SU1151695A1 - Combination power plant - Google Patents

Abstract

1. COMBINED ENERGY INSTALLATION, comprising a heat turbine, a network heater with direct and reverse network water, a condenser, a network water accumulator and a low boiling point circuit with an evaporator and a turbine, which is designed to increase efficiency and maneuverability installation in a variable mode of power generation, the network water battery is connected to the evaporator of low boiling point substance. 2. Installation under item 1, characterized in that the evaporator is made in the form of two sections, the first of which is connected to the accumulator of the supply water at the inlet, and at the outlet - to the return line of the supply water, the second - at the inlet - to the cogeneration turbine , and at the output - to the input of the first section. SP about: co

Description

The invention relates to heat energy and can be used in thermal power plants.

The purpose of the invention is to increase the efficiency and maneuverability of the plant in an alternating mode of power generation.

The drawing shows the thermal circuit diagram of the combined power plant.

The combined power plant contains a cogeneration turbine 1, a network heater 2 with a direct line 3 and a return line 4 of network water, a battery 5 of network water connected to an evaporator of a low boiling agent, consisting of section 7 and 8, a turbo generator 9 of a low boiling substance with the condenser 10 and the heater 11, the condenser 12 of the cogeneration turbine.

Combined power plant operates as follows.

During the period of reduction of electrical and heat loads, the extraction of steam from the cogeneration turbine 1 is maximized. It is also possible to reduce electrical power by unloading or disconnecting the turbo-generator 9. When

reducing electrical or thermal load, the increased consumption of steam from the heat recovery selection of the turbine 1 is fed to the network heater 2, where the network water is pumped to the heating network, part of which is fed to the network water battery 5. In the peak electric load coating mode, the heat-extraction selection is partially or completely switched off and the electrical power of the turbine 1 increases. The evaporator 6 is connected to the accumulator 5 of the supply water. After boiling in the preheater I, the low boiling substance, for which, for example, the embedded beam in the condenser 12 of the cogeneration turbine is used, is pumped through the evaporator. Further, it expands in the turbogenerator 9, generates electricity, and then condenses in the condenser 10. The heat load is partially or completely covered by the accumulator 5 of the supply water.

With two-stage heating of the low-boiling substance in the evaporator, part of the selected steam of the cogeneration turbine 1 can be fed to the inlet of section 8, and condensate to the inlet of section 7.

Claims (2)

1. COMBINED POWER INSTALLATION, comprising a cogeneration turbine, a network heater with direct and reverse mains water supply, a condenser, a network water accumulator and a low boiling point circuit with an evaporator and a turbine, characterized in that, in order to increase the efficiency and maneuverability of the installation in alternating mode generating electricity, the mains water accumulator is connected to a low boiling point evaporator. 2. Installation according to π. 1, characterized in that the evaporator is made in the form of two sections, the first of which is connected to the mains water accumulator at the inlet, and to the mains water return line at the outlet, the second to the heating turbine at the inlet, and to the inlet at the outlet _{β to the} first section. S