What does POM mean in METEOROLOGY


The Princeton Ocean Model (POM) is a mathematical model that has been developed to simulate properties of the ocean and predict its behavior. The primary application for this model is to simulate ocean currents, waves, salinity, temperature and other factors. This tool has been used extensively by researchers in the oceanography field to study the various properties of the ocean. POM is also widely used in a variety of engineering and science-driven applications such as climate change studies, wave forecasting, sediment transport analysis and more. With its powerful capabilities, POM has become an indispensable tool for furthering our knowledge of the ocean and enhancing our understanding of how it works.

POM

POM meaning in Meteorology in Academic & Science

POM mostly used in an acronym Meteorology in Category Academic & Science that means Princeton Ocean Model

Shorthand: POM,
Full Form: Princeton Ocean Model

For more information of "Princeton Ocean Model", see the section below.

» Academic & Science » Meteorology

Definition

POM stands for Princeton Ocean Model which is a 3-dimensional numerical simulation developed by Dr. Alexander Kolker at Princeton University in 1998. The model simulates physical properties such as velocity or vorticity along with their evolution over time due to various processes such as mixing or advection. As a result, it can be used to simulate physics-based phenomena in the coastal zone like internal waves or barotropic tides among many others.

Applications

POM has proven to be an invaluable tool for researchers across multiple disciplines including meteorology, coastal engineering, physical oceanography and marine science. It offers great flexibility when studying the dynamics of the open ocean or nearshore water bodies with high resolution both horizontally and vertically. In addition to wave forecasting and sediment transport modeling, POM can also be used to look at sea-level rise scenarios resulting from climate change projections, assess offshore renewable energy sites through risk assessment studies, track pollutant dispersion from point sources into the environment and study ship wake patterns among many other applications.

Essential Questions and Answers on Princeton Ocean Model in "SCIENCE»METEOROLOGY"

What is Princeton Ocean Model?

Princeton Ocean Model (POM) is a numerical ocean modeling system used to simulate the ocean’s circulations on global and regional scales. It features a hydrostatic primitive equation model and implements multiple parameterizations of physical processes for holistically studying various aspects of the oceans.

Who developed the Princeton Ocean Model?

The Princeton Ocean Model was developed by the Program in Atmospheric and Oceanic Sciences at Princeton University.

What kind of simulation can it achieve?

With its primitive equation model, POM can simulate global-to-regional scale circulation including mesoscale eddies, internal waves, tides, air-sea interaction such as surface winds, latent heat fluxes and solar radiation. Its nonlinear free surface formulation also allows for creating higher resolution topography than traditional grid structure.

What are some of POM’s capabilities?

POM has several advanced features that enable it to produce high-quality simulations such as multi-dimensional time filters, grid nesting/refinement, adaptive mesh refinement and anisotropic mesh relaxation.

How is Princeton Ocean Model used?

The Princeton Ocean Model is designed to create data simulations that can be used for research purposes such as climate modeling or hydrological research. It can also be utilized for educational purposes by providing students with realistic data sets they can use to better understand ocean dynamics.

What type of data does POM require?

POM requires oceanographic input fields such as sea surface height anomaly, SSHAnom; sea water salinity fields, SSS; sea water temperature field, SST; wind fields amongst others. It also needs bathymetry information in order to correctly simulate currents and waves.

Is there any software available to support the use of the Princeton Ocean Model?

Yes, there are several software programs available that have been developed specifically for use with the POM such as MPAS–Ocean a netCDF file generator for generating oceanographic data inputs needed in the POM simulations.

Does Princeton Ocean Model offer user support services?

Yes, user support services are offered by several platforms such as mailing lists or Facebook groups where users can ask questions directly related to using or installing the model. There are also online tutorials available which provide detailed guides on how to set up simulations.

Are there any tutorials or documents available which explain how to configure Simulations using Princeton Ocean Model?

Yes, there are many tutorials available online including step-by-step instructions on how to perform different types of configurations within the model. There is also comprehensive documentation provided by many online sources which explains more complicated techniques for setting up complex simulations.

Final Words:
In conclusion, The Princeton Ocean Model (POM) is a powerful numerical simulation tool that provides unique insights into complex environmental phenomena happening both within deep water masses as well as at shoreline regions around the world. Its broad range of applications makes POM extensivelly used by researchers from multiple fields such as meteorology, physical oceanography or coastal engineering where its performance has been praised highly time after time again since its inception more than 20 years ago.

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