| Explanation | ||||||
General Description | The Delta Island Consumptive Use (DICU) model simulates the island monthly consumptive uses, corresponding island water supplies, and the channel diversion, seepage and return volumes for 142 islands in the Sacramento – San Joaquin Delta, using the information of land use, historical precipitation, and agricultural activities. The model is used to estimate historical agricultural flows, future planning agricultural volumes, and the estimate values were assigned to nodes in DSM2. DICU model provides time series values of diversion, drainage and seepage at 257 locations throughout the Delta at monthly basis. | ||||||
Model Domain | Same as DSM2 | ||||||
Developer | Department of Water Resources (DWR) Planning Division | ||||||
Hardware computing requirements | None | ||||||
Code language | Fortran | ||||||
Original application | Delta | ||||||
Public/proprietary and cost | Public | ||||||
Physically or empirically based | Physically based | ||||||
Mathematical methods used | Water balance for each sub-area: | ||||||
Input data requirements | Main data inputs:
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Outputs | Diversions, seepages and returns of DSM2 nodes | ||||||
Pre-processing and post-processing tools | None/unknown | ||||||
Representation of uncertainty | None/unknown | ||||||
Prevalence | Frequently used in the Delta | ||||||
Ease of use for public entities | Mass balance model, should be easy to use for public | ||||||
Ease of obtaining information and availability of technical support | Available upon request | ||||||
Source code availability | Available upon request | ||||||
Status of model development | The model is well maintained and actively updated | ||||||
Challenges in integration | Has been integrated with DSM2 |
Reference:
Chen, L., S. B. Roy, and P.H. Hutton. 2018. Emulation of a Process-Based Estuarine Hydrodynamic Model, Hydrological Sciences Journal, DOI: 10.1080/02626667.2018.1447112.