A framework for establishing a distributed, daily-time-step water resources model based on a pre-existing spatially lumped monthly representation: A case study of the Grootdraai Catchment, South Africa

A framework for establishing a distributed, daily-time-step water resources model based on a pre-existing spatially lumped monthly representation: A case study of the Grootdraai Catchment, South Africa

Study region: Southern Africa Study focus: Proprietary monthly lumped models are pragmatic tools for water resources management and planning. However, their low spatial granularity and limited transparency pose significant obstacles to effective water quantity and quality management, particularly in...

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Bibliographic Details
Main Authors: Sofia Lazar, Andrew Robert Slaughter, Neil Griffin, Oghenekaro Nelson Odume
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Journal of Hydrology: Regional Studies
Subjects:
Lumped models
Black box
Distributed models
Pywr
WRYM
Cost-effective water resources modelling
Online Access:http://www.sciencedirect.com/science/article/pii/S2214581825003180
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Summary:Study region: Southern Africa Study focus: Proprietary monthly lumped models are pragmatic tools for water resources management and planning. However, their low spatial granularity and limited transparency pose significant obstacles to effective water quantity and quality management, particularly in developing countries. This study aimed to develop a distributed, daily-time-step model for a developing country catchment based on an existing black-box, lumped, monthly representation. New hydrological insights for the region: An Open-Source, Python Water Resources (Pywr) model of the Grootdraai Catchment, South Africa was developed based on a pre-existing monthly Water Resources Yield Model (WRYM) representation. Nodes in the Pywr model were established at a finer spatial scale, and return flows were represented individually. Lumped, monthly natural inflows of the WRYM model were disaggregated to daily using an existing method based on daily rainfall. Abstractions and return flows in the WRYM were disaggregated evenly among the days in the month for input into the Pywr representation. Comparisons of monthly simulated WRYM reservoir storage and river flow with the daily simulations by Pywr exhibited a high level of agreement. The proposed framework can considerably reduce the time and resources required to develop spatially distributed models by leveraging existing resources and can guide the cost-effective and rapid transition from monthly-lumped to daily-distributed water resources models.
ISSN:2214-5818

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