RU2208819C2 - Station of ecological control over environment - Google Patents

Abstract

FIELD: automatic control over physical, chemical and radiation condition of atmospheric air. SUBSTANCE: station of ecological control over environment has heat insulated sealed cylindrical body housing devices and aggregates of measurement, control and station servicing systems, air conditioner with suction and pressure air conduits. Heat insulated sealed body has streamlined cover and is divided into upper and lower compartments by means of partition-floor, devices and aggregates of measurement and control systems are positioned in upper compartment on perforated racks located around edges of body with formation of free central space for maintenance personnel. Devices and aggregates of station servicing system and air conditioner are situated in lower compartment. Partition-floor has perforations in zone of location of racks, suction air conduit comes in the form of enclosure placed along wall of body with inlet in ceiling zone of upper compartment and with outlet communicating with space of lower compartment. Upper compartment is fitted with heat insulated sealed door mounted in station body flush with its outer surface. EFFECT: provision for stability of characteristics of measurement devices in the course of long-term operation thanks to enhanced efficiency of cooling ( heating ) of devices and aggregates, simplified maintenance procedure. 1 dwg

Description

 The invention relates to environmental information stations, namely, stations for automatic control of the physico-chemical, radiation state of atmospheric air.

 The creation of effective automatic tools, the use of which is especially important in areas of oil and gas fields, metallurgical, chemical, nuclear and other industries operating in difficult climatic conditions, mainly without human intervention, with a sharp difference in temperature, humidity, pressure, is a complex problem, the solution of which causes interest all over the world. Such stations, created with varying degrees of automation, are used, for example, in the USA (cities: Chicago, Los Angeles, New York), Japan (Guma prefecture, Nagoya city), Great Britain (Telstor stations), Poland (Mountain Silesian Industrial District), etc.

 For example, the ANKOM-AM station for environmental environmental monitoring is known (see "Ecological Problems of Moscow. Network of Ground-Based Measurements." / Edited by E.N. Pupyreva. - M.: Moscow Branch of Hydrometeorological Publishing House, 1992, pp. 144-146) comprising a housing, a supporting frame, a meteorological complex, measuring equipment for air pollution, air intakes, diagnostic, control and information transfer units, an air conditioner and a heater, temperature sensors for heated and cold air. Stations of this type have ineffective thermostating of measuring equipment and are mainly used in urban environments.

 The disadvantage of such environmental monitoring stations is the lack of stability of the characteristics of the measuring equipment due to the ineffective thermostating of devices and units for long-term operation of the station.

 Also known station environmental environmental control (see, for example, patent RU 2078357, IPC 6 G 01 W 1/02 dated 04/27/1997), selected as a prototype and containing a heat-insulated sealed cylindrical body with measurement systems located inside it, monitoring and maintenance of the station and air conditioning with suction and discharge ducts.

 Such stations have a thermally insulated sealed cylindrical body, made in the form of a shell with a hemispherical lid and bottom. The inner surfaces of the housing, covers and bottoms are covered with thermal insulation. Devices and units of measurement and control systems of the environment surrounding the station are located in the closed volume of the station without the possibility of prompt human access to them. The indicated devices and units are grouped and fixed on the central frame from its two sides and have a thermal effect on each other, which reduces the cooling efficiency of devices and units during air circulation inside the station.

 In addition, to replace the device or unit in the event of an emergency exit from the operating state, as well as to carry out routine maintenance inside the station with individual devices or units operating for a long time especially in extreme operating conditions, opening and depressurization of the station’s body by removing the hemispherical cover will be required, which is not always possible, for example, when operating in the field in winter.

 The disadvantages of the known environmental monitoring station are the lack of stability of the characteristics of the measuring equipment, due to the ineffective cooling (heating) of devices and assemblies and the difficulty of maintenance during long-term operation.

 The objective of the present invention is to provide a station for environmental monitoring of the environment, which would provide stable characteristics of the measuring equipment for a long time of operation by increasing the efficiency of cooling (heating) of devices and assemblies and simplifying maintenance during operation.

