CA2640152A1 - Co2 extractor - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to the extraction of CO2 and heavy or light gases from the air by centrifugation and energy saving. More specifically, the present invention relates to the energy saving of buildings by reducing air exchange with the outside and by purification of the air via extraction of heavy gases and / or light gases and CO2 by centrifugation of the air. BACKGROUND OF THE INVENTION The rationalization of the use of energy for the treatment of the air of the buildings is the subject of important efforts in view of the constant increase of the energy costs. However, the energy contained in the air does not have to be lost outside the buildings if the air can be purified and released from its contents of heavy and light gases and CO2 to thus reduce the volume of fresh air exchange with the outside. Air conditioning units with air centrifugation circuit are envisaged to produce an effect of elimination of heavy gases and light gases and CO2 from buildings and / or any other application of reduction of CO2 and heavy gases and / or light in a gaseous mixture. The energy advantage of using a centrifugal extraction source to capture the heavy and / or light gases and the CO2 of a gas mixture comes from the reduction of the fresh air exchange with the outside and the reduction of energy required for heat treatment and replacement of fresh air. Centrifugal CO2 concentrators do not exist to purify the air of buildings and to reduce the energy required for air treatment of buildings. Thus, the energy of the buildings can be conserved by the reduction of the volumes of evacuation and compensation of stale air of the buildings. There is therefore a need in the art for a method and a system for extracting heavy and / or light gases and CO2 by centrifugation for the reduction of air treatment energy of buildings or other similar applications. OBJECT OF THE INVENTION An object of the present invention is to drive a gaseous mixture in a continuous flow in a gyratory movement and in a laminar fluid displacement. Other objects, advantages and functions of the present invention will become more apparent in the following description of possible embodiments, given by way of examples only, in relation to the following figures.

Description

DESCRIPTION OF THE INVENTION

DESCRIPTION OF EMBODIMENTS OF THE INVENTION

It is proposed a method and a system relating to the extraction of CO2 and heavy or light gases air by centrifugation so save energy buildings by reducing air exchange with outside and by purification of the air via extraction of heavy gases and / or of the light gases and CO2 by centrifugation of the air.

[0002] As illustrated in FIG. 1, a system 01, according to a mode of embodiment of an aspect of the present invention, generally includes a rotating section 02, a fixed wall section 03, a section gas supply 04, a fixed air removal pipe 05, gaseous flow compartmentalisation fins 06, a mechanism for the elimination of heavy gases in rotation 07, an elimination mechanism light gases rotating 08, bearings 09 and 10, a fan 11, an evacuation flow control valve of the air 12, a heavy gas collection section 13, a collection section light gases 14, a heavy gas extraction fan 15, a light gas exhaust fan 16, a flow control valve of heavy gas discharge 17, an evacuation control valve of light gas flow 18, a rotation motorization of the extractor 19 and a support structure of the whole 20.

The untreated air enters through the gas supply section 04 and is driven in a whirling motion. The gyratory movement allows reduce the relative velocity between the wall and the moving air in order to facilitated the creation of a laminar flow in the rotating section.

DESCRIPTION OF THE INVENTION
The gyratory movement also makes it possible to transmit a radial acceleration to the air particles, the heaviest of which will have a component of superior force to the particles of less mass.
The difference in centrifugal forces applied to particles allows the displacement of the heavier particles to the outer wall and the lightest particles to the inner wall.

[0004] The air flow travels along the duct path in the form of fins 06 from top to bottom. In the bottom section, the rotating mechanism 01 is equipped with a heavy gas extraction mechanism 07 located near the outer wall and a light gas extraction mechanism 08 located near the central wall.

The mechanisms for extracting heavy gases 07 is light gases 08 allow the transport of extracted gases to a zone extraction by the effect of a fan for extracting heavy gases 15 and / or a light gas exhaust fan 16.

Air flows and operating pressures are controlled by the fans 11, 15 and 16 and by the flow control valves 12, 17 and 18.

According to the present method, the air evacuated by the ventilation 11 contain fewer heavy gases and / or less light gases a reduction in fresh air volumes to be treated under certain conditions.

DESCRIPTION OF THE INVENTION

The present invention thus makes it possible to improve the energy efficiency of the mechanical air exchange systems of buildings.

Although the present invention has been described above with the means of modes of achievement, it can be modified while remaining within the nature and the teachings of the invention.

DESCRIPTION OF THE FIGURES

BRIEF DESCRIPTION OF THE FIGURES

Figure 1 is a diagram of a system according to a method of accomplishing an aspect of the present invention; and

Claims

claims 1.A method of extracting CO2 and heavy gases and / or light air by centrifugation.
i. a rotating section, such as centrifugal force can be applied to moving particles in a fluid ii. a section of rotary ducts, such as flow in rotation can be in laminar phase iii. an exhaust fan, such as motion treated air is carried out continuously iv. a heavy gas extraction fan, such as the evacuation pressure may be less than the internal pressure in the extraction zone v. a light gas extraction fan, such as the evacuation pressure may be less than the internal pressure in the extraction zone vi. a mechanism for extracting heavy gases, such as dimension and position can allow extraction heavy gases near the outer wall at the flow rate longed for.
vii. a mechanism for extracting light gases, such as dimension and position can allow extraction light gases close to the internal flow wall longed for.
viii. a driving force of rotation, such as the force centrifugal gas separation is sufficient to to create the gas separation movement.

ix. flow control mechanisms and the pressure, such as