Steam-generating unit of dual circuit reactor with purge and drain system

Abstract

The steam generating unit of dual circuit reactor with blowdown and drain system is implemented in the close loop, without any conventional blowdown expansion tanks and is designed for maximum pressure of the steam generator (SG) working medium. The SG blowdown water is combined into a single line, cooled down in the regenerative heat exchanger, then in the blowdown aftercooler and drain cooling line and taken out of the tight shell. Out of the tight shell, the SG blowdown water is supplied for treatment to the SG blowdown water treatment system designed for maximum pressure of the steam generator (SG) working medium. After treatment, the water returns to the tight shell and, via the regenerative heat exchanger, to the feed pipelines of each SG. The invention provides increased SG blowdown that leads to the accelerated chemical condition normalization even with considerable deviations.

Claims

1. A steam generating unit of dual circuit reactor with blowdown and drain system, comprising: four identical horizontally arranged steam generators enclosed into a protection tight volume, each steam generator having hot and cold headers of a primary circuit with pockets and salt compartment; each steam generator being connected to a steam header, feed water supply pipeline, and blowdown lines; each steam generator being connected to the blowdown lines from the salt compartment, from a lower part of the steam generator and from said pockets of the primary circuit headers; wherein all the blowdown lines of each steam generator are combined into a single blowdown header of a steam generator with further combination into a common blowdown header of the steam generators that is connected to an inlet of a regenerative heat exchanger; wherein a discharge line of the regenerative heat exchanger is connected to a blowdown aftercooler; and a discharge line of the blowdown aftercooler is taken out of the protection tight volume and connected to an active water treatment system; and the active water treatment system being equipped with a discharge line of a treated blowdown water of the steam generators connected with at least, one treated blowdown water pump which is further equipped with a pressure line being brought into the protection tight volume and connected to an inlet of an intertubular space of the regenerative heat exchanger; wherein an outlet of the intertubular space of the regenerative heat exchanger is connected to the feed water supply pipelines of the steam generators via a common pipeline for the treated blowdown water supply and pipelines for treated blowdown water supply of each steam generator.

2. The unit according to claim 1, wherein the discharge line of the blowdown aftercooler outside the protection tight volume, is provided with a steam generator drain and discharge pipeline connected to a water drain tank.

3. The unit according to claim 1, wherein the discharge line of the treated blowdown water of the steam generators is provided with three pumps—an operating pump, a standby pump and a repair pump.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is described by a simplified scheme of the steam generating unit of dual circuit reactor with blowdown and drain system.

(2) The steam generating unit of dual circuit reactor with blowdown and drain system comprises four identical steam generators 1 enclosed into the protection tight volume (the remaining three steam generators are not shown in the scheme) with horizontal casing with lower casing component, cold 2 and hot 3 headers of the primary circuit with the pockets 36 and salt compartment 4 created between the headers and bottom surface of the steam generator, each steam generator is connected to the steam header 5, feed water supply pipeline 6, 7, 8 and 9, respectively, of the first, second, third and fourth steam generators, blowdown lines from the salt compartment 10, lower casing component 11 and pockets 36 of the headers 2 and 3 of the primary circuit 12. All blowdown lines of each steam generator are combined into a single blowdown header of the steam generator 13, 14, 15 and 16, respectively, with their further combination into the common blowdown header 17 of the steam generators 1. The common blowdown header 17 is connected to the regenerative heat exchanger inlet 18, with the discharge line 19 connected to the blowdown aftercooler and drain cooling line 20. The discharge line of the blowdown aftercooled water 21 of the blowdown aftercooler and drain cooling line 20 is taken out of the protective tight volume 22 and connected to the active water treatment system 23. The treated blowdown water discharge pipeline of the steam generators 24 of the active water treatment system 23 is provided with the treated blowdown water pumps 25—operating, reserve and repair, which pressure line 26 is taken out of the protective tight volume 22 and connected to the regenerative heat exchanger 18 intertubular space inlet, with the outlet connected to the feed water supply pipelines 6, 7, 8, and 9 of the relevant steam generator via the common pipeline for the treated blowdown water supply 27 and pipelines for treated blowdown water supply 28, 29, 30 and 31 of each steam generator, wherein the blowdown aftercooled water pipeline, after taken out of the protective tight volume, is provided with the steam generator drain and discharge pipeline connected to the water drain tank. The discharge line of the blowdown aftercooled water 21, after taken out of the protective tight volume 22, is provided with the drain and discharge pipeline of all four steam generators 32 that is connected to the water drain tank 33 provided with the pump 34 for discharge into the water discharge pipeline of the steam generators 35.

