Circulation Models continued 1

DYNHYD5 solves the one-dimensional shallow-water equations of continuity and momentum for a branching or channel-junction (link-node) computational network.

Water Quality Analysis Simulation Program (WASP) is a generalized framework for modeling contaminant fate and transport in surface waters. WASP is based on the flexible compartment modeling approach, and can be applied in one, two, or three dimensions. Each compartment, or segment, is designated as a hypolimnion layer, epilimnion layer, upper benthic layer, or lower benthic layer.

General Ocean Turbulence Model (GOTM) is an ambitious name for a one-dimensional water column model for marine and limnological applications. It is coupled to a choice of traditional as well as state-of-the-art parameterisations for vertical turbulent mixing.

MOHID is a three-dimensional water modelling system, developed by MARETEC (Marine and Environmental Technology Research Center) at Instituto Superior Técnico (IST) which belongs to Technical University of Lisbon.

RMA2 is a dynamic two-dimensional depth-averaged finite element hydrodynamic model for computing water surface elevations and horizontal velocity components for subcritical, free-surface flow. It is designed for far-field problems in unstratified water bodies in which vertical accelerations are negligible (hydrostatic) and velocity vectors generally point in the same direction over the entire depth of the water column.

Parabolic Hyperbolic Or Elliptic Numerical Integration Code Series

PHOENICS is a general-purpose software package which predicts quantitatively: how fluids (air, water, steam, oil, blood, etc) flow in and around: engines, process equipment, buildings, human beings,

lakes, river and oceans.