Reducing the Magnetic Signature of a Submarine

Mark Fowler | February 24, 2014
List us on Facebook Folow us on Twitter Join us on Google+ Connect with us on LinkedIn

Submarines can be detected by enemy weapon systems due to their magnetic signatures. By designing vessels with reduced magnetic signatures, detection can be avoided, but the composition and size of most submarines often make simulation difficult. COMSOL software helps you overcome this problem.

Detecting Magnetic Signatures

Magnetic signatures are measurable disturbances in Earth’s magnetic field. Submarines produce their own magnetic signatures, for example. However, the magnetic signatures they produce make them vulnerable to enemy weapon systems. During submarine warfare, enemies use increasingly sophisticated magnetic sensors and signal processing systems that make disturbances in Earth’s magnetic field easy to detect.

A submarine
Submarine. Image courtesy of Kockums AB.

To combat this, engineers use degaussing techniques, i.e. methods to suppress submarines’ magnetic signatures to safe levels. One such technique involves generating a counteracting magnetic field of sufficient strength and direction that matches the background field. In order to accomplish this, one must be able to predict a submarine’s magnetic signature based on its magnetic properties.

Standing up to the Submarine Simulation Challenge

Submarines are essentially long steel tubes, and their magnetic signature is primarily due to the permeability of the steel hull. Although it is built to withstand enormous pressure, a submarine hull is still relatively thin compared to the size of the vessel. Simulation of such a structure would be difficult using standard finite element analysis because volume meshes of thin, long structures are difficult to generate and tend to become very large.

However, using COMSOL Multiphysics and the AC/DC Module, you can overcome this issue by modeling thin metal sheets as 2D faces embedded in a 3D geometry.

A submarine model geometry showing face objects representing the submarine and a 3D box representing the surrounding water
A model geometry of a submarine where face objects represent the submarine and a 3D box represents the surrounding water.

The Reduced Field Formulation

Once you have built the geometry of the submarine and you understand its magnetic properties, you can work towards predicting its magnetic signature. The AC/DC Module contains the Reduced Field formulation, which is a very helpful feature for obtaining the magnetic signature. The feature allows you to define the background field as a predefined quantity and solve only for disturbances in the field.

If you follow the step-by-step instructions in the Model Gallery, you can set up and solve the model.

Schematic showing the magnetic flux density of a submarine 7.5 m below the keel
The total magnetic flux density in a horizontal slice plot 7.5 m below the keel.

A distinct field disturbance is apparent due to the presence of the submarine. Shown, using arrows, are the magnitude and direction of the tangential magnetic field in the submarine’s hull. The reduced field is seen as isosurfaces of the reduced magnetic potential.

Further Reading

Article Categories

Loading Comments...