RU2573788C1 - Method of heat supply of settlements - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: method of heat supply of settlements, under which the base heat load of the heat supply system is covered due to steam take-off of cogeneration turbines of combined heat and power station, to cover the peak load of the heat supply system the independent peak heat sources are used, they are installed at each subscriber, at the combined heat and power station the central qualitative regulation of the base heat load is ensured. Feature of the suggested method is in that change of the peak heat load is performed by local quantitative regulation at each subscriber depending on ambient temperature, for this the system water flowrate circulated via the independent peak heat sources and local systems of subscriber heat supply is ensured.

EFFECT: improved reliability and economy of settlement heat supply.

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Description

The invention relates to the field of urban economy and can be used in heating systems of settlements.

The analogue is known - a method of heat supply of settlements, in which the basic heat load of a heat supply system is covered by taking a pair of cogeneration turbines from a thermal power plant, to cover the peak load of a heat supply system, autonomous peak heat sources installed at each subscriber are used, and central quality control of the basic heat load at the thermal power plant is carried out and local quality control of peak heat load among subscribers, i.e. when the heat load changes, the water temperature is changed after the base and peak heat sources with a constant flow of network water through these sources (see patent RU 2235249, CL F24D 3/08, publ. 08.27.2004). This analogue is adopted as a prototype.

The disadvantage of the prototype is the reduced reliability of the heat supply of settlements due to the impossibility of independent operation of autonomous peak heat sources during emergency shutdown of the CHP due to the sequential inclusion of the base and peak heat sources in the heating network. In addition, the disadvantage of the prototype is the reduced cost-effectiveness of heat supply of the settlement due to the under-production of electric energy for heat consumption by cogeneration turbines of a thermal power plant due to an increase in the temperature of the return network water with local quality control of the peak heat load.

The technical result achieved by the present invention is to increase the reliability and efficiency of the heat supply of settlements by providing the possibility of mutual reservation of the base and peak heat sources and increase the generation of electricity from the heat consumption by cogeneration turbines of thermal power plants.

To achieve this result, a heating method is proposed for settlements in which the basic heat load of a heat supply system is covered by taking a pair of cogeneration turbines from a thermal power plant, to cover the peak load of a heat supply system, autonomous peak heat sources installed at each subscriber are used; central thermal control of the basic thermal load.

The difference between the claimed method of heat supply for settlements is that the change in peak heat load is made by local quantitative regulation for each subscriber depending on the outdoor temperature, for which the flow rate of network water circulating through autonomous peak heat sources and local heat supply systems of subscribers is changed.

New distinctive features that characterize the method of heat supply can improve the reliability and cost-effectiveness of heat supply of settlements by providing the possibility of mutual reservation of base and peak heat sources to increase the generation of electricity from heat consumption by cogeneration turbines of thermal power plants.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a heating system of a settlement in which a new method is implemented.

The heat supply system contains a heating turbine 1 installed at the CHPP, the heating steam extraction of which is connected to the network heaters 2 installed as the basic heat sources, connected in the heating network 3 to the heating network 3 with the network pumps 4 connected to them. Each subscriber 5 connected to the heat networks 3 using the supply 6 and return 7 pipelines of the local heat supply system, an autonomous peak heat source 8 with a circulation pump 9 in front of it is installed. An autonomous peak heat source 8 and a circulation pump 9 are connected in parallel with the network heaters 2 between the return 7 and 6 supply pipes of the local heat supply system of each subscriber 5. The autonomous peak heat source 8 and the circulation pump 9 are controlled using the control controller 10 to which the sensor 11 is connected outdoor temperature, located outside the premises of the subscriber 5 in the outdoor air.

The method consists of the following operations.

The basic load of the heat supply system is covered at the CHP due to heating steam extraction from the heating turbine 1, for which the network water circulating in the heat supply system is heated in two successively connected network heaters 2. The basic heat load is changed by central quality control by changing the temperature of the network water within 70 ÷ 105 ° C with a constant flow of network water through the network heaters 2. Next, the network water is supplied by the network pump 4 to the heating networks 3. Peak The heat load of the heat supply system is covered using autonomous peak heat sources 8 installed by each subscriber 5. The peak heat load is changed depending on the outdoor temperature recorded by the outdoor temperature sensors 11 according to the program laid down in the controllers 10 by local quantitative regulation each subscriber has 5, for which they change the power of the autonomous peak heat sources 8 and the network water flow supplied by the circulation pumps 9 to autonomous peak sources of 8 heat, then to the supply 6 and return 7 pipelines of local heat supply systems of subscribers 5. The temperature of the direct network water after the autonomous peak sources of 8 heat does not exceed the temperature after the network heaters 2, which leads to a decrease in the temperature of the return network water and increase in the generation of electric energy by heat consumption by cogeneration turbines 1 at a thermal power plant. In case of accidents at the CHPP or in heating networks 3, autonomous peak heat sources 8 are left in operation, which are used as reserve ones.

Thus, a new method of heat supply to settlements allows increasing the reliability of heat supply due to the mutual reservation of base and peak heat sources and efficiency due to an increase in the generation of electric energy from heat consumption by cogeneration turbines of thermal power plants.

Claims (1)

The heat supply method of settlements, in which the basic heat load of the heat supply system is covered by taking off steam from cogeneration turbines of a thermal power plant, is used to cover the peak load of the heat supply system using autonomous peak heat sources installed at each subscriber, and the central heat supply controls the basic heat load, which differs by that the change in peak heat load is produced by local quantitative regulation of each subscriber depending on t of outdoor temperature, for which they change the flow rate of network water circulating through autonomous peak heat sources and local heat supply systems of subscribers.