FR3091056A1 - Power supply system for a naval platform such as a submarine - Google Patents

Abstract

Electrical power supply system for a naval platform such as a submarine This electrical power supply system for a naval platform such as a submarine, comprising means (1) forming a generator electrical energy and electrical energy storage means (2), is characterized in that the electrical energy storage means comprise at least one hybrid lead (3) and lithium / ion (4) battery. Figure for the abstract: Single Figure

Description

Description

Title of the invention: Power supply system for a naval platform such as a submarine

The present invention relates to an electrical power supply system for a naval platform such as a submarine.

More particularly, the invention relates to such a power supply system comprising means forming an electrical energy generator and means for storing electrical energy.

In the prior art, the electrical energy storage means include for this type of applications, lead batteries.

[0004] Such batteries are currently used with depths of discharge typically in the range of 85 to 55%.

This results from two main technical reasons.

The lifespan of a lead-acid battery is limited in terms of the number of cycles (a few hundred).

It is all the more limited since the depth of discharge during use is important.

To maintain a long service life it is desirable not to go below 50% of the discharge depth.

Charging 100% of a lead-acid battery is critical because in high-charge areas, the release of hydrogen occurs.

Furthermore, the current that the battery can absorb in these areas is lower, the full charge being operationally dangerous and generally not authorized at sea.

The object of the invention is to propose an alternative embodiment of these electrical energy storage means for this type of application, which makes it possible to improve their performance.

To this end the invention relates to a system for supplying electrical energy to a naval platform such as a submarine, comprising means forming an electrical energy generator and means for storing energy electrical, characterized in that the electrical energy storage means comprise at least one hybrid lead and lithium / ion battery.

According to other characteristics of the system according to the invention taken alone or in combination:

- The battery comprises at least one lead module and at least one lithium / ion module, connected to at least one on-board network of the platform and associated with each other through an interconnection module;

- the interconnection module comprises at least one diode;

- The means forming an electric generator comprise a rectifier alternator driven by at least one engine;

- the engine is a Diesel engine.

The invention will be better understood using the description which follows, given solely by way of example and made with reference to the accompanying drawing which represents a block diagram illustrating the structure of a power system in electrical energy from a naval platform such as a submarine, according to the invention.

We have indeed illustrated in this figure, an electrical power supply system of a naval platform such as a submarine.

In fact such a power system comprises means forming an electrical energy generator, designated by the general reference 1 in this figure and electrical energy storage means, designated by the general reference 2.

As illustrated in this figure, these electrical energy storage means comprise at least one hybrid lead and lithium / ion battery.

In fact and as illustrated, this battery comprises at least one lead module designated by the general reference 3 in this figure and at least one lithium / ion module designated by the general reference 4, connected to at least one network edge of the platform, designated by the general reference 5 in this figure, and associated with each other through an interconnection module designated by the general reference 6.

This interconnection module can simply include at least one diode.

A system for managing the operation of the lithium / ion module of the battery is associated with it and designated by the general reference 7 in this figure.

The means forming an electric generator comprise a rectifier alternator driven by at least one engine, this engine possibly being a diesel engine for example.

The two modules are dimensioned for the nominal voltage of the submarine network and the module interconnection module makes it possible to manage the charge, discharge and coupling of the batteries.

As already indicated, it could be limited to a single diode.

The alternator can also be equipped with independent outputs for each of the modules.

It is understood that this structure using lithium / ion batteries allows a high number of cycles while allowing high charging and discharging regimes.

Other advantages result from the combination of the two module technologies.

It is indeed possible to reduce the time spent on the surface to recharge the battery by segmenting the charging periods so as to always be able to use the charging means at full speed.

The overall life of the battery bank and the energy efficiency of the battery / charger system are also improved overall.

Some security events are mixed, such as the possibility of spillage during overload.

The cost of acquiring and owning storage means is also optimized.

The level of maintenance is also potentially reduced and the possible time of high speed operation of the propulsion means is improved.

Of course, other embodiments can also be envisaged.

Claims (1)

Claims [Claim 1] System for supplying electrical energy to a naval platform such as a submarine, comprising means (1) forming an electrical energy generator and means (2) for storing electrical energy, characterized in that the electrical energy storage means comprise at least one hybrid lead (3) and lithium / ion (4) battery. [Claim 2] Power supply system for a naval platform according to claim 1, characterized in that the battery comprises at least one lead module (3) and at least one lithium / ion module (4), connected to at least one on-board network (5) of the platform and associated with each other through an interconnection module (6). [Claim 3] Power supply system for a naval platform according to claim 2, characterized in that the interconnection module (6) comprises at least one diode. [Claim 4] System for supplying electrical power to a naval platform according to any one of the preceding claims, characterized in that the means forming an electric generator (1) comprise a rectifier alternator driven by at least one engine. [Claim 5] Power supply system for a naval platform according to claim 4, characterized in that the engine is a diesel engine. 1/1