RU2472186C2 - Network of self-contained environmental monitoring stations - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: network comprises multiple self-contained monitoring stations having environmental monitoring sensors, video cameras and thermal imagers. The power platform of the stations consists of vertical axial windmills of various modifications and solar modules mounted on a vandal-proof tower. The windmills are mounted in tiers and rotate under wind pressure in opposite directions. Revolutions of the windmills are summed up through an adder-vibrator and are transmitted to a generator. A metal cabinet mounted high on the tower holds a battery compartment and electronic data transmission units. Monitoring stations are arranged in cells equidistant from each other. Each cell includes nine base stations connected to each other locally and having one parent tower. All information collected from the stations accumulates in the parent tower and is then transmitted via cellular communication or over a dedicated channel to regional services for analysis of the environment and making decisions.

EFFECT: design of a self-contained environmental monitoring post whose power platform consists of renewable energy sources.

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Description

The invention relates to wind energy, in particular to energy systems based on wind power installations.

Locally located automatic monitoring posts of various departments located in places of centralized power supply are known [Registration number Р / 2008/1253/300 / Л dated 02.21.2008, License to carry out activities in the fields of hydrometeorology and related fields; Patent RU 2197720. The method of radiation monitoring of ecosystems by soil radioactivity. IPC G01N 1/04, G01T 1/167, 1999].

Regional, object and mobile automated measuring systems for industrial and environmental monitoring (AISPEM) of potentially hazardous enterprises and the state of the environment for forecasting natural and man-made emergencies based on the SkyLINK data acquisition and transmission system are known. [Palichev E.D. “Under the control of AISPEM” // Atopress No. 9, 2009; Tarasevich A.E. "Organization of a system for monitoring and preventing emergencies at an industrial enterprise" // Journal "Industrial and Environmental Safety", No. 2 (16), February 2008; Tochenova N.V. “Formation and ensuring the functioning of an additional (regional) network of state environmental monitoring in the Khanty-Mansiysk Autonomous Okrug. - Ugra "// link to the page http://900igr.net/prezentatsii/ekologija/Monitoring/Ekologicheskijmonitoring.html]

The disadvantages of all known autonomous environmental monitoring posts are the impossibility of using them as a single district, regional or global network of environmental monitoring posts in decentralized areas with a single center, since very powerful expensive devices and buffer energy storage devices are required to transmit information over long distances. in modern conditions is impractical and uneconomical.

A drawback of the existing networks of regional automated industrial-environmental monitoring systems is the energy connection of the automated measuring systems of industrial-environmental monitoring to the central energy system, also in the monitoring system along with various sensors for chemical, fire, hydrological, radiation, physical protection, and other types of monitoring, there is no video recording equipment, which leads to incomplete information.

The objective of the invention is the creation of an autonomous environmental monitoring post (APMOS), the energy platform of which will be combined sources of renewable energy, such as solar-wind or hydropower. And on the basis of APMOS, the creation of a regional, global network of automatic environmental monitoring posts, which will eliminate the link to the central energy system and provide round-the-clock and year-round reliable environmentally friendly environmental monitoring in large areas.

As a result of using the proposed invention, the opportunity arises:

- providing meteorological and environmental monitoring (to identify poachers, to take into account the migration of rare animals, observations on the rookeries of fur seals, seals, etc.) and the monitoring of potentially dangerous objects: railways, bridges, social facilities, oil and gas pipes in places where it is impossible to connect to the central power system;

- the presence of a collection system from various sensors and objects and the transmission of this data;

- the ability to connect existing sensors for chemical, fire, hydrological, radiation, physical protection and other types of monitoring;

- information transfer to object, local, regional, information and analytical centers.

The above technical result is achieved by the fact that the network of autonomous environmental monitoring posts consists of several autonomous monitoring posts, where the energy platform consists of vertical-axis wind power plants of various modifications with a capacity of 0.4-0.6 kW, mounted in tiers and rotating under pressure towards each other, the revolutions of which are summed through an adder-variator and transmitted to the generator, and by solar modules with a power of 0.15-0.2 kW, located on a vandal-proof tower from 10-18 m and above, while the battery compartment, electronic data transmission units are located in a metal cabinet mounted high on the tower, while stand-alone environmental monitoring posts are installed according to the cell principle, at the same distance from each other, and in each The cell has nine base stations located at a distance of 5 km, interconnected locally with a dedicated line and having one parent mother tower, in which all the information collected from all posts and transmitting it through from local communications or through a dedicated channel to regional services for analyzing the situation and making appropriate decisions, and the general monitoring and security system is a new generation system for monitoring various parameters with the transmission of information over the air, cellular or a dedicated line.

