It is only on the basis of groundwater-simulated model that GIS can be applied to groundwater resource evaluation and management effectively. There are three different approaches to integrate groundwater numeric model and Geographical Information System (GIS), embedded integration, loose coupling and tight coupling.
Based on the basic principles of the micrometeorology of atmospheric boundary layers and vegetation canopy, a numerical model of the interaction between forest ecosystems and atmospheric boundary layers was developed.
Kinetic theory was introduced to establish a 3D kinetic numerical model for wavelike slug gas-solid flow in this paper.
The flows were also analyzed using a numerical model of the three-dimensional turbulent flow in the pumps near the peak efficiency point using the k-? turbulence model and the VOF cavitation model.
A three-dimensional physical and numerical model of the basic pulse tube refrigerator (PTR) was developed.
The numerical model of automaton behavior is helpful in applying algebraic tools to solve the functional behavior renewal problem.
The research topics include: numerical modeling of random seismic waves, probabilistic density evolution analysis for nonlinear structural responses, and seismic reliability analysis of large-scale lifeline networks.
Numerical modeling demonstrates that architectures of this kind are promising for acceleration of decoding in the digital communication systems.
The effectiveness of the suggested control law is shown with the aid of numerical modeling.
The problem of numerical modeling consisted in the construction of a system for the prediction of a change in the Gibbs free energy (Δ G) in the course of the formation of protein-protein and protein-ligand complexes.
Results of a numerical modeling experiment are given.
A numeric model for the kinetics of water vapor sorption on cellulosic reinforcement fibers
The representation of the surface pressure field in a two-dimensional hydrodynamic numeric model for the North Sea, the Skagerra
The experimental measurements were used to validate a numeric model of ablation in an accompanying paper.
The study is also trialling an US numeric model 'STOMP' (Subsurface Transport over Multiple Phases), to calculate daily water balance, to identify suitable plant species and to optimise thickness of the soil cover to be used in phytocapping.
A third approach involves the use of the numeric model to predict hydrochemical transport at each site.
The numerical simulation model can be used to evaluate the wind environment and wind load around high buildings.
A numerical simulation model for predicting residual stresses which arise during the solidification process of pressed glass bulb panel was developed.
This paper presents a numerical simulation model that analyzes the impacts of communication on location, consumption, and the allocation of time.
The groundwater level fluctuation was estimated based on a two-dimensional analysis of lateral flow perpendicular to the stream using a numerical simulation model with soil physical parameters and observed boundary conditions.
A physically- and physiologically-based, climatically-sensitive, numerical simulation model of forest dynamics, the Energy, Water, and Momentum Exchange and Ecological Dynamics (EXE) model, is used for this purpose.