SU1079211A1 - Biomass meter - Google Patents

Abstract

A BIO / 5ASSOMETER, a social planting a vegetative vessel and a glass with a centering device at a constant level in a glass mounted on a weighing scale, equipped with a flexible pipe with a flow meter, characterized in that, in order to improve the accuracy of measuring & It is equipped with a porous lid with a hole, and the vegetative vessel is made with holes in the bottom and is mounted on a glass, and the wicks are passed through the holes. They match with the porous lid. (L

Description

11 The invention relates to biological examinations, in particular, plant physiopathy, and is intended for measuring the growth of raw biomass and the intensity of transparating chain rateni. A device is known for detecting changes in plant biomass growing in a soil substrate, while simultaneously taking into account the number of soldiers entering the root system containing gamie-leveling electric scales with a vegetal vessel having a porous foam, is used in a flow meter of type ij. The design of the device is complicated, since it requires the presence of highly sensitive scales, as well as the need to accurately maintain the vertical distance between the center of the growing vessel and the water mirror in the feeder located at different positions. A biomass meter is known, which contains a growing plant with a plant and a glass with a device for maintaining a similar level of water in the stack, connected by a flexible pipe with a water flow meter, 2J. A disadvantage of the known device is the large measurement error due to the large surface of the water mirror in the glass. The purpose of the invention is to improve the measurement accuracy. The chain is achieved by the fact that the glass is equipped with a porous lid with a hole, and the growing vessel is made with holes in the bottom and is installed on the glass, and the fittings that are in contact with the porous lid are passed through the holes. The drawing shows a biomass meter, a general view. 2 and vegetation vessel 3 with soil and plant. In the upper part of the glass 2 there is a porous cover 4 with an opening 5 that contacts the wicks 6 passed through the holes in the bottom of the growing plant 3, Glass 2 is connected by a flexible pipe 7 to a water flow meter 8, installed, for example, in a vice piston micropump connected to a water tank 9. The glass 2 is provided with a device for maintaining the water level in the glass 2 containing the contact level sensor 1O. 11 is connected via cable 11 to the electronic unit 12 to turn on the rohodometer 8. Sensor 1O is located in knee 13, which communicates with the cavity of cup 2, and the contacts of sensor 1O are installed approximately at the middle of the depth of hole 5 in the porous roof, ke 4. The biomassometer works as follows launching the unit, fill tank 9 with water, place cup 2 on the platform of scale 1 and turn on the flow meter 8, which automatically operates until the cup 2 is filled with water to a level lying within the depth of the hole 5 in the lid 4, Then, a growing plant 3 with a plant is installed on the cup 2, the soil in the vessel is pre-saturated with water until the field moisture content. After some time, when the moisture balance is established in the system, the biomass meter is ready for operation. As the soil moisture is absorbed by the roots, the potential for soil transfer decreases, causing water to move along the potential gradient from free water in cup 2 (which has zero potential) to the soil. In a quasistationary state, in the system of capillary-porous bodies entering vegetation nipple 3 and cup 2 (porous cover 4, wicks 6 and soil), a constant gradient of the potential of impurity, determined by the intensity of transpiration and moisture transfer coefficients of porous bodies, is established, At the same time, through the cover 4, the wicks 6 and the soil, and then through the plant the air constantly flows into the air causing a drop in the water level in the glass 2, regularly compensated by the flow of water from the flow meter 8 by the signals of the sensor 10. As a result honors water in a beaker 2 and 3 and the growth chamber, spedovatelno, their total IAOS maintained constant. An increase in the mass of the vessel 3 and cup 2 is possible only due to an increase in the raw plant biomass, which is registered with the help of weights 1. The quality of warriors spent on keeping the water level in glass 27 characterizes the intensity of transpiration.

310792114

Prepaved biomassometer has a preparation significantly simplified

accuracy, at least to memera, m, simplified

for the time being dopee higher than known. connection, hL improves device reliability.

Claims (1)

BIOM ACCOM ETR, containing a vegetation vessel and a glass mounted on a recording balance, with a device for maintaining a constant water level in a glass, connected by a flexible pipe to a water flow meter, characterized in that, with a chain for increasing measurement accuracy, the glass is equipped with a porous lid with a hole, and a vegetation the vessel is made with holes in the bottom and mounted on a glass, and through holes passed. wicks in contact with the porous lid. 1 1079211