In this paper, we report on the results of an investigation into the impacts of climate change on the storage-yield relationships for two multiple-reservoir systems, one in England and the other in Iran. The impact study uses established protocol and obtains perturbed monthly inflow series using a simple runoff coefficient approach which accounts for non-evaporative losses in the catchment, and a number of recently published GCM-based scenarios. The multi-reservoir analysis is based on the sequent-peak algorithm which has been modified to analyse multiple reservoirs and to accommodate explicitly performance norms and reservoir surface fluxes, i.e. evaporation and rainfall. As a consequence, it was also possible to assess the effect of including reservoir surface fluxes on the storage-yield functions. The results showed that, under baseline conditions, consideration of net evaporation will require lower storages for the English system and higher storages for the Iranian system. However, with perturbed hydroclimatology different impacts were obtained depending on the systems' yield and reliability. Possible explanations are offered for the observed behaviours.
Research Article|April 01 1999
The Impact of Climate Change on Storage-Yield Curves for Multi-Reservoir Systems
N. R. Nawaz, A. J. Adeloye, M. Montaseri; The Impact of Climate Change on Storage-Yield Curves for Multi-Reservoir Systems. Hydrology Research 1 April 1999; 30 (2): 129–146. doi: https://doi.org/10.2166/nh.1999.0007
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