A mathematical concept of runoff prediction model for small tropical catchment areas

Sudjono, Priana

doi:10.2166/wst.1995.0341

Cited by 2 publications

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“…Every segment is horizontally divided into layers that the main characteristic of a layer is the hydraulic conductivity. In order to compute the quantity of overland flow, the overland flow was calculated using computer model ISTFM (Sudjono, 1995 and. Concerning the accuracy of the predicted flow, basin physical characteristics such as hydraulic conductivity, surface slope and area must be considered.…”

Section: Computational Methods the Computation On Overland Flowmentioning

confidence: 99%

Simulasi Komputer Pengaruh Relokasi Keramba Jaring Apung Terhadap Kandungan Nitrat Di Dalam Air Waduk Jatiluhur

Ashuri

Sudjono

2013

j.tl

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Fish cages to breed fish for food had grown uncontrollable in Jatiluhur long-shaped reservoir. As the number of fish cages is pretty high and some additional nutrient from the overland water enters the reservoir, they can raise Nitrogen concentration in the reservoir water. Nitrogen is one of nutrient that is used by aquatic weeds to grow so it triggers eutrophication in the reservoir. Then it can give nuisance to the machinery of the electric generators and the agriculture lands. The research used computer model to prove the reduction of nitrogen concentrations through relocations of fish cages to upstream sides. The basic idea of reduction is by taking advantage of the biochemical processes in the flowing water to the outlet gate. The source of nitrogen is the overland water and the residue of pallet. Then computations on concentrations of Nitrate based on horizontal scheme that divides the reservoir into some segments along the water flow from inlet to outlet. In a segment, a homogeneous condition is applied, and the waters move from one segment to the adjacent downstream segment. Preceding those, scenarios on the percentage of relocated fish cages were developed as it is a way to obtain amount of reduction of Nitrate concentrations at the outlet zone. It is found that the amounts of Nitrogen reductions at the outlet zone depend on the number of relocated fish cages and the distance of the relocated zones.

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Section: Computational Methods the Computation On Overland Flowmentioning

confidence: 99%

Simulasi Komputer Pengaruh Relokasi Keramba Jaring Apung Terhadap Kandungan Nitrat Di Dalam Air Waduk Jatiluhur

Ashuri

Sudjono

2013

j.tl

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“…Despite the large interest and advancement in rainfallrunoff modelling, there are very few records of its application in tropical humid catchment (Sudjono, 1995;Campling et al, 2002). Moreover, most of the available models for rainfall-runoff studies do not represent vegetation as a dynamic component.…”

Section: Introductionmentioning

confidence: 99%

A numerical model for simulating Hortonian overland flow on tropical hillslopes with vegetation elements

Ajayi

Giesen

Vlek

2007

Hydrological Processes

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Abstract:This paper describes a two-dimensional hydrodynamic model that characterizes surface runoff process resulting from a varying rainfall intensity event, on an infiltrating soil surface. The soil surface has spatially varied soil physical, hydraulic and microtopographic characteristics. Infiltration process is modelled with the Philip two-term equation and the time before ponding approximated with the time compression algorithm. Vegetation is modelled as a dynamic component with the modified Gash model. The equation is solved with a modified second order Leapfrog explicit finite difference scheme with centred time and space derivatives. The model was validated with standard analytical solutions. Evaluation with results from field campaigns in the Volta Basin of West Africa during the 2002 rainfall season indicates good agreement, with r 2 values ranging from 0Ð89 to 0Ð96. The developed method will be useful in studying the dynamics of surface runoff generation under complex microtopographic conditions, spatially varying soil hydraulic characteristics and temporally dynamic rainfall intensity, as found in many tropical catchments.

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A mathematical concept of runoff prediction model for small tropical catchment areas

Cited by 2 publications

References 0 publications

Simulasi Komputer Pengaruh Relokasi Keramba Jaring Apung Terhadap Kandungan Nitrat Di Dalam Air Waduk Jatiluhur

Simulasi Komputer Pengaruh Relokasi Keramba Jaring Apung Terhadap Kandungan Nitrat Di Dalam Air Waduk Jatiluhur

A numerical model for simulating Hortonian overland flow on tropical hillslopes with vegetation elements

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