EA006716B1 - Modular automatic gas-mixing and gas-distributing system for preparing of fuel gas/air mixture of uniform thermal value - Google Patents

Abstract

The invention relates to the field of producing fuel gas/air mixture and can be used in gas pipelines for domestic gas supplies of towns and settlements.The inventive modular automatic gas-mixing and gas-distributing system for producing fuel gas/air mixture of uniform thermal value comprises a unit automatic gas-distributing station which comprises reduction, change-over, gas-heating, protection system, controlling and gas discharge at the inlet, odorization, signaling and monitoring/measuring tools units and automatic gas-mixing station mounted in gas-distributing systems for domestic gas supplies of towns and settlements. The gas-mixing station comprises:a) an air compressor block comprising an air compressor, a filter, a receiver, a block of reduction and back valve;b) a gas/air mixing block comprising a gas mixture, an adjustable ejector mixing unit including four centrifugal fans and four adjustable ejector mixers comprising an adjustable nozzle, a mixing chamber, a diffusor, a confuser, and a branch pipe;c) a block of proportioning device comprising an air consumption flowmeter, an air consumption valve, a back valve, a gas consumption valve, a gas flowmeter and a gas/air ratio regulator.The invention is characterized in that the inventive system provides gas/air pre-mixing prior to supplying it to gas-distributing system of towns and settlements with excess coefficient of air in mixture approaching to stoichiometric value thus producing fuel gas/air mixture of uniform thermal value of combustion and density, wherein the system comprises means for heat exchange between discharging gases and inflowing fuel gas.The systems implementation provides to safe fuel gas consumption by 10-15% from consumed value, reduces capital investments and operation costs.

Description

The invention relates to the field of production of gaseous fuel, in particular to a block-type automatic gas mixing and gas distribution system for producing a mixture of combustible gas with air of a single heat of combustion and can be used on gas pipelines of the gas supply system of cities and towns.

Gas pipelines of the gas supply system, depending on the pressure of the transported gas, are divided into (Gas supply of SNiP 2.04.08-87, M. 2001):

- high pressure gas pipelines of the first category - with a working pressure of gas over 0.6 MPa (6 kgssm ² ) up to 1.2 MPa (12 kgf-cm ² ), including gas-air mixtures;

- high-pressure gas pipelines of the first category - with a working pressure of gas over 0.3 MPa (3 kgssm ² ) to 0.6 MPa (6 kgf-cm ² );

- medium pressure gas pipelines - with a working gas pressure of more than 0.005 MPa (0.5 kgf-cm ² ) to 0.3 MPa (3 kgf-cm ² );

- low pressure gas pipelines - with a working gas pressure of up to 0.005 MPa (0.5 kgf-cm ² ) inclusive.

Depending on the pressures used, urban gas distribution systems are divided into [Staskevich NA, Gas Supply Reference Guide, L. 1960, p. 183]:

- one-step systems - usually low pressure;

- two-stage systems - medium and low, or higher and low pressure; - three-entry systems - high, medium and low pressure.

According to the principle of construction, distribution systems are divided into ring, dead-end and mixed. To ensure uninterrupted gas supply on the principle of construction, preference is given to ring and mixed systems. The choice of the type of system according to pressure and the principle of construction is made depending on the sources, modes and gas pressure, gas consumption and city planning.

Combustible gases, in addition, can be classified according to the lower heat value of combustion — Sn and combustion temperature (Ravich, MB Gas and its application in the national economy. M. Nauka, 1977, p. 357).

According to the lower heat of combustion-Sn:

-with increased calorific value (high-calorific) -bn> 31.40 MJ / m ³ (natural, petroleum and liquefied);

-with an average heat of combustion CH = 12.6-31.40 MJ / m ³ (coke, shale and generator, obtained by gasification with steam-oxygen blowing under pressure);

- with low calorific value It is <12.6 MJ / m ³ (blast-furnace, generator, mixed and gases of underground coal gasification).

By burning temperature (max.)

- with Tmax. = 2000 ° С - natural, oil-field, liquefied, coke-oven, shale gases, which are expedient to use for high-temperature processes;

- with Tmax. = 1700-1500 ° C - mixed (50% of coke and 50% of blast-furnace), generator gases from bituminous fuels, which are used for medium-temperature processes;

- with Tmax. = 1400-1500 ° С - domain and some generator gases, which are used for medium-temperature and low-temperature processes;

with Tmax. = 750-1400 ° C - numerous waste gases (cupola, carbon black plants, purge gases, which are often not utilized);

- with Tmax. <750 ° C - these gases are not used as fuel.

