USRWQM (Upper Sacramento River Water Quality Model)
Criterion | Explanation |
Model name/version | USRWQM (Upper Sacramento River Water Quality Model) |
General Description | Model developed using HEC-5Q model simulations with embedded Shasta Dam Temperature Control Device (TCD) algorithm and inclusion of North of Delta Offstream Storage (NODOS) Sites Reservoir options. |
Model Domain | Sacramento River |
Developer | U.S. Bureau of Reclamation |
Hardware computing requirements | HEC-5 – Eight (8) MB or more of RAM are recommended. |
Code language | HEC-5 – FORTRAN |
Original application | Original application of model: simulate thermal regime of reservoirs and river reaches of the Upper Sacramento River system (locales include Shasta, Trinity, Lewiston, Whiskeytown, Keswick and Black Butte Reservoirs; Trinity River; Clear Creek; Upper Sacramento River from Shasta to Knights Landing; and Stony Creek) and provide an evaluation of temperature impacts of alternative conditions. |
Public/proprietary and cost | No public source of TCD algorithm available. Availability of individual components (HEC-5, HEC-5Q, CALSIM II) can be found in related model characterizations. |
Physically or empirically based | Physically based model using mass balance and heat balance. |
Mathematical methods used | CALSIM II used to simulate flow operation scenarios for input into HEC-5Q after downscaling with CALSIM25Q utility program. The HEC-5Q embedded Shasta Dam TCD algorithm used was modified to operate the Shasta spillway, flood control outlets and TCD gates to meet tailwater temperature targets. System flows computed with HEC-5. Daily temperature distribution in rivers and reservoirs computed with HEC-5Q. |
Input data requirements | Meteorological and hydrologic data: Initial reservoir volumes, time-varying input for all reservoir and tributary inflows, reservoir releases, river diversions, inflow temperatures, air temperature, and tail-water temperature targets, flow rates, water quality. |
Outputs | Four-layer water temperature and water mixing for targeted temperatures at various output locations on daily timescale. After post-processing of HEC-5Q output, data is represented as annual minimums, maximums, medians, 10%, 90% and as a time series that can be further processed in Excel. TCD component outputs flow rates and water temperatures based on open/closed gates. |
Pre-processing and post-processing tools | No model tools provided with the exception of those provided by CALSIM II, HEC-5, HEC-5Q. |
Representation of uncertainty | Uncertainty not incorporated into framework during development of USRWQM. Please see related model characterizations for uncertainty in HEC-5, HEC-5Q, CALSIM II models. |
Prevalence | Model commonly used for water planning, compliances and prediction of operational changes on river and reservoir temperature changes by federal and state agencies, with lesser usage by academic institutes. |
Ease of use for public entities | Moderate – hard: requires training in multiple models. |
Ease of obtaining information and availability of technical support | No commercial help desk available. No forums specific to USRWQM found. Information regarding HEC-5, HEC-5Q, CALSIM II can be found in related model characterizations. |
Model and Source code availability | Some model components available, please see related component characterizations (CALSIM II, HEC-5, HEC-5Q). TCD algorithm and source code can be made available upon request to developer. |
Status of model development | Some model components available for immediate used (CALSIM II, HEC-5, HEC-5Q), embedded TCD algorithm available for immediate use once obtained from developer. No future developmental status found. |
Challenges for integration | Model integration may not be applicable with other models requiring data at monthly or larger time steps. Adapting this model for estimating temperature regimes in the Delta would be challenging due to complexity of factors and processes affecting water temperature in the Delta. |
References
Resource Management Associates, Inc. 2003. Upper Sacramento River Water Quality Modeling
with HEC-5Q: Model Calibration and Validation. Available at http://deltacouncil.ca.gov/docs/upper-sacramento-river-water-quality-modeling-hec-5q-model-calibration-and-validation (accessed 19 October 2018).
United States Department of the Interior, Bureau of Reclamation. 2013. Modeling Appendix: Shasta Lake Water Resources Investigation, California. Available at https://www.usbr.gov/mp/nepa/includes/documentShow.php?Doc_ID=14118 (accessed 19 October 2018).