RU121506U1 - DEVICE FOR CLEANING AND RECOVERY OF HEAT OF DUSTY BLOCKED STEAM GAS OF A BLAST FURNACE - Google Patents

Abstract

A device for cleaning and recuperating the heat of a dusty top gas in a blast furnace, containing a flue for supplying dusty gas to a scrubber, equipped with a make-up pipeline from an external water source with a flow regulator installed on it and an exhaust gas duct of the cleaned top gas, a water circulation circuit that cools the top gas in the scrubber containing a circulation pipeline for supplying cooling water to one or more scrubber nozzles and a pipeline for removing heated water from the scrubber with a pump and a flow regulator installed on it, and a heat recovery device for cooling the blast furnace gas water, characterized in that the device for heat recovery of the water cooling the blast furnace gas contains a steam turbine circuit with an electric generator, the working fluid of which is a low-boiling liquid, including circuits connected by pipelines and a condenser, a pump, a heater and installed in series along the working fluid after the steam turbine a steam superheater of the working fluid, the preheater and the superheater are included in the circulation circuit of the water cooling the blast furnace gas, while the cooling water temperature sensor is installed on the circulation pipe for supplying cooling water to one or more nozzles, electrically connected to the processor, and the pipeline for removing heated water from the scrubber is connected with a droplet separator installed in front of the pump, while the purified top gas temperature sensor is installed on the purified top gas outlet, electrically connected to the processor, and

Description

The utility model relates to ferrous metallurgy, and in particular to energy production devices based on spent low-grade heat carriers, for example, blast furnace gas.

A device for wet cleaning dusty blast furnace top gas of a blast furnace, namely a scrubber. (see G.G. Efimenko, A.A. Gimmelfarb, V.E. Levchenko, Cast Iron Metallurgy, Kiev, Head Publishing House of the Vysha Shkola Publishing Association, 1988, p. 291, Fig. 193). The scrubber is a vertical cylinder equipped with nozzles for irrigation with water dusty top gas.

The disadvantage of the analogue is that it does not provide means for utilization of the energy potential of the intermediate coolant - heated cooling water.

A known installation for the recovery of heat from dusty top gases, including a scrubber and a water expander containing an evaporator, a steam-powered installation consisting of a steam expander and a condenser. The scrubber is connected to a device for purifying water from sediment, which is connected through a water expander to an evaporator and a steam expander, the outlet of which is connected to a condenser, and the condenser is connected by a recirculation line to the scrubber. The scrubber is also connected to a gas expander connected to a refrigeration system connected to a condenser. (see patent RU No. 2148086, IPC 7 C21B 7/22, published April 27, 2000) (prototype).

According to the prototype, the cooling water heated in the scrubber is cleaned of sediment, decompressed in a water expander with its partial conversion to steam and fed to the evaporator, where it is subjected to partial evaporation, and part of the remaining cooling water is returned to the scrubber for irrigation. The resulting steam is subjected to expansion in an expander steam power plant and condensation with the return of condensate to irrigate the scrubber with the addition of fresh water to compensate for losses.

The essential features of the prototype, which coincide with the essential features of the proposed technical solution, are: flues supplying dusty gas to the scrubber, equipped with a feed pipe from an external source with a flow regulator installed on it, and exhausting purified blast furnace gas, a circulation circuit cooling blast furnace gas in the water scrubber containing circulation pipe for supplying cooling water to one or more scrubber nozzles and a heated water outlet pipe with a pump installed on it flow regulator, and heat recovery apparatus cooling the top gas water.

The disadvantage of the prototype is the insufficient degree of heat recovery of the intermediate coolant - cooling water, as well as the complexity of the entire recovery scheme and high capital costs for its implementation.

The utility model is based on the task of improving the device for cleaning and recovering the heat of dusty blast furnace top gas of a blast furnace by increasing the efficiency of heat recovery of the cooling water heated by it in the scrubber, namely, by heating a low-boiling liquid in the steam turbine circuit with an electric generator, and also by maintaining optimal cooling temperature of blast furnace gas. This provides an increase compared to the prototype of the efficiency of heat recovery of dusty exhaust gases, in particular flue gases due to the fact that, along with cleaning and returning flue gas to the pig iron production process, it can produce electricity using the thermal potential of flue gas, that is, it can provide significant energy savings in the process of cast iron production.