Gas fuel is used in all industries and public utilities. At the same time non-renewable organic fuel raises the question of its rational and efficient use. When designing gas supply systems for settlements and individual objects, it is necessary to provide the most advanced technical solutions to ensure the rational use of gas fuel. Known gas supply systems include gas distribution stations, automated gas distribution stations (AGRS), gas control plants (GRU) autonomous gas mixing plants. Currently, gas pipelines use block-type automatic gas distribution stations (AGRS) of various modifications and performance designed to reduce high pressure to a given low pressure and maintain it with a given accuracy, as well as to measure gas flow and to odorize it before being supplied to the consumer (Operating Instructions , VNIPI Gas, mining, M. 1974). AGDS contains blocks: reduction, switching, odorization, alarm and gas heater.

Combustible gas through AGDS with different densities and different calorific value enters the gas-burning device of furnaces and boilers, where it is mixed with air before being fed to the combustion.

The processes and conditions for the formation of gas-air mixtures usually occur in gas-burning devices of furnaces and boilers. There are numerous gas-burning devices with various ways of mixing gas with air, which practically do not provide fast and complete combustion of the top

- 1 006716 Lebanon. The resulting gas-air mixture in the mixing chamber of these gas-burning devices does not have a constant composition, density and the calculated heat of combustion, which leads to a change in thermal power, the deterioration of the technical and economic indicators of installations.

Known installation for obtaining a mixture of combustible gas with air based on the use of liquefied gas propane-butane fraction from ground storage tanks (N. And. Staskevich, P. B. Mayzels, D.Ya. Vigdorchik, Handbook of liquefied petroleum gases, L. Nedra 1964, pp.395-398). The installation includes gas storage tanks, gas drying heaters, air compressors, ejectors for gas-air mixture formation. Gas consumption during the day is uneven, therefore the installation is equipped with three or four ejectors, which are automatically switched on and off depending on the magnitude of gas consumption. The unit is equipped with expensive air compressors and sophisticated instrumentation, which increases the cost of fuel. The resulting gas-air mixture has a heat of combustion of 8400-8500 Kcal / nm ³ . As a result of using such a gas-air mixture, part of the gas (10-15% by volume) is not oxidized to CO ₂ and in the form of unsaturated hydrocarbons (Sp H _2n ) and carbon monoxide (CO) enters the atmosphere as part of the combustion products. At the same time, part of the valuable hydrocarbon fuel is lost, the atmosphere of the combustion zone (industrial and domestic premises) is polluted, as well as the rapid deterioration of gas burner devices.

A disadvantage of the known gas mixing and gas distribution systems is that the heat of combustion and density of gas-air mixtures delivered to the consumer in contrast to GOST 5542-87 Natural combustible gases for industrial and household purposes, GOST 20448-90 Liquefied hydrocarbon gases for household use , GOST 27577-87 Compressed natural fuel gas for gas cylinder cars and GOST 27578-57 Liquefied hydrocarbon gases for road transport are different in combustion heat and density, and therefore In this case, incomplete gas combustion occurs in furnaces, the operation mode of boilers and furnaces is disrupted, and the performance of gas-consuming installations decreases, the combustion process of gas increases, and the specific gas consumption per unit of output increases.

The objective of this technical solution is to eliminate the above deficiencies in the gas supply system by obtaining and supplying the gas distribution network of the gas supply system of the gas-air mixture with a single heat of 7600 Kcal / nm ³ and density in accordance with the applicable standards, requirements, standards and safety rules in the gas industry.

The solution of the problem is carried out by a block automatic gas mixing and gas distribution system to produce a mixture of combustible gas and air with a single heat of combustion, including a block automatic gas distribution station (AGRS), containing reduction, switching, gas heater, protective system, metering and gas flow at the inlet, odorization , alarms and instrumentation, which additionally includes an automatic gas mixing station (AGS) installed on gas distribution systems of gas supply towns and cities.

Automatic gas mixing station contains:

a) an air compressor unit consisting of an air compressor, a filter, a receiver, a reduction unit and a check valve;

b) a gas and air mixer unit consisting of a gas mixer, an adjustable ejector mixing installation, including four centrifugal fans and four adjustable ejector mixers containing an adjustable nozzle, a mixing chamber, a diffuser, a confuser and a nozzle.

c) a proportional unit consisting of an air flow meter sensor, an air flow regulating valve, a check valve, a gas flow regulating valve, a gas flow meter sensor and a gas to air ratio controller.

The proposed automatic gas mixing and gas distribution system includes an automatic gas distribution station AGRS-10, and a mixture of combustible gas with air is pre-formed before being fed into the gas distribution systems of cities and towns with a uniform heat value and a mixture of combustible gas and air as close as possible. to stoichiometric - 1.01-1.02.

