RU2604607C1 - Method of water for growing plants preparation and use - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to plant growing, in particular, to plants cultivation methods, and can be used for tropical plants growing, plants without roots, for rooting of cuttings, forcing, sprouting of tubers and seeds. Container from transparent colorless food plastic is filled with drinking water. Then, container with water is temporarily placed on frost until ice formation of up to 70-80 % of initial quantity of water. Then removing residual brine from container, after that, performing ice remaining in container defrosting in microwave oven. Obtaining melt water from it and daily using it and its vapors in air for plant treatment, grown in greenhouse. Using mist generator melt water is introduced into air until its saturation with water steam at temperature of 21-31 °C, warm air under excessive pressure is continuously supplied into non-leak tight greenhouse, saturated with melt water vapors. Plant is illuminated with daylight by means of lamp.

EFFECT: enabling intensive and continuous growth of plant under conditions excluding drying, freezing, disease and death.

1 cl

Description

The invention relates to crop production, in particular to methods of growing plants, and can be used for growing tropical plants, plants without roots, for rooting cuttings, forcing plants, germinating tubers and seeds.

A known method of plant nutrition with accelerated formation of plant tissues grown in sheltered soil by irrigation with water saturated with carbon dioxide to a concentration of 50 ml of gaseous CO ₂ per 1 liter of water, at a water temperature in the range of 12-20 ° C, while watering plants three times a day (RU 2527065).

The disadvantages of the method are low efficiency, accuracy, safety and a narrow scope, since the known method does not provide continuous illumination of the plant for several days with a fluorescent lamp and the supply of air saturated with melt water vapor to the plant at a temperature of 21-31 ° C. As a result, the known method does not provide the plant with water, light and heat continuously for several days in a row. In particular, the known method does not provide melt water melt the entire outer surface of the plant, does not provide a continuous supply of warm air saturated with melt water vapor, under excessive pressure into the space of the greenhouse, inside which the plant grows. The fact is that the known method allows the cultivation of plants in closed ground hermetically. The presence of a hermetically sealed greenhouse eliminates the introduction of air under excessive pressure.

In this regard, the known method eliminates the continuous introduction into the greenhouse of warm air saturated with vapor of melt water at a temperature of 21-31 ° C, therefore, eliminates the maintenance of high humidity of the air surrounding the plant, and therefore allows temporary drying of the soil and the plant itself. The fact is that the known method does not exclude the appearance of anhydrous periods, or rather, periods of dryness between moments of watering the soil with water. In addition, the known method does not exclude the occurrence of periods of drought, which can be triggered by excessive lighting and warming of the plant and the soil in which the plant grows, caused by excessively bright direct sunlight, which can penetrate the greenhouse wall in the daytime, since the known method does not involves the regulation of illumination during the day. In addition, the known method does not provide continuous illumination and warming of the entire plant to a temperature in the range of 21-31 ° C and does not ensure the maintenance of local temperature in this range around the plant for several days in a row, namely, day and night. In this regard, water does not enter into all plant cells continuously and with maximum intensity, and the metabolism in plant cells proceeds unevenly and not with maximum intensity, which eliminates the maximum growth of the plant, contributes to its disease and death.

In addition, the known method is not intended for growing plants without roots and without soil, for the germination of tubers and seeds, as well as for rooting cuttings.

A known method of germinating grain, including soaking the grain, placing it on a sieve, treating the grain on a sieve with air coming from below and moistened with water vapor coming from water, the mirror of which is located under the sieve at a distance of 1-1.5 cm, as well as regulating the humidity of water vapor (RU 2500093).

The disadvantages of the method are low efficiency, accuracy, safety and a narrow scope, since the known method is not intended for growing plants. In addition, the known method does not provide continuous illumination and warming of the whole plant to a temperature of 21-31 ° C, which is necessary for a comfortable and maximum intensive growth of plants, and also does not provide continuous maintenance of the optimum temperature in the range of 21-31 ° C in the air around the whole plant for several days in a row. The fact is that the known method provides air supply only from below after preliminary blowing by it of the water surface and the penetration of water vapor into the air as a result of its evaporation. Moreover, the water cools during evaporation, the water vapor is also cooled in the air, so water vapor when humidifying the air lowers its temperature.

