RU56986U1 - COMBINED HEAT AND POWER SUPPLY SYSTEM - Google Patents

Abstract

The utility model relates to the field of power engineering and can be used in combined heat and power supply systems to increase the efficiency of utilization of heat waste and sources of low potential heat.

The combined heat and power supply system contains a thermal power station or mini-TPP with heat recovery heat exchangers, which are included in the intermediate circulation circuit with an intermediate heat exchanger of a closed heat supply circuit formed by a sequentially located heat pump condenser, an intermediate heat exchanger along the line of the heated heat carrier, a peak boiler, and a heat consumer with systems heating and hot water supply, while the heat pump evaporator is connected low-grade heat source.

Description

The utility model relates to the field of power engineering and can be used in combined heat and power supply systems to increase the efficiency of utilization of heat waste and sources of low potential heat.

The combined heat and power supply system is known from the prior art, including a thermal power plant with heat recovery heat exchangers connected by pipelines to devices of a heating system of a heat supply circuit of a heat consumer (Heat engineering equipment and heat supply of industrial enterprises. Edited by B.N. Golubkov - M., Energy, 1979, p. 241-244, 342). The main disadvantage of the known solution is the low efficiency of the use of recyclable thermal waste due to the mismatch between the heat supply and heat consumption schedules.

A heat supply system is also known, including a low-potential heat source connected by pipelines, a peak boiler, a heat pump, heating system devices and a hot water supply circuit (SU 207379 A1, F 24 D 11/02, 1967) A disadvantage of the known system is the need to use it as a source low potential heat of hot geothermal water, which limits its functionality.

The utility model is aimed at increasing the efficiency of the use of utilized heat wastes and sources of low potential heat.

The solution to this problem is ensured by the fact that in a combined heat and power supply system containing a thermal power station or mini-TPP with heat exchangers-heat exchangers, which are included in the heat supply circuit of the heat consumer with heating and hot water systems, according to the utility model, heat exchangers and heat exchangers are included in the intermediate circulation circuit with an intermediate heat exchanger of a closed heat supply circuit formed by sequentially located heat condenser a new pump, an intermediate heat exchanger along the line of the heated coolant, a peak boiler and a heat consumer with heating and hot water systems, while the heat pump evaporator is connected to a source of low potential heat.

At the same time, groundwater, water of open reservoirs, water of treatment facilities, ambient air, ventilation air supplied through an open-open circuit directly to the evaporator are used as a source of low-grade heat, or the evaporator is connected in a closed circuit to a heat exchanger located in the soil mass or open water reservoir, or to the system of reverse water supply cooling industrial equipment.

In addition, the combined heat and power supply system contains several closed heat supply circuits connected to the intermediate circulation circuit through their intermediate heat exchangers.

The use of various heat wastes in heat exchangers-utilizers as secondary energy resources, mainly the heat of oil, water and air coolers,

heats of exhaust, exhaust gases, etc. and the presence in the heat supply circuit of a peak boiler and a heat pump that draws heat from a low-potential source, significantly increases the efficiency and economy of the combined system, reduces fuel consumption, improves heat balance and brings (evens out) the heat supply and consumption schedules.

The drawing schematically shows a General view of a combined heat and power supply system.

The combined heat and power supply system contains a thermal power station 1, mainly mini-TPPs with heat exchangers-heat exchangers 2, which are included in the intermediate circulation circuit with the intermediate heat exchanger 3 of the closed heat supply circuit formed by the heat pump condenser 4 arranged in series, the intermediate heat exchanger 3 along the line of the heated heat carrier, peak boiler 5 and heat consumers 6, including heating and / or hot water supply systems (not shown in the drawing cauldron). The evaporator 7 of the heat pump is connected to the source of low potential heat in a closed circuit through pipelines with a circulating coolant connected to a heat exchanger 8 located in a soil mass or in an open reservoir, or to a system of reverse water supply for cooling industrial equipment. In addition, if groundwater, water of open reservoirs, water of treatment facilities, ambient air, and ventilation air are used as a source of low-grade heat, then they are fed through an open-open circuit directly to evaporator 7 (not shown in the drawing).

If there are several different heat consumers, the combined heat and power supply system may contain several closed heat supply circuits (not shown in the drawing) connected to the intermediate circulation circuit through their intermediate heat exchangers 3 for each consumer.

As a thermal power station 1, steam-turbine mini-TPPs, gas-turbine mini-TPPs, mini-TPPs with internal combustion engines equipped with heat exchangers-utilizers 2 of heat of oil, water and air coolers, heat of exhaust and exhaust gases can be used (2 ₁ , 2 ₂ , 2 ₃ , 2 ₄ ).

Combined heat and power supply system operates as follows.

A mini-thermal power plant generates electricity and, through an intermediate circulation circuit, provides heat to consumers through heat, the sources of which are 2 (2 ₁ , 2 ₂ , 2 ₃ , 2 ₄ ) utilized in heat exchangers. heat of oil-, water- and air coolers, heat of exhaust, exhaust gases, etc.

During the heating period, when the heat pump and the peak boiler 5 work together, the heat pump removes the heat entering the evaporator 7 from the source of low potential heat (heat exchanger 8) and transfers the heat in the condenser 4 to the heat carrier of the closed heat supply circuit, which is subsequently heated in the intermediate heat exchanger 3, which is turned on through the heating coolant line to the intermediate circulation circuit with heat exchangers - utilizers 2 (2 ₁ , 2 ₂ , 2 ₃ , 2 ₄ ), and in the peak boiler 5 it goes to consumers of heat 6 in heating and / or hot water supply systems. Peak availability

boiler 5 with variable, adjustable heat output with constant, unchanged heat output of the heat pump and heat exchangers-heat exchangers 2 (2 ₁ , 2 ₂ , 2 ₃ , 2 ₄ ), operating at a constant temperature of heat waste, provides regulation of heat supply to consumers and maintenance of operating temperature schedules and water flow at a given level when the temperature of the outside air changes.

Claims (3)

1. The combined heat and power supply system containing a thermal power station or mini-TPP with heat exchangers, heat exchangers, which are included in the heat supply circuit of the heat consumer with heating systems and hot water supply, characterized in that the heat exchangers, heat exchangers are included in the intermediate circuit with the intermediate heat exchanger closed heat supply circuit formed by successively arranged heat pump condenser, an intermediate heat exchanger along the load line a heat carrier, a peak boiler and a heat consumer with heating and hot water systems, while the heat pump evaporator is connected to a source of low potential heat. 2. The combined heat and power supply system according to claim 1, characterized in that groundwater, open water, treatment plant water, ambient air, ventilation air supplied through an open-open circuit directly to the evaporator are used as a source of low potential heat, or the evaporator is connected in a closed circuit to a heat exchanger located in a soil massif or in an open reservoir, or to a water recycling system for cooling industrial equipment. 3. The combined heat and power supply system according to claim 1 or 2, characterized in that it contains several closed heat supply circuits for heat consumers, independently connected to the intermediate circulation circuit through their intermediate heat exchangers.