Journal article
Pyraingen: A python package for constrained continuous rainfall generation
C Dykman, A Sharma, C Wasko, R Nathan
Environmental Modelling and Software | ELSEVIER SCI LTD | Published : 2024
Abstract
Continuous rainfall is often required for flood estimation and water resources assessment. However, stochastically generated continuous rainfall records are typically inconsistent with intensity-frequency-durations (IFDs) used in design, and do not simulate the rainfall behaviour we can expect in a future warmer climate. Here, we present the python package pyraingen to generate ensembles of continuous subdaily rainfalls at a single location that preserve IFD relationships. Rainfall generation can also be conditioned on a climate covariate, in this case temperature, to produce rainfall timeseries reflective of a future climate. We present an implementation at five climatologically unique site..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
The authors acknowledge support from the Australian Research Council (DP200101326, DE210100479) . The authors would also like to acknowledge the help and support of Dr. Raj Mehrotra and Dr. Peter Brady in developing the software code. The initial funding for compo- nents of this work was received from Engineers Australia for revision of Australian Rainfall and Runoff as reported in Woldemeskel et al. (2015) .