Since many plants grown are thermophilic and are not able to maintain a temperature within themselves of 21-31 ° C, regardless of the ambient temperature, their temperature is determined by the temperature of the environment in which they are located. At the same time, it is temperature (according to Arrhenius law), ceteris paribus, that most of all affects the intensity of chemical, biochemical and biophysical processes in a plant. Therefore, in the absence of a constant temperature around the plant in the range of 21-31 ° C and illumination with daylight, water does not flow continuously with maximum intensity into all plant cells, photosynthesis does not proceed continuously with maximum intensity, metabolism in plant cells does not proceed continuously with maximum intensity, which excludes the maximum possible intensive and continuously flowing natural growth of the plant.

A known method of water purification by freezing, including filling the tank with water, temporarily placing the tank with water in frost until ice crusts are formed on the upper surface of the water with a thickness of 0.5-1.0 mm, subsequent lowering of the water level, secondary cooling of the water until it forms ice in an amount of up to 70-80% of the initial amount of water, draining the residual brine from the tank to throw it away, naturally thawing the remaining ice in the tank and draining the water obtained for its use (RU 2548437).

The disadvantages of the method are low efficiency, accuracy, safety and a narrow scope, since the known method is not intended for growing plants. In particular, the method is not intended to continuously provide the entire plant with water, light and heat, therefore, it allows freezing, drying and darkening of the plant. In addition, the known method does not exclude blowing the plant with dry warm or cold air and does not provide water wetting of the entire surface area of the plant. In this regard, water does not enter all plant cells continuously and with maximum intensity, and the metabolism in the plant does not proceed continuously at the most intense level, which eliminates the continuous maximum intensive growth of the plant.

The objective of the invention is to increase the efficiency, accuracy, safety and expansion of the scope under conditions that preclude drying and freezing of the plant and providing a continuous supply of water, light and heat due to the continuous illumination of daylight and the introduction of an unpressurized greenhouse inside under excessive pressure of air saturated with thawed vapor water at a temperature of 21-31 ° C.

The technical result is an intensive and continuous growth of a plant under conditions that preclude its drying, freezing, disease and death.

The essence of the method of preparation and use of water for growing plants, including filling the tank with water, temporarily placing the tank with water in frost until ice forms up to 70-80% of the initial amount of water, removing residual brine from the tank, then thawing the ice remaining in the tank, obtaining melt water and the daily use of melt water and its vapors in the air at a certain temperature for treating plants grown in a greenhouse, is that they use a container made of transparent colorless food-grade plastic, fill the tank with drinking water, thaw in a microwave oven, melt water is introduced into the air with a fog generator until it is saturated with water vapor at a temperature of 21-31 ° C, warm air saturated with vapors is continuously fed into the leaky greenhouse under excessive pressure melt water, and illuminate the plant with daylight using a lamp.

In the proposed method, by using a container made of transparent colorless food-grade plastic, the efficiency and accuracy are increased, since such a material allows heating its contents in a microwave oven, which speeds up and increases the efficiency of ice defrosting. Moreover, the transparency and colorlessness of the plastic allow you to visually control the dynamics of the process of defrosting ice in a microwave oven through its glass window and stop the microwave heating process in a timely manner, eliminating an excessive increase in water temperature. In addition, food-grade plastic ensures the safety of high quality drinking water.

