Hocine Henine scite author profile

Hocine Henine

3Publications

65Citation Statements Received

27Citation Statements Given

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Affiliations

Institut Polytechnique de Paris, National Research Institute for Agriculture, Food and Environment, University of Paris-Saclay

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Towards multi-scale integrated hydrological models using the LIQUID® framework. Overview of the concepts and first application examples

Branger¹,

Braud²,

Debionne

et al. 2010

Environmental Modelling & Software

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Distributed hydrological models are valuable tools that can be used to support water management in catchments. However, the complexity of management issues, the variety of modelling objectives, and the variable availability of data require a flexible way to customize models and adapt them to each individual problem. Environmental modelling frameworks offer such flexibility; they are designed to build and run integrated models on the basis of reusable and exchangeable components. This paper presents the LIQUID ® framework, developed by Hydrowide since 2005. The purpose of developing LIQUID ® was to provide both easier integration of hydrological processes and preservation of their characteristic temporal and spatial scales. It suits a wide range of applications, both in terms of spatial scales and of process conceptualisations. LIQUID ® is able to synchronize different time steps, to handle irregular geometries, and to simulate complex connections between components, in particular involving feedback. The paper presents the concepts of LIQUID ® and the technical choices made to meet the above requirements, with focuses on the simulation run system and on the spatial discretization of process components. The use of the framework is illustrated by five application cases associated with contrasted spatial and temporal scales.

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Coupled modelling of the effect of overpressure on water discharge in a tile drainage system

Henine

Nédélec

Ribstein

2014

Journal of Hydrology

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Coupling of a subsurface drainage model with a soil reservoir model to simulate drainage discharge and drain flow start

Henine

Jeantet

Chaumont

et al. 2022

Agricultural Water Management

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Hocine Henine

Towards multi-scale integrated hydrological models using the LIQUID® framework. Overview of the concepts and first application examples

Coupled modelling of the effect of overpressure on water discharge in a tile drainage system

Coupling of a subsurface drainage model with a soil reservoir model to simulate drainage discharge and drain flow start

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