SU5351A1 - Parosilov installation - Google Patents

Description

The drawing shows a diagram of the proposed steam power plant.

The exhaust steam can be transferred from the prime mover or steam-driven machine guns (for example, from hammers and simple steam engines) to a combined power and heating network. The author, for example, found that the operation of steam hammers with a backpressure of up to two atmospheres on a pressure gauge is normal. This circumstance makes it possible, using steam hammers with increased back pressure, to use exhaust steam of hammers in the winter for steam heating, and in summer to operate it in the second stage of a steam turbine or a low-pressure cylinder of a steam engine with double or triple expansion, and the design of the steam engine is indifferent i.e. it is even possible to use a steam turbine or an intermediate steam extraction machine as an engine for injecting steam into the second stage, provided that a pressure regulator is added that turns into the main one, which controls the speed controller.

The heat accumulator A, equipped with a PC safety valve and a reverse OK, receives steam from system M through the oil separator B through the oil separator B and sends it through the superheater / 7 further. The superheater P is installed in a combined boiler flue of a boiler house, in a zone of sufficiently high temperatures to operate, for example, in a second stage of a turbine or a low-pressure cylinder of a steam engine. With this combination, a more complete utilization of the heat of the exhaust gases from the boiler room is achieved. When using exhaust steam for heating purposes, it also overheats to increase the heating effect.

system. On the branch of the steam into the turbine, there is a check valve OK in case of pressure drop in the accumulator. From the steam superheater / 7 steam goes through pipe X, either to one of the lower stages of the secondary steam engine T, or besides it to the heating network O.

The installation uses a boiler or a K boiler system with economizer E for feedwater.

The secondary engine T in the form of a steam expansion machine and a steam turbine with pressure stages can be operated either with fresh steam from boilers K in the usual way, or only with steam from accumulator A fed to one of the lower stages through a superheater / 7, or both. steam at the same time.

The heating network O receives fresh steam directly from boilers K or steam from battery A through a superheater P through pipe A.

Combined tank B receives fresh water through pipe VIII and condensate through pipe / from engine G and through pipe // from the heating network O. This mixture of water supplied to economizer E with a feed pump // can be heated: with fresh steam vent VII; steam from the pipe Z-through branch XI and. pipe /; through pipe /// - steam used in feed pump N. This steam through pipe IV can also be supplied to battery A, from which water can be drained into tank B through pipe V.

In the proposed steam power plant, all condensate is returned, for example, from a turbine through pipe /, from heating through pipe // (back to the boilers in a heated state), and the temperature of the condensate is regulated by starting the waste steam from feed pumps H from the boiler room through pipe /// or - to heat the feed water in the collection tank B, or - to the heat accumulator through the pipe / V (you can also add heat to the feed water from the battery through the pipe V). Such combination

allows you to send water through pipe VI to the boilers or economizer E with a high (up to 90 °) and constant temperature, which makes it possible, in the first case, to increase the boiler room efficiency, and in the second case reduces the heating surface of the economizer and allows further utilization of flue gas heat. Before starting the steam engine (especially the turbines), the steam supply line for the fresh steam is produced according to the scheme directly into the collecting tank through pot G through pipe VII. This accomplishes, with particular value, the initial heating of the feed water. Tap water to replenish the inevitable loss of condensate is added to collection tank B through pipe VIII through regulator R. In the diagram, the exhaust pipes delivered in case of repair are marked with figure IX.

The subject of the patent.

Parosilov installation, characterized with the cumulative use:

a) a prime mover or a steam-powered machine — a gun or their M system, which discharges the exhaust steam to a combined power and heating network,

b) heat accumulator A, receiving steam from system M through pipe oil separator B via pipe XII and sending this steam through a superheater / 7 through pipe X either to one of the lower stages of the secondary steam engine T, or in addition to it to the heating network O,

c) boiler from boiler system K with economizer E for feed water and superheater / 7 for steam from accumulator A, d) secondary motor T in the form of a multiple expansion steam engine or steam turbine with pressure stages that can work or fresh steam from the boilers To the usual way, or only steam from the battery A, fed to one of the lower stages through the superheater / 7

or both of them at the same time, e) heating network O receiving fresh steam directly from boilers K or steam from accumulator A through a superheater / 7 through pipe X, and e) collecting tank B receiving fresh water through pipe VIII and condensate through the pipe / from the engine G and through the pipe // from the heating network O, what is the mixture of water supplied to economizer E

feed pump H, can be heated: fresh steam through purge pipe VII, steam from pipe X through branch XI and pipe 1, and through pipe /// - steam that has been spent in feed pump H, which steam through pipe IV can be it is also connected to battery A, from which B, in turn, can be flushed to tank B through pipe V.