The problem is solved in that in a device for cleaning and recovering the heat of dusty blast furnace top gas of a blast furnace containing gas ducts, supplying dusty gas to a scrubber, provided with a make-up feed pipe from an external source with a flow regulator installed on it, and removing purified blast furnace gas, a cooling blast furnace gas circulation circuit in a water scrubber containing a circulation pipe for supplying cooling water to one or more nozzles of the scrubber and a heated water drain pipe with a pump and a flow regulator, and a heat recovery device for cooling the top gas water, according to the utility model, a heat recovery device for cooling the top gas water comprises a steam turbine circuit with an electric generator, the low-boiling liquid containing the connected pipelines and installed sequentially along the working fluid after the steam turbine, a condenser, a pump, a heater and a superheater of the working fluid, the heater and the reheater is included in the circulation circuit for cooling the top gas water, while the cooling water temperature sensor is connected to the processor by electrical connections to the processor on the cooling water supply pipe to one or more nozzles, and the heated water outlet pipe from the scrubber is connected to a droplet separator installed in front of the pump, at the same time, a temperature sensor for purified top gas is installed on the exhaust gas duct of the cleaned top gas, also connected by electrical connections a processor, and a flow regulator mounted on the feeding conduit from an external source, coupled to the processor, wherein the inlet flue dust flue gases to a scrubber is provided with water-cooled elements included ducts supplying and discharging cooling water in the circulation circuit cooling the top gas water.

A causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result is as follows.

The inclusion of a superheater and a working fluid heater of a steam turbine with an electric generator, in which a low-boiling liquid is used as a working fluid, into the circulation circuit cooling the top gas, which ensures the utilization of the heat of the cooling water due to the fact that, along with cleaning and returning the top gas to the process cast iron production process to generate electricity. Using the thermal potential of blast furnace gas provides significant energy savings in the process of cast iron production.

The installation of a cooling water temperature sensor in the scrubber on the circulation pipe, connected to the processor by electrical connections to the processor, as well as the installation of a temperature sensor of cleaned top gas in the exhaust gas duct of the cleaned top gas connected by electrical connections to the processor, ensures the optimal cooling water flow for cleaning and cooling of top gases, as well as deeper recovery of the heat of the intermediate coolant - cooling in dy.

The inclusion of a closed circulating cooling circuit of cooling water-cooled elements of the gas duct for supplying dusty top gas to the closed cooling circuit of the dust-fired top gases provides a deeper heat recovery of the cooling top-flue gases water throughout the exhaust from the blast furnace.

The inclusion of water in the scrubber cooling top gas gas in the scrubber of the droplet eliminator, the gas space of which is connected by the gas duct to the scrubber, and the water space is connected by the heated water discharge pipe to the water space of the droplet eliminator, provides the return to the circulation circuit of the top gas cooling water discharged together with purified and moistened gas from the scrubber.

A device for cleaning and recovering the heat of dusty blast furnace top gas of a blast furnace is shown schematically in FIG.

The device consists of a gas duct for supplying 4 dusty blast furnace top gases to the scrubber 1, a circulation circuit for cooling the blast furnace gas water containing a circulation pipe for supplying 15 cooling water to one or more nozzles 2 of the scrubber, a hot water outlet 16 with a pump 7 and a regulator installed on it flow 28, the exhaust duct 17 of the purified blast furnace gas and a heat recovery device for cooling the blast furnace gas water. In addition, the scrubber 1 is equipped with a node 18 that controls the level of cooling water in the scrubber. The duct for supplying 4 dusty top gas gases is provided with water-cooled elements 5 connected by pipelines 14 for supplying and discharging cooling water to the path for supplying and venting cooling water to the water-cooled section of the duct 4. The duct for supplying 4 dusty top gases is connected to a scrubber 1, in the upper part of which for irrigation of dusty dust nozzles 2 are installed at the top gas. The scrubber is equipped with a make-up pipe 20 from an external water source with a flow regulator 19 installed on it.

The scrubber 1, in turn, is connected by the gas duct 6 to the drip catcher 3, while the water space of the scrubber is connected to the water space of the drip catcher 3 by the hot water discharge pipe 3. The circulation pipe 15 for supplying cooling water to the nozzles 2 connects the water space of the drop catcher 3 with the nozzles 2 of the scrubber, forming a circuit circulation of cooling water in the scrubber top gas. A steam superheater 8 and a heater 9 of the working fluid of the steam turbine 10 are included in the circulation circuit of the cooling water at the top of the scrubber, on the shaft of which an electric generator 27 is installed, in which the low-boiling liquid is used as the working fluid, connected by a pipe 13 forming the steam turbine circuit 10. The steam circuit The turbine 10 also contains a condenser of the working fluid 11 and a pump 12 for transferring the working fluid, mounted behind the steam turbine along the working fluid.

