraulic characteristics, (5) the geometric characteristics of the aquifer, and (6) the initial configuration of the water table surtace are discussed with results presented in tabular and graphical form.
The effect of common water management practices (drainage, phreatophyte control, improvement of irrigation efficiency, and lining of canals), along with further water management practices desirable in a fully integrated streamaquifer system are discussed
Evaluation of the effect of approach tubing size upon the calibration of 3/4" turbine flowmeters
CER57MWB32.November 1, 1957.Includes bibliographical references.For The Martin Company.Under contract DEN-57-10195
Colorado's ground water problems
CER59MWB35.August 1959.Bulletin; 504-S
Stream-aquifer system analysis for conjunctive-use operations
CER64AE-MWB29.Includes bibliographical references.Paper presented at ASCE Hydraulics Division Conference, Vicksburg, Mississippi, August, 1964
Study of phreatophyte growth in the Lower Arkansas River Valley of Colorado, A
CER63MWB-GES6.Includes bibliographical references (page 22).April 1963
Quality of effluent from drains in an aquifer containing saline water
CER64DELM-MWB17.May 1964
Proceedings of the symposium on transient ground water hydraulics
CER63DEM-MWB70.December 1963.Issued with supplements.Errata included.Includes bibliographical references.The symposium was held at Colorado State University in Fort Collins, Colorado on July 25-27, 1963
Mathematical simulations for better aquifer management
CER-66-67 MWB 10.Extract of publication no. 72 of the I.A.S.H. Symposium of Haifa.Includes bibliographical references.Manipulation of groundwater storage in conjunction with surface water supplies often requires simultaneous consideration of varied aquifer hydraulic and geometric characteristics, highly variable pumping patterns in time and space, imperfectly connected bodies of surface water and non-deterministic natural recharge. In addition, legal, economic and social conditions impose constraints which must be considered in aquifer operation and management. This paper describes mathematical modeling and computer analysis techniques that allow consideration of the many varied and changing factors mentioned above. Application is made to specific aquifer management problems