Filling the tank with drinking water increases safety, because it allows it to saturate the air and supply the plant with environmentally friendly water, eliminates poisoning of the plant and poisons that serve people and their infection by pathogenic microorganisms, since drinking water is harmless. In addition, drinking water has minimal osmotic activity, therefore, it easily and quickly penetrates through semipermeable membranes into plant cells, and water vapor condensing on the inner surface of the greenhouse and leaving the unpressurized greenhouse does not turn into mineral plaque and does not impair the quality of the greenhouse. Therefore, moistening with melt water of the stems, leaves, roots and / or seeds of a plant or cuttings ensures their intensive supply of water. As a result, water easily penetrates into the leaves, stems, seeds and roots, providing an intensive growth of the plant.

Defrosting ice in a microwave accelerates the process of obtaining melt water, as it ensures the defrosting of ice a few minutes after placing the ice container in the microwave. This increases the efficiency and accuracy of the method, since ice can be stored in the freezer almost indefinitely, and frozen water can be used only after thawing and turning into melt water. Under such conditions, it is the process of thawing ice that becomes the limiting link in the preparation of water for growing plants. The fact is that the process of thawing ice inside a plastic container when it is at room temperature occurs only on the surface of the “piece of ice”. Therefore, the process of passive defrosting can take several hours due to the poor thermal conductivity of the ice and plastic itself. Use for defrosting a microwave oven provides active, intense, and almost uniform melting of the entire mass of ice.

Use for processing plants melt water obtained from ice of the "first freeze", increases the efficiency of the method, since it provides an increase in the growth rate of the plant. The fact is that the mass and volume of plants increase by 99.9% precisely due to intracellular water. In addition, all plant cells, seeds and grains of many grains (in particular, cereal grains) are surrounded by semipermeable membranes through which water enters the cells (grains and seeds) the more intensively, the lower its osmotic pressure. In this case, salt water does not enter the plant cells. Moreover, salt water draws water from plants, and therefore oats, wheat, barley and rye grains are dehydrated (dried) in salt water (A. Urakov, S. Tochilov, A. Kravchuk. acceleration of the drying process. - Izhevsk: Udmurtia, 1989. - 80 p.).

Melt water obtained from the “first” ice is devoid of “salinity” and like distilled water is not just fresh water, but very highly purified water. Melt water is very fresh water. It has zero osmotic activity. Therefore, treating the plant with such water by watering and / or spraying it eliminates the drying of the plant and increases the efficiency of the increase in its mass and volume.

The introduction of melt water in the form of its vapor into the air with the help of a fog generator until the air is saturated with water vapor at a temperature of 21-31 ° C increases the efficiency, accuracy and safety, since it provides artificial reproduction of the tropical climate, which is evolutionally the most optimal for the growth of most plants. The fact is that historically plants are predisposed to intensive growth precisely in conditions of excess water, since the ancestors of plants are blue-green algae. In fact, all the plants "came out" of the water. Moreover, the subsequent formation of most plant species on land also occurred in a tropical climate, which is characterized by air saturated with water vapor at a temperature of 21-31 ° C throughout the year. Under such conditions, the drying out of the soil in which the plants grow and the drying of the plants themselves are completely excluded. Freezing of plants and soil is also excluded.

Processing the plant by introducing warm humid air under excessive pressure continuously into the non-hermetic greenhouse in which the plant is grown under continuous daylight conditions with the help of a lamp increases the efficiency and expands the scope of application, since it ensures the constancy of the “desired” humidity, temperature and light exposure during the day, and at night. The use of an unpressurized greenhouse to ensure the protection of the soil ensures safety, since it eliminates the inflation and destruction of the greenhouse due to its excessive inflation when air is continuously introduced into it under excessive pressure. Continuous illumination of the plant with daylight and the introduction into an unpressurized greenhouse under excessive pressure of air saturated with vapor of melt water at a temperature of 21-31 ° C, ensures the occurrence of the most intense photosynthesis in chlorophylls of plant cells. Photosynthesis provides plant cells with the energy necessary for intensive metabolism and plant growth, even with a minimally developed and absent root system. In this regard, the method provides an increase in plant mass not only in plants with a rich root system, but also in plants without roots, such as tilandsia, or in cuttings of roses and grapes, as well as in plants in the embryo stage, for example, in potato tubers , in the seeds of peas, beans, cucumbers, in grains of oats, wheat, rye or barley.

