airGRiwrm-package: airGR based Integrated Water Resource Management Modeling

airGRiwrm-packageR Documentation

airGR based Integrated Water Resource Management Modeling

Description

The R-package airGRiwrm is an extension of the airGR R-package for semi-distributed hydrological models. It keeps the same operating mode and functions as airGR.

Main features

The R-package airGRiwrm proposes a simplified network description for building semi-distributed models containing several sub-basins with diverse connections including inter-basin transfers. It allows to automatically transfer hydrological model parameters for ungauged locations in the catchment. Local human influences such as water transfers, releases and withdrawals can be injected in the network. The model also handles reservoirs by simulating volume time series from releases time series provided by the user. The package also integrates a supervisor that apply user-defined decision algorithms given model outputs during simulation (centralized feedback control).

References of works using airGRiwrm

  • Lemaitre-Basset, T., Thirel, G., Oudin, L., Dorchies, D., 2024. Water use scenarios versus climate change: Investigating future water management of the French part of the Moselle. Journal of Hydrology: Regional Studies 54, 101855. https://doi.org/10.1016/j.ejrh.2024.101855

  • Dorchies, D., Delaigue, O., Kahiyeh-Moumin, I., Ricquier, F., Thirel, G., 2023. Risk-based flood and drought management for multiple reservoirs in a non-stationary climate: application to the Seine River (No. EGU23-8697). Presented at the EGU23, Copernicus Meetings. https://doi.org/10.5194/egusphere-egu23-8697

  • Soutif-Bellenger, M., Thirel, G., Fernandez, S., Dorchies, D., 2023. Build and evaluate climate change adaptation with a parsimonious integrated agro-hydrological model over a catchment in northeastern France (No. EGU23-12160). Presented at the EGU23, Copernicus Meetings. https://doi.org/10.5194/egusphere-egu23-12160

  • Soutif-Bellenger, M., Thirel, G., Therond, O., Villerd, J., 2022. How much can we simplify irrigation in an integrated modeling purpose? A case study in southern France (No. IAHS2022-32). Presented at the IAHS2022, Copernicus Meetings. https://meetingorganizer.copernicus.org/IAHS2022/IAHS2022-32.html.

  • Santos, L., Thirel, G., Perrin, C., 2022. Impact of water withdrawals and releases on the parameters of a bucket-type rainfall-runoff model (No. IAHS2022-421). Presented at the IAHS2022, Copernicus Meetings.

  • Nunez Torres, L., 2021. Simulation d’un bassin versant anthropisé à l’aide d’un modèle hydrologique semi-distribué: Le bassin de la Seine et ses réservoirs. Rapport de stage ST5 -Polytech Sorbonne -1er septembre 2021 (other). PolyTech Sorbonne. https://hal.inrae.fr/hal-03359617 Dau, Q., Dorchies, D., Bader, J.-C., 2021. Many-objective risk assessment framework for guiding operational decisions on multiple reservoirs. Presented at the EGU General Assembly 2021 - vEGU21: Gather Online. https://doi.org/10.5194/egusphere-egu21-10676

Author(s)

Maintainer: David Dorchies david.dorchies@inrae.fr (ORCID)

Other contributors:

References

  • Thirel, G., Dorchies, D., Delaigue, O., Nunez Torres, L., Elmalki, D., 2022. Évaluation de l’impact du changement climatique et de l’adaptation avec des outils de modélisation hydrologiques libres. Presented at the 35e colloque annuel de l’Association Internationale de Climatologie.

  • Dorchies, D., Delaigue, O., Thirel, G., 2021. airGRiwrm: an extension of the airGR R-package for handling Integrated Water Resources Management modeling. Presented at the EGU General Assembly 2021 - vEGU21: Gather Online, p. EGU21. https://doi.org/10.5194/egusphere-egu21-2190

  • de Lavenne, A., Andréassian, V., Thirel, G., Ramos, M.-H., Perrin, C., 2019. A regularization approach to improve the sequential calibration of a semidistributed hydrological model. Water Resources Research 55, 8821–8839. https://doi.org/10.1029/2018WR024266

  • Lobligeois, F., Andréassian, V., Perrin, C., Tabary, P., Loumagne, C., 2014. When does higher spatial resolution rainfall information improve streamflow simulation? An evaluation using 3620 flood events. Hydrology and Earth System Sciences 18, 575–594. https://doi.org/10.5194/hess-18-575-2014

See Also

Useful links:


inrae/airGRiwrm documentation built on Sept. 27, 2024, 6:08 p.m.