RU2518694C1 - Device to reduce intensity of ir-radiation of gas flow and external surface of vessel stack to reduce their thermal visibility - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: in a device to reduce infrared radiation of gas flow and external heated surface of a vessel stack there are vertical and horizontal screening plates made of composite materials, having radio absorption, heat insulation and heat reflecting properties.

EFFECT: reduced probability of vessel detection by means of infrared surveillance instruments operating in infrared and radar ranges of frequencies.

2 cl, 3 dwg

Description

The invention relates to the field of reducing the intensity of the radiation of the gas stream and the outer heated surface of the chimney of the vessel in order to reduce their thermal visibility and the issue of reducing their infrared radiation.

A device for reducing infrared radiation of a vessel (patent N 2-1212, 10.24.86, Japan, IPC F41H 3/00) is a prototype.

According to the known device for reducing the intensity of infrared rays emitted by the outer surface of the chimney of a vessel, two shielding plates of a transparent material absorbing infrared radiation are installed at a certain distance from two opposite sides of the chimney.

However, this device does not sufficiently reduce infrared radiation of the external heated surfaces of the chimney of the vessel and the gas stream, which is also a strong source of thermal radiation and does not prevent the detection of the vessel using infrared technology at viewing angles close to 90 degrees.

The objective of the invention is to reduce the intensity of infrared radiation of the heated surfaces of the chimney and gas stream in the wavelength range from 3 to 5 microns and from 8 to 14 microns at different elevation angles (from 0 ° to 90 °).

To this end, a device for reducing the radiation intensity of the gas stream and the outer surface of the chimney from detection by infrared radiation consists of two vertical shielding plates mounted on two opposite sides of the chimney, which are connected to each other in pairs by two horizontal plates, covering the top of the chimney cut from detection at high elevation angles.

A distinctive feature of the device for reducing the radiation intensity of the gas stream and the outer surface of the chimney is that the vertical and horizontal shielding plates are made of composite materials with radio-absorbing, heat-insulating and heat-reflecting properties.

The invention is illustrated in the drawing, which presents:

a - side view diagram of the vessel,

b - view of the vessel from the bow, where:

1 - chimney

2 - vertical shielding plates,

3 - horizontal shielding plates,

in - top view.

The proposed device operates as follows.

The gas flow of the ship’s power plant, leaving the chimney, is carried away by the oncoming air flow generated due to the movement of the ship towards the stern. Vertical shielding plates are located on two opposite sides of the chimney at a distance that provides free passage of air flow generated during the movement of the vessel, which can significantly reduce the thermal radiation of the heated surfaces of the chimney.

The height of the lower horizontal shielding plate is selected so that at full speed the trajectory of the gas torch passes below this plate. The upper shielding horizontal plate is located at a distance providing free passage of air flow.

The claimed device for reducing the intensity of infrared radiation of the gas stream and the external heated surface of the chimney of the vessel in order to reduce the thermal visibility of infrared radiation in comparison with the method adopted as a prototype, has the following differences. Vertical shielding plates mounted on two opposite sides of the chimney are connected to each other in pairs by two horizontal plates that close the chimney cut from detection at large elevation angles and are located at a certain distance from each other.

Vertical and horizontal shielding plates are made of composite materials, which can be made by existing vacuum methods such as RTM and infusion. The design of composite materials can be created with radio-absorbing properties in a wide range of frequencies of radio emission, in addition, it can have heat-insulating and heat-reflecting properties that significantly reduce the likelihood of a vessel being detected using devices operating in the infrared and radar frequency ranges. This gives the right to consider that the claimed device meets the criterion of "novelty."

Conducted patent technical studies do not reveal technical solutions that can effectively reduce the infrared radiation of the gas stream and the external heated surface of the chimney of the vessel. This gives the right to consider that the claimed device meets the criterion of "significant differences".

Calculation studies have shown that the screening of the heated outer surface of the chimney and gas flow using this device can reduce the thermal signature of the vessel from 2 to 10 times.

The proposed device for reducing infrared radiation of the heated outer surfaces of the chimney and gas flow can significantly increase the efficiency of reducing infrared radiation of the heated outer surfaces of the chimney and gas flow using a shielding device, which distinguishes it from the prototype.

Claims (2)

1. Device for reducing the intensity of infrared radiation of the gas stream and the outer surface of the chimney of the vessel in order to reduce their thermal visibility, consisting of two vertical shielding plates located at a certain distance from the outer surface of the body of the chimney of the ship, characterized in that the vertical shielding plate, mounted on two opposite sides of the chimney, are connected to each other in pairs by two horizontal plates, covering the cut of the chimney from detection Nia at high elevation angles and located at a certain distance from each other. 2. The device for reducing the intensity of infrared radiation of the gas stream and the outer surface of the chimney of a ship according to claim 1, characterized in that the vertical and horizontal shielding plates are made of composite materials having radio-absorbing, heat-insulating and heat-reflecting properties, significantly reducing the probability of detecting a ship using devices operating in the infrared and radar frequency ranges.

Images