The method is as follows. Take a container made of transparent, colorless food-grade plastic, fill it with drinking water and freeze it by 70-80% of the original amount. The remaining brine is poured and the “dry” ice is stored in the freezing cold in the original container. At the right moment, a container with ice is taken out and placed in a microwave oven, in which the ice is thawed under visual control until the desired volume of melt water is obtained. After that, a container is taken out of the furnace, melt water is poured from it into the capacity of the fog generator, and with it, melt water vapor is introduced into the air until it is saturated with water vapor at a temperature of 21-31 ° C. This air is introduced under excessive pressure into the leaky greenhouse in which the plant is located. The plant is treated with warm, moist air continuously under the conditions of illumination of the plant with daylight using a lamp.

Example 1. For the germination of cucumber seeds in early April in the mid-latitudes of Russia, it was decided to apply the known method of plant nutrition with accelerated formation of plant tissues grown in protected ground. To do this, they took water from an artificial pond at a temperature of + 12 ° C, injected carbon dioxide into it to a concentration of 50 ml of gaseous CO ₂ per 1 liter, then they took 1 ml of this water and poured a lump of moss with it, into which 10 seeds of cucumbers were previously put . Moss with the seeds of cucumbers inside it was placed inside a 500 ml glass jar, which was hermetically sealed with a plastic lid, after which the closed jar of seeds was placed on a stool set in an open balcony, leaving the jar under direct sunlight unshaded. The method was used for 3 days. In this case, watering the moss with seeds was carried out daily 3 times a day using a syringe with an injection needle. The needle made it possible to pierce the plastic cover and aim the moss at the location of the seeds with a jet of water, and the syringe provided that water was introduced into the can under excessive pressure. For watering seeds, 0.5 ml of water was used, taken from the pond at a temperature of + 12 ° C after the introduction of carbon dioxide into it to a concentration of 50 ml of gaseous CO ₂ per 1 liter. However, after 3 days, all seedlings died, because on the 2nd day of application of the method the nighttime outdoor temperature dropped to 7 ° C below zero, and wet moss with sprouted seeds of cucumbers froze. Based on these circumstances, it was concluded that the seedlings of the cucumbers were frozen and therefore died.

In this regard, it was decided to take other cucumber seeds and apply the claimed method. To do this, a day before the germination of a new portion of cucumber seeds, they took 100 ml of drinking water and poured into a glass made of transparent, colorless food-grade plastic. A glass of water was placed in the freezer of a domestic refrigerator. After turning into ice, 75 ml of water, the ice was left in the tank, and the remaining 25 ml of liquid brine was poured from the tank. Then a cup of “dry” ice was placed in a Scarlett SC-1701 microwave oven and after 3 minutes the ice was thawed completely until melt water was obtained. They took 5 ml of melt water at a temperature of + 21 ° C, poured a portion of moss with this water, squeezed the moss with the fingers of the hand, waited until the excess water drained from it, put 10 seeds of cucumbers in moist moss and wrapped the seeds with a layer of wet moss. Then the moss with the seeds inside was placed in a colorless transparent glass cup, which was sealed with a colorless transparent plastic film, thus turning the cup into a miniature leaky greenhouse. A cup covered with a transparent film was placed on a windowsill inside a heated living room with a controlled air temperature within + 21 ° C. At a distance of 30 cm above the cup, a table lamp with a 40-watt fluorescent lamp was installed and turned on for the entire time the method was applied. Subsequently, the contents of the greenhouse were illuminated along with moss and seeds continuously for 3 consecutive days. In this case, using a syringe connected to an injection needle, moss with seeds was poured 3 times a day with melt water at a temperature of + 21 ° C, using an fog generator ML-020, air was enriched at a temperature of + 21 ° C with melt water vapor, which was supplied under overpressure using a colorless transparent elastic polyvinyl vinyl tube into the greenhouse continuously. By the end of 2 days, it was ascertained that all 10 seeds had germinated, by the end of 3 days it was ascertained that all 10 seeds had turned into strong embryos, which in the following days were transformed into seedlings with 2 green leaves and white fluffy roots . All 10 sprouted seeds of cucumbers subsequently rooted in natural soil and gave a rich harvest of cucumbers. The obtained method allowed to exclude during germination of seeds their drying, freezing and death.

