SU1281810A1 - Modular heat-recovering heating installation - Google Patents

Description

The invention relates to the centralized heat supply of drilling rigs on a diesel drive and can be used to heat residential, public and industrial buildings and other production facilities and installations where it is possible to recover heat from exhaust gases and cooling water of diesel engines and gas turbines.

The aim of the invention is to increase the economy and reliability by leveling the load of the auxiliary boiler and automatically controlling the processes.

The drawing shows a schematic diagram of the installation.

The block heat recovery heating unit contains heating surface 2 of heat recovery boiler 3 with inlet 4 and outlet 5, tank 6, divided by partition 7 into compartments forming low potential and high potential heat exchangers 8 and 9, connected in series 1 of network water and supplied with each i jet mixer 10 and 11, a network pump 12 and a heat consumer 13, as well as a feed line 14 of an auxiliary boiler 15 connected to the contus 1 of network water, connected by a steam pipe 16 to the jet mixer 11 heat exchanger 9. In addition, the waste-heat boiler 3 is equipped with a heating gas flow regulator 17, and the high-grade heat exchanger 9 is equipped with an additional jet mixer 18, the auxiliary boiler 15 is connected to the low-potential heat exchanger 8 and equipped with flow regulators 19 and 20 fuel and steam, respectively, connected with the sensor 22 of the temperature of the network water, additionally installed at the inlet 21 of the mains pump 12, w. in turn, with the regulator 17 of the heating gas consumption of the waste-heat boiler 3, the heating surface 2 of which is connected by the input 4 through the circulation pump 23 to the low-potential heat exchanger 8, and the output 5 to the additional jet mixer 18 of the high-potential heat exchanger 9 , moreover, in the lower part of the partition 7 of the container 6 of the heat exchangers 8 and 9, the bypass hole 24 is made, and the circuit 1 of the supply water is supplied

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heat system 25, which is turned on after the heat consumer 13 along the flow, of diesel cooling 25, the outlet 26 of which is connected to the bottom of the jet mixer 10. heat exchange coil 8.

The latter is connected to the system, 27 feeds through the feed regulator 28 connected to the level sensor 29, and the auxiliary boiler 15 is supplied with a feed pump 30 with a power regulator .31 installed on the recirculation line 32 of the pump 30, steam separator 33, line 34 with a steam supply controller 35 to the consumer and a burner device 36.

The installation works as follows.

In preparation for the start-up by the feed regulator 28, both heat exchangers 8 and 9 are filled with water from the feed system 27 to a predetermined level detected by the level sensor 29; The feed pump 30 and the burner 36 are turned on, and through the steam separator 33, the steam line 16 and the regulator 20, steam is supplied to the jet mixer 11 to heat the water in the high-grade heat exchanger 9 to 85-95 s. A hot water pump 12 is supplied to a consumer -13, to a diesel engine cooling system 25 and further. to the jet mixer 10 for heating water in a low-grade heat exchanger 8. From this point on, the unit is ready for normal operation. I

After heating, the diesel engines are put into operation, and the exhaust gases by the regulator 17 are directed to the heating surface 2 of the heat recovery boiler 3. At the same time, the circulation pump 23 is started up, and water from the low-potential heat exchanger 8 is fed to the heating surface 2 of the boiler torus 3 and then to the jet mixer 18 for heating water in a high-grade heat exchanger 9. If the water temperature is greater than a predetermined value, the heating gas flow regulator 17 closes by a signal from the sensor 22 of the temperature, reducing the input of dyms gases on the surface 2 of the heat recovery boiler 3.

Water heating in the low-grade heat exchanger 8 is produced by residual heat after the consumer 13 and the heat of the cooling water of the diesel engines,

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which enters the jet mixer; 0. The water level is maintained by the regulator 28 of the feed according to the signals of the level sensor 29. The water from the low-grade heat exchanger 8 through 5 hole 24 located in the partition 7 flows into the high-sided heat exchanger 9, where it is heated by hot water with a jet mixer 18. If the water temperature O drops below the set temperature, then the temperature sensor 22 starts up auxiliary boiler 15,

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and through the steam flow controller 20, steam is supplied to the jet mixer 11 to reheat the water to a predetermined temperature.

The block heat recovery heating unit allows the auxiliary boiler to equalize the load by fully utilizing the heat accumulation in the npri heat exchangers to the variable load of the diesel engines, to automate the start and stop and thereby increase efficiency and reliability.

Claims (1)

BLOCK HEAT RECOVERY HEATING PLANT, containing the heating surface of the waste-heat boiler with the inlet and outlet connected in series in the network water circuit, a tank divided by a partition into compartments, forming respectively low-potential and high-potential heat exchangers equipped with each jet mixer, as well as a network pump and a heat consumer the feed pipe of the auxiliary boiler connected to the mains water circuit, connected by a steam line to the jet mixer, heat exchanger, characterized in that, in order to increase efficiency and reliability by balancing the load of the auxiliary boiler and automatic process control, the waste heat boiler is equipped with a heating gas flow controller, and the high-potential heat exchanger is equipped with an additional jet mixer, the auxiliary boiler is connected by a feed pipe to a low-potential heat exchanger and equipped with fuel and steam flow controllers associated with an additional sensor installed at the input of the mains pump network water temperature associated with the heating gas flow regulator of the recovery boiler, the heating surface of which is connected by an inlet through a circulation pump to a low-grade heat exchanger, and by an outlet - to an additional high-potential heat exchanger jet mixer, and a bypass hole is made in the lower part of the partition of the mentioned heat-exchange capacity, and the circuit network water is equipped with a diesel cooling system included after the heat consumer along the flow, the output of which is connected to the jet esitelem low-grade heat exchanger. . „SU, 1281810