Rh. Khatibi, HYDRAULIC CHARACTER OF FLOOD DRAINAGE SYSTEMS - PART-2 - CASE-STUDIES, Proceedings of the Institution of Civil Engineers. Water, maritime and energy, 124(4), 1997, pp. 254-268
Hydraulic characterization of flood drainage systems (FDS), as outline
d in Paper 11320,(1) is the focal point of this paper and is discussed
in nine separate case studies, The hydraulic characterization of each
case is presented after broadly outlining its general perspective, co
ntext, and modelling details, The studies are wide in scope and each o
ne can be inclusive of the following characters (a) attenuation charac
ter: a mechanism of slowing down caused by storage and dynamic effects
, with storage being more significant than dynamic effects in floodpla
ins or perched main rivers spilling over on to floodplains (b) storage
-based systems: a character describing the suppression of dynamic effe
cts and the prevalence of reservoir effects (c) responsive systems: a
character describing the dominance of gravity, which may be associated
with flood drainage of upper catchments (d) retarding basins: another
floodplain feature causing main river flows to be slowed down (e) ine
rtial character: specific to nearly-flat tidal and similar waterways (
f) distributive systems: a physical feature concerned with confluence,
bifurcation and loops often associated with many encroached FDS or de
ltaic conditions (g) locally-governed systems: a reflection of the eff
ects of man-made and natural features of flow regimes as in industrial
valleys (h) complex hydrodynamic, composite and compound systems.