The novelty of the invention lies in the joint operation of AGRS and AGS in gas supply systems of cities and towns, resulting in the interconnection of AGRS and AGS blocks simplifying the system, eliminating duplicate blocks from it, as well as in an automatic adjustable ejector gas mixing plant where air is supplied by an air compressor and centrifugal fans, and the mixture of gas with air is produced by adjustable ejector mixers. The proposed design of an adjustable ejector mixer allows you to adjust the air flow with a minimum coefficient of excess in the range close to stoichiometric 1.01-1.02.

The invention is illustrated in the drawings:

FIG. 1 is a diagram of a block-type automatic gas mixing and gas distribution system for producing a mixture of combustible gas with air of a single calorific value;

FIG. 2 - adjustable ejector mixer.

Block automatic gas mixing and gas distribution system to produce a mixture

- 2 006716 combustible gas with air of uniform heat of combustion (Fig. 1) contains an air compressor unit, including an air compressor 1, a receiver 2, a reduction unit 3, and a check valve 8; a proportional device unit 4, including a sensor air flow meter, a valve regulating the air flow, a check valve, a valve regulating the gas flow, a gas sensor-flow meter, and a regulator of the ratio of gas and air; a gas and air mixer unit 5 comprising a gas mixer, an adjustable ejector mixing unit containing four centrifugal fans and four adjustable ejector mixers, a flow metering unit 6, and a block-type automatic gas distribution station 7. The adjustable ejector mixer (Fig. 2) contains an adjustable nozzle 9, the offset chamber 10, the diffuser 11, the confuser 12 and the pipe 13.

Block automatic gas mixing and gas distribution system to obtain a mixture of gas with air of the same heat of combustion works as follows.

High-pressure gas (P _in . = 12-55 kgf / cm ² ) from a source entering the AGDS 7 is fed through a pipe to a gas preheater (PGA-10), where it is heated to prevent the formation of crystalline hydrates. The gas is heated by radiation from the burner and the heat of the exhaust gases (Instructions for use of the automatic gas generator PGA-10). The heated high-pressure gas from the heater is fed to the reduction unit. Before reducing the gas is cleaned of mechanical impurities in the filters, in which the filter element is a metal mesh. Heated and cleaned of high pressure gas is supplied to the input of the pressure regulator, where the gas pressure is reduced to a low output pressure P _O. = 3-12 kgf / cm ² (Operating Instructions RDU type gas pressure regulator). From the reduction unit, low-pressure gas is fed to the flow metering unit, then to the odorizer (Universal Gas UOG-1 gas odorizer), where they carry out an automatic dosed supply of odorant and maintain the odorization rate as the gas flow rate changes. From the odorization unit, gas is fed to the switching unit, which consists of the input and output lines, safety valves and hand-operated valves designed to turn off the AGRS during repairs. AGRS is equipped with a remote signaling system, which is designed to monitor the work of the main units of the AGRS and automatically distribute the signal to a service point for violations.

The cleaned and heated gas through the node AGDS flow is fed to the inlet of the gas mixer unit with air 5 automatic gas mixing station (AGS). The air from the air compressor 1 through the receiver 2, the reduction unit 3 and the proportional device 4 are fed to the automatic gas mixing device 5. Here the air is supplied from the automatic regulated ejector installation, which is included in the gas and air mixer unit. The supply of low-pressure air in an adjustable ejector installation is performed by centrifugal fans. In a gas mixer, the gas is mixed with air in an approximate stoichiometric ratio. The ratio of gas and air regulate depending on changes in gas flow. Regulation of the ratio of gas and air is carried out automatically with the help of the propulsion device. The gas-air mixture with a uniform heat of combustion and density through the flow meter node 6 serves in the gas distribution system of gas supply to cities and towns.

All equipment and installations included in the units of the declared system, except for the adjustable ejector mixer, are standard equipment. The stated technical solution for the transition of the gas supply system to a single heat of combustion and density provides for the use of a block-type automatic gas mixing and gas distribution system at the nodes of gas distribution systems for gas supply to cities and towns.

The introduction of the invention saves fuel gas consumption by 10-15% of the consumed volume, reduces the volume of investment and operating costs.

Claims (1)

CLAIM Block automatic gas mixing and gas distribution system for producing a mixture of combustible gas with air of uniform heat of combustion, including a block automatic gas distribution station (AGRS), containing reduction, switching, gas heater, protective system, metering and gas flow at the inlet, odorization, signaling and control instruments (instrumentation), and automatic gas mixing stations (ATS) installed on gas distribution systems for gas supply to consumers (AGRS), while YSTEM has means for exchanging heat between the exhaust gases and the supplied fuel gas.