论文信息 - Unified structural approach to linear flood routing

Unified structural approach to linear flood routing

Abstract The structural theory of linear systems, which allows the non-homogeneous initial and boundary conditions to be expressed as part of a generalised system input, is applied to the problem of linear flood routing. The standardising functions needed to accomplish this are derived for three methods of lumped hydrologic flood routing (lag and route, Muskingum and Kalinin-Milyukov) and to three methods of distributed hydraulic flood routing (kinematic wave and two simplified forms of the linear St. Venant model). The appropriate Green's functions needed to complete the solution for these six cases are also presented.

Zbigniew W. Kundzewicz | James C. I. Dooge | Z. Kundzewicz | J. C. Dooge

[1] G. Doetsch. Guide to the applications of the Laplace and Z-transforms , 1971 .

[2] James C. I. Dooge,et al. Linear Theory of Hydrologic Systems , 1973 .

[3] A. G. Butkovskii,et al. Green's Functions and Transfer Functions Handbook , 1982 .

[4] J. Cunge,et al. Practical aspects of computational river hydraulics , 1980 .

[5] On backwater effects in linear diffusion flood routing , 1983 .

[6] L. M. MILNE-THOMSON,et al. Operational Methods in Applied Mathematics , 1942, Nature.

[7] M. Lighthill,et al. On kinematic waves I. Flood movement in long rivers , 1955, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[8] F. Henderson. Open channel flow , 1966 .

[9] W. Brutsaert. Review of Green’s Functions for Linear Open Channel , 1973 .