Using the proposed design of APMOS and the unified regional network of APMOS will allow real-time video surveillance of abandoned fields overgrown with hemp and poppy plantations, farmland, forests, social facilities where it is impossible to connect to the central energy system and transmit data about it to the duty services and management for the adoption of the necessary measures.

To hunters, fish inspectors, ecologists, to identify poachers and to take into account the migration of rare animals, observations at the rookeries of fur seals, seals, etc., as well as for observations of oil and gas pipes, the APMOS will also be equipped with additional thermal imagers, which will allow for round-the-clock monitoring in a certain area. In addition, sensors and thermal imagers can transmit information about the beginning of fires in the forest. ASMOS installed on the banks of rivers and ponds can warn for a long time about the onset of floods and floods, which reduces risks and mitigates the effects of accidents, catastrophes and natural disasters, increases the level of protection of the population and territory.

Hydrometeorological services can significantly increase the number of weather posts for high-quality weather forecasting in the region.

The essence of the proposed autonomous environmental monitoring post and the regional network of APMOS is illustrated in figures 1, 2.

In Fig. 1, a general diagram of an autonomous environmental monitoring station is presented.

Figure 2 - a map of the area with marked locations on the network of autonomous monitoring posts, interconnected locally with a dedicated line and having one parent mother tower, which accumulates all the information collected from all posts and transmitting it via cellular or via a dedicated channel for regional services to analyze the situation and make appropriate decisions.

An autonomous environmental monitoring post consists of an anti-vandal tower 1 with a height of 10-18 meters and higher, if necessary, for solving special problems, vertical-axis wind power installations of Savonius rotors 2 and 3 with a capacity of 0.4-0.6 kW, mounted in tiers and rotating towards to each other, while connected through an adder-variator 4 to a generator 5, and solar modules 6 with a power of 0.15-0.2 kW on a tower 1, a fixed platform 7 is mounted with measuring and fixing equipment installed on them (sensors, video cameras s, thermal imagers, etc. are not indicated on the diagram), a metal cabinet 8 is fixed to place the battery compartment on the anti-vandal tower 1.

An autonomous environmental monitoring post operates as follows. Under the influence of high-speed wind pressure 9, from 1.5 m / s, the Savonius rotors 2 and 3 begin to rotate, mounted in tiers and rotating towards each other, the rotations of each rotor are summed through an adder-variator 4 and transmitted to generator 5, in calm weather energy is provided solar photovoltaic batteries 6 and is additionally supported by batteries located in a metal cabinet 8, sensors, video cameras, thermal imagers are located on a fixed platform 7. Autonomous monitoring posts 10 are combined via a local network and transmit information on the mother tower 11 dedicated line, which collects all the information collected from all posts and transmits it over a cellular connection or a dedicated channel of regional services for the analysis of the situation and take appropriate decisions.

Claims (1)

A network of autonomous environmental monitoring posts, containing several monitoring posts, including environmental monitoring sensors, video cameras, thermal imagers, characterized in that the monitoring posts are autonomous, where the energy platform consists of vertical-axis wind power plants of various modifications with a capacity of 0.4 -0.6 kW, mounted in tiers and rotating under the pressure of the wind towards each other, the revolutions of which are summed through an adder-variator and transmitted to the generator, and solar a 0.15-0.2 kW power module placed on an anti-vandal tower with a height of 10-18 m and above, while the battery compartment, electronic data transmission units are located in a metal cabinet mounted high on the tower, while the stand-alone environmental monitoring posts installed on the principle of a cell, at the same distance from each other, and in each cell there are nine base stations located at a distance of 5 km, interconnected locally with a dedicated line and having one head mother tower, in which all information collected from all posts is transmitted, then transmitted via cellular communication or through a dedicated channel to regional services to analyze the situation and make appropriate decisions, and the general monitoring and security system is a new generation system for monitoring various parameters with the transmission of information over the air, cellular communication or on a dedicated line.

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