Device for Capturing Oily Emissions

Abstract

This invention deals with an emission capture device with grease which is composed of a main duct, here it is connected to the outlet of the emitter of particles which are required to be treated (said emitter is conventional, such as an internal combustion engine exhaust, incinerator duct, meat roaster chimney, etc. Just to mention a few), it is then absorbed and propelled by an electric fan, from which its wind force drives the emissions into the emissions capture tank, the mechanism to dissolve the particulate emissions inside the tank is composed of, The mechanism to dissolve the emission particles inside the tank is composed of the main duct inside the tank, which reaches the upper part of the tank, making a spiral return to the lower part of the tank, having the main duct as its end, through which the emission already dissolved in the liquid comes out, between the mechanism to dissolve the emission and the walls of the tank it has four supports, in the upper part of the tank it has its outlet duct to the open air, it also has four liquid inlet ducts, At the bottom of the tank there are two outlets to drain the liquid and direct it to a cooling device, and from there it is transported through a duct to a decanter tank, which in its lower part has a decanter tank, and at the same time it is transported to the bottom of the tank, On one side of the decanter tank is a duct that is connected directly to a pump that is responsible for driving and supplying the liquid through its outlet duct directly to the ducts that are responsible for distributing the liquid to the emissions capture tank and its mechanism to dissolve the emissions that are treated there.

Claims

1. Emission capture device with grease, using water pump, liquid to dissolve emissions, spiral jet liquid system, ducts, fans, decanter tank, cooling device, emission capture tank, characterized in that it is composed of: A main duct here is connected to the outlet of the particulate emitter that needs to be treated (such emitter is conventional, such as an internal combustion engine exhaust, incinerator duct, meat roaster stack, etc.). Just to mention a few), then it is absorbed and impelled by an electric fan, from which the force of its wind drives the emissions towards the interior of the emissions capture tank, the mechanism to dissolve the particles of the emissions inside the tank is composed of the main duct in whose interior of the tank arrives until the superior part inside the tank making a return in spiral form towards the inferior part of the tank having the main duct its end, same by which the emission already dissolved in the liquid comes out, between the mechanism to dissolve the emission and the walls of the tank has four supports, at the top of the tank has its outlet duct to the open air, also has four liquid inlet ducts, such as water mixed with a degreasing liquid, the liquid is transported by driving a pump, the ducts at its end have a spiral jet device, so that the mechanism is activated internally with the momentum of the liquid and externally with the force generated by the flow of emission, two ducts will flow inside the device to dissolve the emissions while other two ducts will flow inside the tank space helping to dissolve the emission being treated, in the lower part of the tank there are two outlets to drain the liquid and direct it to a confrontation device, the liquid enters through the upper part of the device sliding through a metal plate exposed to the open air to take advantage of the ambient temperature, The liquid falls into a tank to be transported from there through a pipeline that is connected to a decanter tank, which at the bottom has a pipeline and a key to drain the tank, on one side of the decanter tank has a pipeline that is connected directly to a pump which is responsible for driving and supplying the liquid through its output pipeline directly to the ducts that are responsible for distributing the liquid to the emissions capture tank and its mechanism to dissolve the emissions that are treated there.

2. Emission capture device with grease of the kind that uses liquid to dissolve emissions, fans, emission capture tank, decanter tank, cooling device, ducts, spiral jet liquid system, water pump, according to clause 1, characterized in that it uses temperature and flow sensors and meters for its automation.

Description

DESCRIPTION OF THE INVENTION

[0003] The characteristic details of this novel GREASE EMISSION CAPTURE DEVICE are clearly shown in the following description and accompanying drawings, as well as an illustration thereof and following the reference signs to indicate the parts and figures shown.

[0004] Description of the figures:

[0005] FIG. 1.—View of the device and the interaction of its parts.

[0006] FIG. 2.—View of the emission capture tank.

[0007] FIG. 3.—View of the liquid cooler.

[0008] FIG. 4.—View of the settling tank.

[0009] With reference to said figures the grease emission capture device consists of: A main duct 1a, here is connected to the outlet of the particulate emitter that is required to be treated (such emitter is conventional, such as an internal combustion engine exhaust, incinerator duct, meat roaster stack, etc. Just to mention a few), it is then absorbed and driven by an electric fan 1b, from which its wind force drives the emissions into the emissions capture tank 1c, the mechanism 2b for dissolving the emissions particles inside the tank 1c consists of, of the main duct 1a in whose interior 2c of the tank 1c arrives until the upper part inside the tank 1c making a return 2b in spiral form towards the lower part of the tank 1c having the main duct 1a its end 3c, same by which the emission already dissolved in the liquid 4a comes out, between the mechanism 2b to dissolve the emission and the walls of the tank 1c has four supports 9a, in the upper part of the tank 1c has its exit duct 3b to the open air, it also has four ducts 3a and 3h of entrance of liquid 4a, as water mixed with some degreasing liquid, said liquid 4a is transported impelling by a pump 5a, the ducts 3a and 3h in their final end have a spiral jet device 6a, in such a way that the mechanism 6a and 6b are activated in an internal way with the impulse of the liquid 4a and in an external way with the force generated by the emission flow, two ducts 3a are going to flow inside the device 2b to dissolve the emissions while other two ducts 3h are going to flow inside 2c of the space of the tank 1c helping with them to dissolve the emission being treated, in the lower part of the tank 1c has two outlets 5b to drain the liquid 4a and direct it to a cooling device 7a, the liquid 4a enters through the upper part of the device 7a sliding by means of a metal plate 7b exposed to the free air to take advantage of the ambient temperature, the liquid 4a falls into a reservoir 7c to be transported from there by means of a duct 7d which is connected to a decanter tank 8, which at the bottom has a duct 8a and a tap 8b for draining the tank 8, On one side of the decanter tank 8 there is a duct 8c that is connected directly to a pump 5a which is in charge of impelling and supplying the liquid 4a through its outlet duct 9 directly to the ducts 3h and 3a that are in charge of distributing the liquid 4a to the emissions capture tank 1c and to its mechanism 2b to dissolve the emissions that are treated there.

[0010] Based on the above, we can state that the grease emission capture device provides the following benefits: [0011] 1. It consists of a reduced number of stages. [0012] 2. The device offers a new alternative to treat and capture air emissions in an environmentally friendly way. [0013] 3. This device is simple to operate. [0014] 4. It can be modulated because the stages of the process can be repeated. [0015] 5. The device can be adapted to work with sensors, flow meters, temperature, volume, etc., which will speed up operation times.