 The essence of the invention lies in the fact that the environmental monitoring station, containing a thermally insulated sealed cylindrical body with devices and units of the station measurement, control and service systems located inside it, as well as an air conditioner with suction and discharge ducts, in contrast to the known thermally insulated sealed the cylindrical body with a streamlined cover is divided into upper and lower compartments by a partition-floor, instruments and units of measurement systems and ontrols are installed in the upper compartment and placed on the perforated shelves of the racks located around the perimeter of the building with the formation of free central space for the maintenance personnel, the devices and units of the service system of the air-conditioned station are located in the lower compartment, while the partition-floor is made with perforation in the location zone shelving, the suction duct is made in the form of a casing located along the wall of the housing, with an entrance to the ceiling area of the upper compartment and an outlet in communication with the volume of the lower compartment, and the upper compartment is equipped with a heat-insulated sealed door installed in the station casing flush with its outer surface.

 The problem is solved in that the station for environmental environmental monitoring is divided into upper and lower compartments of measurement, control and service station and equipped with air conditioning; in the compartments, efficient cooling or heating of devices and units installed and placed on racks around the perimeter of the station’s body is organized, which has a directed flow of air circulating from the air conditioner through perforation in the sexual partition and shelving racks. In addition, for servicing instruments and assemblies in the conditions of long-term operation of the station when placing the duct inlet in the ceiling area, the need arose to provide the upper compartment with a thermally insulated, sealed cylindrical door.

 The technical result in terms of supplying a thermally insulated sealed cylindrical station case made in the form of a cylinder with a streamlined cover (the shape of the cover can be not only hemispherical, but also ellipsoidal, conical, etc.), separation into upper and lower compartments for placement and maintenance measurement systems, control and service station with air conditioning, the placement of instruments and units of measurement and control systems on the perforated shelves of racks located around the perimeter of the station with the formation of a free central space for maintenance personnel, and devices and units of the station’s air-conditioning service system in the lower compartment, supplying the station with a thermally insulated hermetic door, as well as the mutual structural connection of all constituent elements of the station ensures stable characteristics of the measuring equipment for a long time of operation due to increase the efficiency of cooling (heating) of devices and assemblies, as well as by simplifying maintenance during spluatatsii, which is confirmed by tests of prototypes made with the proposed technical solution.

 The use of the proposed environmental monitoring station in the areas of oil and gas fields, metallurgical, chemical and nuclear industries will make it possible to give a significant economic effect by ensuring the stable characteristics of the measuring equipment over a long operating time by increasing the cooling (heating) efficiency of devices and assemblies, as well as by simplifying maintenance during operation.

 The essence of the invention is illustrated in the drawing.

 The proposed environmental monitoring station consists of the following main systems, components, parts, devices and assemblies: a thermally insulated hermetic cylindrical housing 1 with measurement systems 2 and control 3 located inside it, a service station system 4 and an air conditioner 5 with a suction duct 6 and a discharge air duct 7.

 The heat-insulated tight cylindrical body 1, made in the form of a cylinder with a cover 8, which has a streamlined shape, for example, a drop-shaped one, is divided into upper and lower compartments 9, 10 for placement and maintenance of the indicated systems 2, 3, 4. Instruments 11 and units 12 of the measurement system 2 and control systems 3 are installed in the upper compartment 9 and placed on the perforated shelves 13 of racks 14 located along the perimeter of the station building 1 with the formation of a free central space 15 for service personnel, and devices 16 and units 17 of the system 4 service stations with air conditioning 5 are located in the lower compartment 10, separated from the upper compartment 9 by a partition-floor 18, containing a perforation 19 in the area 20 of the shelving 14 with appliances 11 and units 12, through which the upper compartment 9 is connected to the air conditioning 5 pressure duct 7, while the upper compartment 9 is equipped with a thermally insulated sealed door 21, made, for example, by the type of airplane door device and installed in the housing 1 flush with its outer cylindrical surface 22. In addition Oh, the suction duct 6 is made in the form of a casing located along the wall 23 of the housing 1, the entrance 24 of which is located in the ceiling zone 25 of the upper compartment 9, the outlet 26 is in communication with the volume 27 of the lower compartment 10. The meteorological complex 28, which is part of the station, is mounted on a remote rod 29, mounted on the housing 1 of the station. As thermal insulation 30, for example, polyurethane foam PPU-4 or Teplon is used.

