RU2021139891A - Devices, systems and methods for the efficient mixing and/or injection of gaseous agrochemicals for use in an irrigation system - Google Patents

Claims (40)

1. A mixing system for effectively combining a gaseous agrochemical such as a fumigant and a water source for use in irrigation infrastructure, comprising: a flow channel adapted to connect a water source at a water inlet end and an irrigation infrastructure at its supply end, the inlet end of the mixing system being adapted to receive an incoming water flow from the water source in the water flow supply channel; mixing chamber in the water flow path downstream of the water receiving end, i. e. mixing chamber having the following components: an inlet for receiving a flow of water from the water supply channel; at least one feed point for receiving the gaseous agrochemical into the mixing chamber for interaction with water from a water source; outlet for the release of a mixture of agrochemical and water; a flow restriction component at or near the outlet of the mixing chamber to limit the outflow of the water-agrochemical mixture at the outlet of the mixing chamber, a fumigant injection device assembly that defines the agrochemical supply path, an injection device assembly that interacts with at least one injection point to introduce the gaseous agrochemical into the mixing chamber under pressure, where the flow restriction component is adapted to create back pressure and turbulence in the combination of water and gaseous agrochemical in the mixing chamber, and thereby initiates the distribution of small bubbles of gaseous agrochemical in water in the mixing chamber; and where the distribution of small bubbles improves the mixing of the gaseous agrochemical and irrigation water and flows, which is effective for the consistent distribution of the agrochemical applied to the crop using the irrigation infrastructure. 2. The mixing system according to claim 1, wherein the mixer includes a check valve upstream of the mixing chamber. 3. A mixing system according to claim 1 or 2, further comprising an adjustable flow limiting valve installed downstream of the mixing chamber, essentially to maintain the gaseous agrochemical exiting the mixing chamber under pressure while distributing bubbles in the irrigation water in the flow path water downstream of the mixing chamber. 4. The mixing system of claim 3, wherein the adjustable flow limiting valve is selected from a shut-off valve or needle valve that is adjusted to provide increased turbulence and/or entrainment of agrochemicals into the liquid while maintaining high liquid flow rates in the mixer. 5. A mixing system according to any of the preceding claims, further comprising at least one static mixing section in the flow channel after the mixing chamber for dispersing or further mixing the gaseous agrochemical in irrigation water, where at least the first static mixing section includes a number of partitions in the section of the tubular housing, and baffles provide separation of the laminar flow and/or inertia of the turbulent flow and/or radial mixing with momentum transfer. 6. The mixing system of claim. 1, where the introduction device includes: the entrance of the introduction device for receiving agrochemicals; a connecting component for sealing the inserter to the mixing chamber at the delivery point; the outlet of the introduction device for supplying an agrochemical to the outlet of the mixing chamber, including a sintered diffuser for introducing an agrochemical into a liquid flowing in the mixing chamber, while in operation, the sintered diffuser enters enough inside the mixing chamber to be substantially immersed in water when it flows into a mixing chamber, and in which the sintered diffuser has a particle size gradation of the medium from about 1 μm to about 80 μm in diameter to allow the formation of bubbles of the agrochemical in the liquid, having a diameter of about the same size; And housing through which the agrochemical can pass, i. e. a housing located between the input of the inserter and the output of the inserter. 7. The mixing system of claim 6, wherein the injector is adapted to supply the agrochemical to the liquid at a controlled flow rate to provide an effective ratio of gaseous agrochemical to water in the mixture. 8. Mixing system according to any one of paragraphs. 1-7, where the agrochemical is a cyanogen. 9. A method of mixing an agrochemical and a liquid for use in irrigation infrastructure, including the steps: providing a mixing system, including a mixing chamber, as stated in any one of paragraphs. 1-8; connection of the mixing system between the liquid supply system and the irrigation infrastructure; supplying liquid from the liquid source to the mixing chamber of the mixing system in the first liquid stream; feeding the agrochemical into the mixing chamber under pressure through at least one injection point on the mixing chamber by means of a fumigant injection unit in the second fluid stream; And creating a backpressure of the liquid flowing through the mixing chamber, by means of a flow restricting component at or near the outlet of the mixing chamber, where the flow restricting component is adapted to create backpressure and turbulence in the combination of liquid and gaseous agrochemical in the mixing chamber, and thereby initiate the distribution of the flow of bubbles small size gaseous agrochemical in the liquid in the mixing chamber; and where bubble flow distribution improves the process of mixing the gaseous agrochemical and liquid effectively for consistent distribution of the agrochemical throughout the irrigation infrastructure. 10. The method of claim 9, wherein the method includes the step of adjusting the flow restriction means to provide improved turbulence intensity and/or entrainment of the agrochemical into the liquid by creating and maintaining a large number of small bubbles of gaseous fumigant in the water stream. 11. The method of claim 9 or 10, wherein the method comprises controlling the fluid flow rate with a fluid flow control device and/or controlling the feed rate of the agrochemical with a feed rate control device located locally at the feed point. 12. The method according to any one of paragraphs. 9-11 wherein the method includes the step of adjusting the agrochemical feed rate and/or adjusting the flow restriction component to provide increased homogenization of the agrochemical liquid mixture. 13. The method according to any one of paragraphs. 9-12, where the method may include one or more of the following steps to provide improved turbulence and/or entrainment of the agrochemical into the liquid and/or homogenization of the liquid-agrochemical mixture and/or to obtain a given concentration of the agrochemical in the liquid-agrochemical mixture: adjusting the flow restriction component; control of the feed rate of agrochemicals; and/or regulation of the fluid flow rate at the outlet. 14. The method according to any one of paragraphs. 9-13, where the method includes the step of monitoring the pressure at the mixer inlet, mixer outlet, and/or feed point using pressure gauges located near the mixer inlet, mixer outlet, and/or feed point, respectively. 15. The method according to any one of paragraphs. 9-14, where the method includes the step of adjusting the flow rate of the liquid mixture and/or outlet pressure by adjusting the outlet control valve. 16. A method for applying chemicals with irrigation water to the soil, including a method for mixing an agrochemical and a liquid, including the following non-limiting steps: the supply of liquid to the mixing chamber of the mixer or mixing system, as stated in any one of paragraphs. 1-8, supply of agrochemical to the mixing chamber at the point of supply; creating a counter-pressure of the liquid flowing through the mixing chamber to mix the liquid and the supplied agrochemical; transferring the mixed liquid-agrochemical mixture to a distribution system either on the soil or under the soil layer to provide chemical soil treatment.