Example 2. To obtain seedlings of barley from grains, it was decided to apply a method of germination of grain, including soaking the grain and treating it with moist air. For this, 30 barley grains were poured with well water having a temperature of + 10 ° C, the grain was left flooded with water for 2 hours in a dark, cold room at a temperature of + 12 ° C, after which wet grain was placed on a sieve in the same unlit and unheated room . The sieve was placed on a pan that was previously filled with tap water at a temperature of + 12 ° C so that the water mirror was placed under the sieve at a distance of 1 cm. A mini fan was installed on the side of the sieve with the pan and turned it on. In this case, the fan provided cold air, the temperature of which varied for 3 days and was in the range +5 - + 16 ° C. The dryer supplied air to the gap between the pan and the sieve and processed the grain on the sieve with air coming from below and moistened with water vapor. After 2 days, it turned out that only 14 of the 30 grains were swollen.

Due to the low effect of grain germination, it was decided to germinate barley grains using the inventive method. To do this, 100 ml of drinking water was poured into a glass made of transparent, colorless food-grade plastic, then a glass of water was placed in the freezer of the refrigerator until 80 ml of water was frozen in it. The remaining 20 ml of water was poured from a glass. Then place a glass of dry ice in a Scarlett SC-1701 microwave oven and completely defrost the ice. After that, melt water at a temperature of + 31 ° C was used to soak the grain for a period of 2 hours and to fill the capacity of the fog generator ML-020. Then, the soaked grain was placed inside a gauze swab moistened with melt water at a temperature of + 31 ° C, a wet swab with grains was lowered into a transparent colorless plastic cup, which was sealed with a transparent colorless plastic film. A closed glass with grains along with a fog generator was left inside the heated room at an air temperature of + 31 ° C. They turned on an indoor fog generator with an air temperature of + 31 ° C and with it, air saturated with melt water vapor began to be continuously supplied using a transparent, colorless PVC elastic tube into a glass with a wet gauze swab and grain. A lamp with a 40-watt fluorescent lamp was installed above the glass at a distance of 30 cm. Warm moist air continued to be continuously introduced into the cavity of the mini-greenhouse under excessive pressure and the greenhouse was illuminated outside with daylight for the entire period of seed germination, watering them 3 times a day with melt water at a temperature of + 31 ° C. By the end of 2 days 29 grains from 30 barley grains sprouted. Sprouts looked elastic, healthy and had a bright light green color.

Thus, the proposed method due to the continuous illumination of daylight and the introduction of an unpressurized greenhouse under excessive pressure of air saturated with vapor of melt water at a temperature of 21-31 ° C, provides an intensive and continuous growth of the plant in conditions that exclude its drying, freezing, disease and death.

Claims (1)

The method of preparation and use of water for growing plants, including filling the tank with water, temporarily placing the tank with water in frost until ice forms up to 70-80% of the initial amount of water, removing the residual brine from the tank, then thawing the ice remaining in the tank, getting from it melt water and daily use of melt water and its vapors in air at a certain temperature for treating plants grown in a greenhouse, characterized in that they use a container made of transparent b of colorless food-grade plastic, fill the container with drinking water, thaw in a microwave oven, melt water is introduced into the air with a fog generator until it is saturated with water vapor at a temperature of 21-31 ° C, warm air saturated with melt vapor is continuously fed into the leaky greenhouse under excessive pressure. water, and illuminate the plant with daylight using a lamp.