RU2017057C1 - Heat-transfer surface gas-pulse cleaning plant - Google Patents

Abstract

FIELD: thermal power engineering. SUBSTANCE: plant has a pulse chamber with periodically activated igniters connected to a distributing manifold by pipelines which have shutoff-control valves. The plant also has a mixer and gas and air feed branch pipes with shutoff-control valves. The mixer is mounted after the shutoff-control valve on each pipeline connecting the pulse chamber to the distributing manifold. Each mixer is connected to the gas feed branch pipe by the pipeline with the shutoff-control valve, and the air feed branch pipe is connected to the distributing manifold. EFFECT: improved operational reliability. 1 dwg

Description

 The invention relates to installations for cleaning heating surfaces from external deposits and can be used in the power industry, metallurgy, chemical industry and other industries where there is a problem of cleaning heat-exchange surfaces.

 Known devices for acoustic cleaning of heating surfaces, which contain a pulsed chamber filled with a gas-air mixture, an igniter, periodically setting fire to this mixture, an exhaust nozzle through which combustion products are ejected onto the surface to be cleaned.

 However, these devices are characterized by localization of the exhaust, and for a more complete coverage of the tube bundles by the blast wave, one has to increase the number of such devices. In addition, the large dimensions of the pulse chambers complicate their use, especially on existing waste heat boilers.

 Also known is a gas pulse cleaning installation comprising small-sized pulse chambers connected by pipelines with shut-off and control valves to a distribution manifold in communication with a mixer, to which pipes for supplying gas and air with shut-off-control valves are connected.

 In the known installation, shut-off and control valves located on the pipelines supplying the gas-air mixture to the pulse chambers are subject to significant temperature deformations due to their strong heating during operation of the pulse chambers in the explosive mode, which reduces the operational reliability of the installation and makes it difficult to automate it.

 The basis of the invention is to increase the operational reliability of the installation by lowering the temperature at which the shut-off and control valves installed in front of the pulse cameras work.

 The use in the claimed device of distinctive features from the prototype, characterized by the installation of a mixer on each pipeline connecting the pulse chambers to the distribution manifold, with the corresponding declared interconnections, reduces the ambient temperature at which shut-off and control valves work, which improves the operational reliability of the installation.

 The drawing shows a diagram of an installation for gas-pulse cleaning of heating surfaces.

 The installation contains small-sized pulsed combustion chambers 1 with igniters 2 connected by pipelines 3 for supplying the mixture from mixers 4. Each mixer 4 is connected by an additional pipe 5 to a pipe 6 for gas supply and to a distribution manifold 7 connected to pipe 8 for air supply. At the same time, a shut-off and control valve 9 is installed on the pipe 6 for gas supply; gas-shut-off and control valves 10 on the supply pipelines 5; a shut-off and control valve 11 is installed on the pipe 8 for air supply, and installed on the air supply pipes 12 to the mixers 4 shut-off and control valves 13. The output nozzles 14 of the pulse chambers 1 are directed to the cleaning surfaces 15 of the heating.

 Installation works as follows.

 Air-fuel mixture is supplied through the mixture supply pipe 3 to each combustion chamber 1, which is periodically ignited with a pilot 2 at a certain frequency. A combustible portion of the mixture creates pressure in the chamber 1 by which the combustion products are ejected through the exhaust nozzle 14 onto the surfaces 15 to be cleaned, for example, multi-tube bundles. At the same time, a phase shift in the wave pulses can contribute to an increase in cleaning efficiency, which can be achieved by changing the ignition time 2 and adjusting the valves 10 and 13 in accordance with a given program, changing, respectively, the gas and air flow to the mixers 4.

 Thus, the proposed installation allows to reduce the temperature at which the shut-off and control valves installed in front of the pulse chambers operate to an acceptable temperature for them, which improves the operational reliability of the installation and ensures its operation in automatic mode.

Claims (1)

 INSTALLATION FOR GAS-PULSE CLEANING OF HEATING SURFACES, comprising a distribution manifold, pulse chambers with intermittent igniters, connected to the distribution manifold via pipelines with shut-off and control valves, and a mixer with nozzles for supplying gas and air, having shut-off and control valves, characterized in that it is equipped with additional mixers, mixers are installed after the shut-off and control valve on each connecting pipe, each with esitel connected via an additional conduit having a shut-off and regulating valve with a pipe for the gas supply pipe and the air supply is connected to the distribution manifold.

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