The circulation circuit of the cooling top gas water is equipped with a temperature sensor 22 of the cooling circulating water mounted on the circulation pipe 15 for supplying cooling water to the nozzles 2 in the scrubber. The sensor 22 is electrically connected 24 to a processor 26 connected to a sensor 21 for the temperature of the cleaned top gas installed on the outlet cleaned top gas from the drip trap 3 of the duct 17.

The gas duct for supplying 4 dusty top gas gases to the scrubber 1 is equipped with water-cooled elements 5, included pipelines supplying and discharging 14 cooling water into the circulation circuit cooling the top gas of water in the scrubber.

A droplet eliminator 3 is included in the circulation circuit of cooling top water of the scrubber gas, the gas space of which is connected by the duct 6 to the scrubber, and the body of water is connected by a pipe 16 to the droplet eliminator 3 water space.

A device for cleaning and recovering the heat of dusty blast furnace top gas of a blast furnace operates as follows.

Dusty top gas through the supply duct 4 of dusty top gas enters the upper zone of the scrubber 1, where it is irrigated with water sprayed by nozzles 2. After dust is removed and cooled, it is sent through a duct 6 to a drip tray 3. Then, along the exhaust duct 17 of the purified top gas sent according to purpose according to the main technological scheme.

The heated water cooling the top gases in the scrubber is sent to the drip catcher 3 through the heated water discharge pipe and one part is sent from the drip catcher to utilize its heat to the superheater 8 and to the heater 9 of the working fluid of the steam turbine 10, where low-boiling liquid is used as the working fluid . The resulting steam is fed into a steam turbine 10, on the shaft of which an electric generator 27 is installed, and then into the condenser 11, where it condenses.

The rest of the heated water from the circulation circuit cooling the blast furnace gas in the water scrubber is sent to cool the water-cooled elements 5 of the duct 4 of the blast furnace, where it is heated to a higher temperature, after which it is returned to the above circuit and sent to the superheater 8 and the steam heater 9 turbines 10.

The sensor 21 of the temperature of the purified gas regulates the temperature deviation of the purified blast furnace gas relative to a predetermined temperature determined by the technological instruction, information about which is transmitted to the processor 26.

In the same way, the circulating water temperature sensor 22 detects deviations of the temperature of the cooling top gases in the water scrubber from the set one. With an increase in this temperature, the regulator 19 for supplying water to the nozzle is activated and fresh water is supplied to the scrubber from an external source 20 from an external source, with its removal through the regulating unit 18.

Thus, the utility model provides an increase in the efficiency of heat recovery of dusty exhaust gases, in particular flue gases due to the fact that, along with cleaning and returning flue gas to the pig iron production process, it can generate electricity using the thermal potential of flue gas, that is, it provides significant energy savings in the process of cast iron production.

Claims (1)

A device for cleaning and recovering heat from dusty blast furnace top gas of a blast furnace, comprising a gas duct for supplying dusty gas to a scrubber, provided with a make-up pipe from an external water source with a flow regulator installed thereon and a discharge duct of purified blast furnace gas, a water circulation circuit cooling the blast furnace gas in the scrubber containing a circulation pipe for supplying cooling water to one or more nozzles of the scrubber and a pipe for removing heated water from the scrubber with installed on m a pump and a flow regulator, and a heat recovery device for cooling the blast furnace gas water, characterized in that the heat recovery device for cooling the blast furnace gas water contains a steam turbine circuit with an electric generator, which uses a low boiling liquid as a working fluid, including circuits connected by pipelines and installed in series the working fluid after the steam turbine is a condenser, pump, heater and superheater of the working fluid, and the heater and superheat They are included in the circulation circuit for cooling the top gas water, while the cooling water temperature sensor is connected to the processor by electrical connections to the processor on the circulation pipe for supplying cooling water to one or more nozzles, and the heated water outlet pipe from the scrubber is connected to a drop eliminator installed in front of the pump, at the same time, a temperature sensor for the cleaned top gas is connected to the exhaust duct of the cleaned top gas, connected by electrical connections to the processor, m flow regulator mounted on the feeding conduit from an external source, is also connected to the processor, wherein the inlet flue dust-laden top gas scrubber is provided with water-cooled elements included ducts supplying and discharging cooling water in the water circulation circuit cooling the top gas scrubber.