 The suction duct 6 is provided with a shutter 31 for regulating the circulating air flow.

 The perforated partitions 13 of the racks 14 are made mainly of low-heat-conducting material, for example fiberglass, which allows you to protect devices from thermal influence (impact) on them from devices located in adjacent (adjacent) compartments of the racks 14.

 The environmental monitoring station operates as follows.

 The process of temperature control of an environmental monitoring station is characterized by a certain temperature and humidity regime, which is established as a result of heat and moisture transfer. When the air conditioner 5 is in cooling mode from the internal volume of the upper compartment 9, the exhaust heated and humidified air enters the inlet 24 into the suction duct 26, enters the volume 27 of the lower compartment, and then enters the air conditioner 5, where it is cooled and drained. At the outlet of the air conditioner 5, a discharge air duct 7 is connected, the outlet of which is connected to the perforation zone 20 in the sexual partition 18, through which cooling air is supplied to the upper compartment 9 to the devices 11 and the units 12 located on the perforated shelves 13 of the racks 14. After cold air exit from the holes of the perforation 19 he, passing through the holes of the perforated shelves 13, evenly washes and cools the instruments 11 and the units 12 of the measurement system 2 and control system 3 to a predetermined temperature. When organizing such a supply of cooling air from the discharge duct 7, it turns out that the air flow at the outlet of the openings of the perforated shelves 13 has thermodynamic parameters that are characterized by minimum temperature values and minimum relative humidity with respect to all subsequent measurements of the temperature-humidity regime of the air flow in the station elements in the volume of the upper compartment 9, the suction duct 6, the volume 27 of the lower compartment 10.

 When the air conditioner 5 is in the heating and air purification mode from dust, air circulation in the compartments 9, 10 is carried out similarly.

 The location in the upper compartment 9 of the racks 14 with the instruments 11 and the units 12 of the measurement system 2 and the air pollution control system 3 surrounding the station around the perimeter of the station building 1 with the formation of a free central space 15 for staff and supplying the upper compartment 9 with a thermally insulated sealed door 21, mounted in the station housing 1 flush with its outer cylindrical surface 22, provide free access for maintenance personnel to the devices 11 and units 12 when long-term operation of the environmental monitoring station. It also provides access from the upper compartment 9 to the devices 16 and units 17 of the service system 4 stations and to the air conditioner 5 through hatches provided and made in the partition-field 18. Performing a heat-insulated hermetic casing 1 in the form of a cylinder with a streamlined cover 8 and installing doors 21 flush with the housing 1 can eliminate possible wind turbulence of air in the areas of the location of the meteorological complex 28 and air sampling intakes, and also eliminates the collection of meteorological precipitation, such as snow, on the outer surface lids 8, which increases the accuracy of measurement and control of environmental parameters.

 The intake and supply of air from the environment surrounding the station to the devices 11 of the measurement system 2 and control system 3 is carried out by means of samplers 32 installed outside the station.

 Thus, the proposed environmental monitoring station provides stable characteristics of the measuring equipment for a long time by increasing the cooling (heating) efficiency of instruments and assemblies, as well as by simplifying maintenance during operation of the station, which in turn ensures the fulfillment of the task.

Claims (1)

 Environmental environmental monitoring station, containing a thermally insulated sealed cylindrical case with inside the devices and units of the station measurement, control and service systems, as well as an air conditioner with suction and discharge ducts, characterized in that the insulated sealed cylindrical case with a streamlined shape is divided into the upper and lower compartments with a partition-floor, instruments and units of measurement and control systems are installed in the upper compartment and placed On the perforated shelves of the racks located around the perimeter of the building with the formation of a free central space for the maintenance personnel, the devices and units of the service system of the air-conditioned station are located in the lower compartment, while the partition-floor is made with perforation in the area of the shelves, the suction duct is made in a casing located along the wall of the housing, with an entrance to the ceiling area of the upper compartment and an outlet in communication with the volume of the lower compartment, and the upper compartment is provided a heat-insulated hermetic door installed in the station housing flush with its outer surface.