SU1596203A1 - System for cleaning heat-exchanger pipes - Google Patents

Abstract

The invention relates to the cleaning of the inner surface of hollow articles from deposits of mineral and biological origin. The aim of the invention is to create an economical and efficient system for cleaning tubes of a two-section heat exchanger due to multiple repetition of processes of thermal impact on deposits and hydropneumatic cleaning. The system contains a generator of cold, made in the form of a vortex tube. The branch pipes of the hot and cold air of the vortex tube are connected to the pressure conduits of both sections by pipelines with stop valves. The invention can be used in power system, in particular on steam turbine condensers. 1 il.

Description

The invention relates to the cleaning of the inner surface of hollow articles from deposits of mineral and biological origin and can be used in heat and power engineering, in particular, on steam turbine condensers.

The purpose of the invention is to increase the cost-effectiveness of cleaning and expansion of technological capabilities due to the possibility of cleaning the two-section heat exchanger.

The drawing schematically shows a system for cleaning tubes of a two-piece heat exchanger.

The system contains a tubular heat exchanger. 1 with sections 2 and 3. and inspection hatches i and 5, circulation circuits 6 and 7 of the cooling water of each section with pressure conduits 8 to 9 and shut-off valves 10 and 11, air pipeline 12 with a pneumatic valve 13 for supplying air to the cold generator, the vortex tube 14. The cold pipe 15 of the vortex pipe 14 through the check valves 16 and 17, and the hot pipe 18 of the vortex pipe 14 through the steam valves 19 and 20 are connected to the pipes

discharge conduits 8 and 9 of circulation

circuit 6 and 7.

The system works as follows.

Open the shut-off valve 11 of the circulation circuit 7, the cooling water of section 3 of the heat exchanger 1 and close the shut-off valve 10 of the cooling water circuit 6 of the cooling water circuit 6 of the hh-kcpi 2. This opens the valve 1), 20 and the hatch /, and the valves hatch 5. Open the valve 1 of the secondary pipe 12 and the air r steps into the vortex pipe 1, where it is distributed to the cold and hot streams that flow through the pipelines 21 and 22, respectively, into the cooling water circuits 6 and 7. Cold air with a temperature (-5) - (- 10) through pipe 21 through valve 16 enters the pressure conduit 9 of the circulating circuit 7 ,. where, when mixing cold air and cooling water, ice balls are formed, which, together with the cooling water, enter the heat exchange tubes of section 3 of condenser 1. Cleaning the inner surfaces of the tubes from existing deposits occurs due to friction of ice balls against the walls of the tubes and washing of the walls with turbulized water flow. The air-air flow removes organic (soft) sediments, and ice balls clear the surface of both organic and mineral (hard) sediments. Reducing the temperature in the cooling tubes and over. Neither of the ice balls is accompanied by the rapid cooling of the sediment layer, which leads to temperature deformations of the sediments, causing their splitting, chipping and entrainment by water-air noTOHfoM. At the same time, hot air with a temperature (+ 110} g- (+ 115) C through conduit 22 through the heat-drying valve 20 flows into the heat exchange tubes of section 2 of condenser 1). Hot air from section 2 leaves through the hatch 4. This heat exchange the tubes heat up and their temperature deformations increase, which leads to crushing deposits, and drying them, they cause flaking and chipping of deposits. Closing valves 11, 16, 20, hatch and open valves 10, 17 and 19, hatch 5 switch section 3 on thermal drying, and section 2 - on the eyes Multiple sequential processing of sections is carried out to achieve the best cleaning performance of the heat exchanger depending on the quantity and quality of deposits. The temperature difference between the flow of the vortex tube depends on the design features and quality of manufacture, on the working conditions of the vortex tube and does not depend on the temperature of the air flow I. Thus, the proposed system is simple in design and convenient to use. Connection of cold and hot air mains-. successively to the discharge conduits of the cooling and water circulation circuits, it improves the quality of cleaning and reduces the energy consumption for its implementation, and the heat exchanger is cleaned during periods of reduced load schedules without shutting down the turbine F o R m U l a and 3 o The system for cleaning the tubes of the heat exchanger with pressure conduits, containing the cold generator, the cold air inlet of which is connected to the pressure conduit, and the air supply line, from l and h. and with the fact that, in order to increase the efficiency of cleaning and expand technological capabilities by ensuring the cleansing of the two-section Heat Exchanger, the cold generator is made in the form of a vortex tube, which is connected to pressurized water; This cold air inlet is connected to the pressure conduit of the second section of the heat exchanger. Ooh kdayuschiv ts. f L IXI-1 oxflffiKdaimin Sega L g1xNgY5 / (dvzdd

Claims (1)

30 ° F A system for cleaning tubes of a heat exchanger with pressurized water conduits containing a cold generator, the cold air pipe of which is connected to the pressure conduit, and the air supply line, from which and I with that / that, with the purpose of increase of profitability of cleaning and expansion of technical _; 4 _P technologically opportunities by providing the two-part cleaning 'of the heat exchanger, the cold generator is in the form of a vortex tube, a hot air connection which are connected with both the pressure conduit sections via stop valves, wherein the cold air nozzle is connected with the pressure conduit of the second section of the heat exchanger.