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River flood frequency estimation using continuous runoff modelling

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

River flood frequency estimation using continuous runoff modelling. / Calver, A.; Lamb, Robert; Morris, S. E.
In: Proceedings of the ICE - Water and Maritime Engineering, Vol. 136, No. 4, 12.1999, p. 225-234.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Calver, A, Lamb, R & Morris, SE 1999, 'River flood frequency estimation using continuous runoff modelling', Proceedings of the ICE - Water and Maritime Engineering, vol. 136, no. 4, pp. 225-234.

APA

Calver, A., Lamb, R., & Morris, S. E. (1999). River flood frequency estimation using continuous runoff modelling. Proceedings of the ICE - Water and Maritime Engineering, 136(4), 225-234.

Vancouver

Calver A, Lamb R, Morris SE. River flood frequency estimation using continuous runoff modelling. Proceedings of the ICE - Water and Maritime Engineering. 1999 Dec;136(4):225-234.

Author

Calver, A. ; Lamb, Robert ; Morris, S. E. / River flood frequency estimation using continuous runoff modelling. In: Proceedings of the ICE - Water and Maritime Engineering. 1999 ; Vol. 136, No. 4. pp. 225-234.

Bibtex

@article{a9797b440b25475f9bf83ce9b5f18221,
title = "River flood frequency estimation using continuous runoff modelling",
abstract = "This paper explores the estimation of river flood frequencies by modelling catchment runoff on a continuous time basis. The work uses the modelling of a sample of British catchments as a basis for generalization in space, such that ungauged sites can potentially be addressed by the method. The principles of the method are outlined. Pilot study hood frequency results for site-specific and for spatially generalized model parameter estimation are discussed. Examples are given of an extension of the method in time to allow estimates to be made of high recurrence interval floods, and of the ability of the method to incorporate changed climatic regimes.",
keywords = "floods & floodworks, models (physical)",
author = "A. Calver and Robert Lamb and Morris, {S. E.}",
year = "1999",
month = dec,
language = "English",
volume = "136",
pages = "225--234",
journal = "Proceedings of the ICE - Water and Maritime Engineering",
issn = "1472-4561",
publisher = "Thomas Telford Ltd.",
number = "4",

}

RIS

TY - JOUR

T1 - River flood frequency estimation using continuous runoff modelling

AU - Calver, A.

AU - Lamb, Robert

AU - Morris, S. E.

PY - 1999/12

Y1 - 1999/12

N2 - This paper explores the estimation of river flood frequencies by modelling catchment runoff on a continuous time basis. The work uses the modelling of a sample of British catchments as a basis for generalization in space, such that ungauged sites can potentially be addressed by the method. The principles of the method are outlined. Pilot study hood frequency results for site-specific and for spatially generalized model parameter estimation are discussed. Examples are given of an extension of the method in time to allow estimates to be made of high recurrence interval floods, and of the ability of the method to incorporate changed climatic regimes.

AB - This paper explores the estimation of river flood frequencies by modelling catchment runoff on a continuous time basis. The work uses the modelling of a sample of British catchments as a basis for generalization in space, such that ungauged sites can potentially be addressed by the method. The principles of the method are outlined. Pilot study hood frequency results for site-specific and for spatially generalized model parameter estimation are discussed. Examples are given of an extension of the method in time to allow estimates to be made of high recurrence interval floods, and of the ability of the method to incorporate changed climatic regimes.

KW - floods & floodworks

KW - models (physical)

M3 - Journal article

VL - 136

SP - 225

EP - 234

JO - Proceedings of the ICE - Water and Maritime Engineering

JF - Proceedings of the ICE - Water and Maritime Engineering

SN - 1472-4561

IS - 4

ER -