SU1320463A1 - Method of operating a maneuverable counter-pressure central-heating steam turbine plant - Google Patents

Abstract

The invention relates to power engineering and m. B. used both in the construction of new and reconstruction of existing combined heat and power plants equipped with turbines (T) with backpressure. The invention allows to increase the maneuverability and efficiency during the period of maximum electrical load. During the maximum of the grid's electrical load schedule, T 1 is supplied with increased steam consumption from the boiler house. T 1 produces maximum power. At exhaust T 1, steam is supplied for cooling by parallel flows through open fittings 18 and 19 to heaters 2 and 3, to which respectively network water from line 4 and cold accumulated water from accumulator 7 is supplied by pump 14. 1 sludge. (С with N3 О 4 0 with

Description

The invention relates to electric power industry and can be used both in the construction of new and in the reconstruction of existing combined heat and power plants (CHP) equipped with back pressure turbines.

The aim of the invention is to increase the maneuverability and efficiency during the period of maximum electrical load with increased steam consumption per turbine.

The drawing shows a diagram of a maneuverable back-pressure cogeneration steam turbine installation, with which the proposed method is carried out.

The maneuverable backpressure heat-recovery steam-turbine plant contains a steam backpressure (condenser-free) turbine 1, to which the main mains heater 2 and the accumulated cold water heater 3 are connected to the exhaust pair. The installation also includes a supply network backwater line 4, which is connected through valves 5 and 6 to the main network heater 2 and the cold water battery 7, a network pump 8, a network network outlet pipe 9 that is connected to the peak network heater 10, through the valve 1 1 - with the battery 12 of the heated supply water, connected to the heater 3, which in turn through line 13 with the cold water pump 14 and the valve 15 connected to the cold water accumulator 7. The installation also contains a make-up system (not shown) with a deaerator 16, a valve 17 of control valves for steam valves 18 and 19.

The method is carried out as follows.

During the maximum of the schedule of electrical loads of the power system, turbine 1 is supplied with increased steam flow from the boiler house (not shown). Turbine 1 produces maximum power. At the turbine exhaust, steam is supplied in parallel streams through open valves 18 and 19 to heaters 2 and 3, to which, respectively, network water is supplied from line 4

supply and cold accumulated water from the accumulator 7 by the pump 14. The valves 17 and 15 are fully open, the valve 6 is open fully or partially, and the valve 11 is closed. Heated in heater 3, water accumulates in accumulator 12 of heated water.

In the basic mode, the cold water pump 14 and the accumulated hot water heater 3 are disconnected. The armature 19 and the valve 15 are closed.

During the minimum period of the grid load, the passage of heating steam to the main mains heater 2 is reduced to zero by closing the valve 18, and by covering the valve 6, the supply of network water to the heater 2 is reduced. The decrease in inflow into the system of network water is compensated by hot water stored in the accumulator 12 by supplying it to the outlet line 9 to the peak network preheater 10. The electrical capacity of the plant is reduced to zero. l (if the valve 17 is closed completely).

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Claims (1)

Invention Formula The method of operation of the maneuverable back-pressure cogeneration steam turbine installation by filing during the maximum period electric load of generated steam on the turbine, cooling of the latter at the exhaust of the turbine by heating the return mains water with accumulation of a part of the latter, and supplying the electric load of the accumulated part during the minimum period heated return network water to a heat consumer and accumulation of cold return network water, characterized in that, in order to increase maneuverability and efficiency during the period of maximum electrical load, steam from the turbine exhaust is supplied for cooling by parallel streams, one of which is cooled directly network water.