Transit-loss accounting program for Monument and Fountain Creeks, El Paso and Pueblo Counties, Colorado
Since the 1980s, a transit-loss accounting program has been used for daily accounting of native and transmountain water by the Colorado Division of Water Resources (CDWR) to determine transit losses and water allocations along Fountain Creek and Monument Creek, Colorado. The Colorado Water Science Center has been involved in developing, modifying, and supporting the program over the course of its use.
Model output:
Nodes and Subreaches Along Monument and Fountain Creeks
Below are publications associated with this project.
Upgrades to a Fortran program for estimating stream transit losses of reusable water, El Paso and Pueblo Counties, Colorado
Description and User Manual for a Web-Based Interface to a Transit-Loss Accounting Program for Monument and Fountain Creeks, El Paso and Pueblo Counties, Colorado
Application of a stream-aquifer model to Monument Creek for development of a method to estimate transit losses for reusable water, El Paso County, Colorado
Descriptions of the program changes (1989-97) and a user manual for a transit-loss accounting program applied to Fountain Creek between Colorado Springs and the Arkansas River, Colorado
Calibration, verification, and use of a steady-state stream water-quality model for Monument and Fountain creeks, east-central Colorado
Selected hydrologic data for Fountain Creek and Monument Creek basins, east-central Colorado
Methods to determine transit losses for return flows of transmountain water in Fountain Creek between Colorado Springs and the Arkansas River, Colorado
Below are software products associated with this project.
Fortran Program for Estimating Stream Transit Losses of Reusable Water, El Paso and Pueblo Counties, Colorado
The transit-loss accounting program, which has been in continuous daily use in some form since April 1989, has provided water-rights administrators with a tool to effectively manage RRFs and administer water diversion priorities along Fountain Creek on a daily basis.
Below are partners associated with this project.
Since the 1980s, a transit-loss accounting program has been used for daily accounting of native and transmountain water by the Colorado Division of Water Resources (CDWR) to determine transit losses and water allocations along Fountain Creek and Monument Creek, Colorado. The Colorado Water Science Center has been involved in developing, modifying, and supporting the program over the course of its use.
Model output:
Nodes and Subreaches Along Monument and Fountain Creeks
Below are publications associated with this project.
Upgrades to a Fortran program for estimating stream transit losses of reusable water, El Paso and Pueblo Counties, Colorado
Description and User Manual for a Web-Based Interface to a Transit-Loss Accounting Program for Monument and Fountain Creeks, El Paso and Pueblo Counties, Colorado
Application of a stream-aquifer model to Monument Creek for development of a method to estimate transit losses for reusable water, El Paso County, Colorado
Descriptions of the program changes (1989-97) and a user manual for a transit-loss accounting program applied to Fountain Creek between Colorado Springs and the Arkansas River, Colorado
Calibration, verification, and use of a steady-state stream water-quality model for Monument and Fountain creeks, east-central Colorado
Selected hydrologic data for Fountain Creek and Monument Creek basins, east-central Colorado
Methods to determine transit losses for return flows of transmountain water in Fountain Creek between Colorado Springs and the Arkansas River, Colorado
Below are software products associated with this project.
Fortran Program for Estimating Stream Transit Losses of Reusable Water, El Paso and Pueblo Counties, Colorado
The transit-loss accounting program, which has been in continuous daily use in some form since April 1989, has provided water-rights administrators with a tool to effectively manage RRFs and administer water diversion priorities along Fountain Creek on a daily basis.
Below are partners associated with this project.