DETAILED DESCRIPTION OF THE INVENTION

(3) The steam generating unit works as follows. The coolant from the primary circuit enters the “hot” header 3 of each steam generator 1, releases its heat to the steam generator 1 water and, cooled down, enters, through the “cold” header 2, the suction line of the main circulating pump (not shown in the scheme). The feed water is supplied to each steam generator 1 via the feed water supply pipelines 6, 7, 8 and 9 to the first, second, third and fourth steam generators 1, respectively. The dried steam is taken out of the steam header 5 of each steam generator 1, and then it is supplied to the turbine through the steampipes (not shown in the scheme).

(4) The blowdown consists in continuous and regular extraction of some portion of the boiler water from the points where the corrosion products, salts and sludge are most probably accumulated. Via the blowdown pipelines 10, the flows of continuous and regular blowdowns are removed from the salt compartments 4 of each of the steam generators 1, blowdown pipelines 11 from the lower part of generators and pipelines 12 from the pockets 36 of the headers 2 and 3, then the flows of both continuous and regular blowdowns are combined in single blowdown headers 13, 14, 15 and 16 of the steam generators 1, and then in the common header 17 of the steam generators 1. The main consumption of the continuous blowdown is arranged via the blowdown pipelines 10 from the salt compartment 4 placed on the “cold” bottom of the casing. The regular blowdown of the steam generators is performed both from the salt compartment 4 and via the blowdown pipelines 11 of the lower part of generators and pipelines 12 from the pockets 36 of the headers 2 and 3. In the normal operation, the regular blowdown of the steam generators is performed in a cyclic way by increasing the consumption of one of four steam generators any time. Via the common header 17 the blowdown flows enter the regenerative heat exchanger 18 pipes where they are cooled down and wherefrom they are supplied via the regenerative heat exchanger 18 discharge pipeline 19 for aftercooling in the blowdown aftercooler and drain cooling line 20, and then flowing via the discharge line of the blowdown aftercooled water 21 they enter the active water treatment system 23 where the blowdown water of the steam generators are treated from the corrosion products and impurities in ion form, wherein the chemical condition of the secondary circuit is maintained for corrosion products and dissolved impurities. The treated blowdown water pump 25 mounted on the treated blowdown water discharge pipeline 24 of steam generators 1 supplies, via the pressure line 26, the cooled and treated from undesired impurities blowdown water to the regenerative heat exchanger 18 intertubular space where it is heated due to the blowdown water cooling that enters the regenerative heat exchanger 18 pipes via the common blowdown header 17 of the steam generators 1. The treated water, via the treated blowdown water main pipeline 27 and treated blowdown water pipelines 28, 29, 30 and 31 of each steam generator 1, respectively, is supplied as additional water to the feed water supply pipelines 6, 7, 8 and 9 of the relevant steam generator, and then via the feed water supply pipelines 6, 7, 8 and 9 to the first, second, third and fourth steam generators 1, respectively.

(5) The draining is conducted as follows: when the steam generator 1 is shut down, the working medium of the steam generator 1 is removed via the blowdown pipelines 11 from the lower part of the generator and pipelines 12, from the pockets 36 of the headers 2 and 3, via the single blowdown header 13 and common blowdown header 17 of the steam generators, with the route through the regenerative heat exchanger 18 and discharge pipeline 19 of the regenerative heat exchanger 18 it is supplied to the blowdown aftercooler and drain cooling line 20 to cool down, and then via the discharge line of the blowdown aftercooled water 21 the medium is supplied to the drain and discharge pipeline 32 of all four steam generators, and then to the water drain tank from the steam generators 33, wherefrom it is pumped by the automatic pump 34 via the water discharge pipeline of the steam generators 35, and directed for treatment or further disposal.

(6) The blowdown water pump 25 of steam generators is intended for the treated blowdown water return after active water treatment 23 to the steam generators 1 via the system of the feed water supply pipelines 6, 7, 8 and 9, the reserve and repair pumps can be also provided.

(7) The regenerative heat exchanger 18 is intended for initial cooling of the blowdown water supplied for active water treatment 23 and further heating of the treated blowdown water after active water treatment 23 in various operation modes of the power unit—during start-up, power operation and cooling down.

(8) The blowdown aftercooler and drain cooling line 20 is intended for aftercooling of the steam generator blowdown water supplied for active water treatment 23 during the power unit operation, cooling down and start-up. When the power unit is shut down, the blowdown aftercooler and drain cooling line 20 is intended for cooling the media drained from the steam generators.

INDUSTRIAL APPLICABILITY

(9) In the claimed technical solution, the blowdown and drain system of the steam generating unit is implemented in the close loop, makes it possible to use the blowdown water as additional for the feed water of the steam generators, by preserving the blowdown water high pressure over the entire blowdown water treatment cycle, thus reducing the energy losses for the blowdown water return to the secondary circuit. Due to the increase blowdown consumption of the steam generators up to 140 t/h, the CC normalization time is reduced, and the improved WC of the secondary circuit provides for prolonging the service life of the steam generators, and respectively, the steam generating unit as a whole, and the reduced number of process lines laid through the containment improves its tightness, and no process communication with the engine hall makes the steam generating unit self-sustained.