RU1482085C - Method for aerial treatment of plants - Google Patents

Abstract

FIELD: treatment of plants from aircraft. SUBSTANCE: jets of liquid pesticide with 1-3 wt.- % of fiber-forming polymer added are introduced into the air flow whose velocity is equal to aircraft flying speed. Liquid pesticide with polymeric fiber-forming addition is delivered along direction of air flow at a flow rate of 0.01-1.6 cu cm/s in a single jet. Fiber-forming material is constituted by polymethylmetacrylate. EFFECT: higher efficiency. 2 cl

Description

 The invention relates to methods for treating plants with liquid pesticidal compositions with polymer additives to protect plants from pests, diseases and weeds using aircraft.

 The purpose of the invention is to increase the efficiency of processing by obtaining pesticidal-polymer threads.

 To do this, into the incident air stream, the speed of which is equal to the flight speed of the aircraft and is usually 60-160 km / h during aviation chemical work, the jets of a liquid pesticidal composition with a polymer fiber-forming additive constituting from the outlet openings of the atomizer mounted on the aircraft 1-3 wt.%.

 The working process is based on the effect of temporary stabilization of the thread, obtained by axial extension of the stream of polymer solution.

A necessary condition for stretching jets, i.e. the formation of pesticidal polymer filaments, is the excess of the speed of removal of the jet by the incident air flow over the rate of flow of the liquid composition from the outlet. The speed of removal of the jet is determined by the flight speed of the aircraft (60-160 km / h). The velocity of the jet, determined by the formula V _it = QS, where Q is the flow rate of the liquid in the jet, cm ³ / s; S is the cross-sectional area of the jet in the root part, cm ² equal to the cross-sectional area of the outlet, should be less than the speed of removal of the jet. Typically, the cross section of the exhaust openings in aircraft sprayers is 1-3 mm. Based on the above ratio, the flow rate in a single stream of liquid composition should be 0.01-1.6 cm ³ / s. Under this condition, each jet will stretch into a thread. Due to the orientation of the macromolecules during axial tension of the jets, the threads acquire relative strength and maintain integrity for some time, despite the absence of crystallization of the polymer, i.e. curing proper.

 The second necessary condition for obtaining pesticidal polymer filaments is the use of a solution of fiber-forming polymer in a pesticidal preparation from 1 to 3 wt.%.

 At a concentration of less than 1%, stabilization does not occur, the thread breaks up into drops faster than it reaches the cultivated area. At a concentration of more than 3%, the rheological resistance does not allow stretching at the required speed. In addition, the pesticidal composition is supplied in the direction of air flow.

 As studies have shown, at a specified concentration of fiber-forming polymer in a solution and a specified flow restriction in a single jet, the decomposition of filaments into droplets occurs no earlier than after 30 s. Within this time, the air flow, which acquires a descending component behind the aircraft, delivers the threads to the treated vegetation. At the first moment, the vegetation is covered with a common grid of threads. After some time, the threads hanging between the plants break, and the free ends are pulled to the plants. Thus, the convergence of the pesticide to plants from gaps between them is achieved, which allows to reduce the total dosage of the pesticide. At the same time, the processing threads fall on the lower side of the leaves with the same probability as on the upper ones, which also creates a prerequisite for reducing the dosage of pesticides.

 Some of the threads that can slip between the plants remain in suspension and begin to drift downwind, creating a risk of drift. However, due to the fact that the polymer in the processing fluid is not brought to glass transition and the filaments remain uncured, after a certain time, measured in seconds, drifting filaments break up in the air into large droplets (400-700 microns), which settle on the ground at a speed of 2.5 m / s Wind drift for them is practically absent. The movement of these drops is reduced to transferring them exclusively inside the treated field.

PRI me R. Pilot treatment with pesticidal-polymer threads from the Ka-26 helicopter was carried out. The apparatus for discharging the working fluid into the free stream included 20 blocks, each of which consisted of a vertical tubular collector with a diameter of 8 mm and 40 needle nozzles with an internal diameter of 1.4 mm. Nozzles oriented downstream at an angle of ^about 60 thereto.

 As a working fluid, a 1.5% solution of polymethyl methacrylate in the C7-C9 herbicide was used (10% of the active substance, the recommended rate of use is 5 l / ha).

At the first stage, the liquid flow rate per jet was determined, at which a stable process of jet formation and the jet-to-thread transition is ensured. It has been established that process disturbances in the form of filling and discharge of surpluses begin at a flow rate of 1.6-1.8 cm ^{3 /} s. At a flight speed of 60-80 km / h, accumulations slip through the threads in the form of drops; at speeds greater than 80 km / h, discharged volumes are sprayed by the stream. In both cases, the discharge of surplus indicates that part of the liquid is realized along the length of the pesticidal-polymer thread, i.e. the process in this mode is uneconomical.

At the next stage, we observed the deposition of filaments on the ground. The experiment was conducted at a liquid flow rate per jet of 0.5 cm ³ / s, i.e. in a mode far enough from critical. After the helicopter flew into the grass, a network of threads formed. The mesh gradually disintegrates, and the resulting free ends are pulled onto the plants. The first acts of decay are observed 30 s after the flight of the helicopter. The last threads break up after 15-20 minutes.

At the final stage, the technical efficiency of processing with pesticidal polymer filaments was evaluated. The indicated herbicide was treated with plowing against weeds (autumn soil preparation). The flight speed is 90 km / h, the total liquid flow rate is 215 cm ³ / s. At this speed, this corresponds to the norm of 2 l / ha, which is 2.5 times lower than the norm used when spraying.

The main weed was created by pink sow thistle, the number of which reached 25 pcs / m ² . The results of the experiments are shown in the table.
The resulting materials show high processing efficiency at a reduced dosage.

 The proposed method can be used on ground-mounted sprayers of a fan type.

 The technical and economic efficiency of the proposed method consists in saving pesticides by treating plants with pesticidal polymer filaments and in reducing environmental pollution and burning of neighboring crops by converting the drift fine aerosol into coarse and reducing the dosage of the pesticide.

Claims (2)

1. METHOD FOR PLANT AERONAUTICAL PLANT treatment, including discharge from an aircraft of a liquid pesticidal composition with a polymer fiber-forming additive discharged into the air stream in the form of jets, characterized in that, in order to increase the processing efficiency by producing pesticidal-polymer threads, a liquid pesticidal composition with a polymer fiber-forming additive is fed in the direction of the air flow with a flow rate in a single stream equal to 0.01 - 1.60 cm ³ / s, while the polymer fiber-forming additive is introduced in an amount of 1 - 3 wt.%.  2. The method according to claim 1, characterized in that polymethyl methacrylate is introduced as the polymer fiber-forming additive.