CN206593491U - A kind of mineral heating furnace flue waste heat recovery generating system - Google Patents

Abstract

The utility model is related to flue gas waste heat recovery power field, more particularly to a kind of mineral heating furnace flue waste heat recovery generating system, it is heated to be steam using connecting the evaporated flue of high temperature section exhaust duct feedwater, and high temperature section exhaust duct has enough heat energy that feedwater is heated to be steam, then the steam being delivered to again can provide heat relatively small number of waste heat boiler, allow waste heat boiler that the steam is heated to be supply generator group after superheated steam again to generate electricity, directly allow waste heat boiler that feedwater is heated to be steam so as to avoid, improve the utilization rate of low-temperature zone waste heat boiler heat, it is sufficiently used the fume afterheat of low-temperature zone, wasted so as to reduce the substantial amounts of radiating discharge of fume afterheat resource.

Description

A kind of mineral heating furnace flue waste heat recovery generating system

Technical field

The utility model is related to flue gas waste heat recovery power field, more particularly to a kind of mineral heating furnace flue exhaust heat recovery power generation System.

Background technology

Metallurgy industry is substantially high energy consumption industry, in the case of today's society energy scarcity, can reduce energy consumption, subtract Few environmental pollution is the direction of iron and steel metallurgical industry development, not only improves the economic benefit of enterprise itself and can also increase social effect Benefit.Metallurgical industry mineral hot furnace discharges substantial amounts of high-temperature flue gas while consuming mass energy, not only wastes the energy, also pollutes ring Border.

At present, although domestic existing iron and steel metallurgical industry mineral heating furnace flue residual neat recovering system also has recycling high temperature The fume afterheat of section and low-temperature zone, but be usually to have two feedwater pipings, it is respectively feedwater injection connection high temperature section air draft The evaporated flue of pipe and the waste heat boiler of low-temperature zone, feedwater evaporated flue and waste heat boiler are heated become steam after directly feed Generating set generates electricity.Because waste heat boiler is the fume afterheat using low-temperature zone, and feedwater is heated to be gaseous steaming from liquid Vapour needs substantial amounts of heat energy, and this can cause the DeGrain that waste heat boiler is heated, so as to cause fume afterheat utilization ratio ratio Relatively low, the low-temperature zone fume afterheat of mineral heating furnace flue discharge is not utilized well.

The content of the invention

The purpose of this utility model is to provide a kind of higher mineral heating furnace flue waste heat of fume emission low-temperature zone utilization rate and returned Receive and dispatch electric system.

The purpose of this utility model is realized by following technical scheme：

A kind of mineral heating furnace flue waste heat recovery generating system, including generating set, the mineral hot furnace and generating set it Between be connected with high temperature section exhaust duct, low-temperature zone exhaust duct, cyclone separator and waste heat boiler in turn, high temperature section exhaust duct is connected with Feedwater is heated to be the evaporated flue of steam, the output end of evaporated flue connects the input of waste heat boiler, waste heat boiler it is defeated Go out end connection generating set.

Wherein, the first drum of connection evaporated flue is included, the input connection of the first drum provides the pipeline of feedwater, the The output end of one drum connects the input of waste heat boiler.

Wherein, the convection heating surface device of connection low-temperature zone exhaust duct is included, its described feedwater is heated to be after steam Into the first drum.

Wherein, the feedwater enters convection heating surface device through the first drum.

Wherein, the second drum of connection waste heat boiler is included, the input of the second drum connects the output end of the first drum, The output end connection generating set of second drum, the steam is heated to be superheated steam again through the second drum into waste heat boiler After deliver to generating set.

Wherein, it is additionally included in the condensation being sequentially connected between the output end of generating set and the feedwater input of the first drum Device, condensate pump, oxygen-eliminating device, feed pump, the one outlet of condenser are connected with cooling tower, and cooling tower is connected by water circulating pump One import of condenser.

The beneficial effects of the utility model are：Because the feedwater of certain mass is heated to be gaseous steam ratio handle from liquid The steam of phase homogenous quantities is heated to be the more heat energy of superheated steam needs, so the utility model, which is utilized, connects high temperature section exhaust duct Evaporated flue feedwater is heated to be steam, and high temperature section exhaust duct has enough heat energy that feedwater is heated to be steam, Ran Houzai The steam, which is delivered to, can provide heat relatively small number of waste heat boiler, allow waste heat boiler that the steam is heated to be superheated steam again Supply generator group generates electricity afterwards, directly allows waste heat boiler that feedwater is heated to be steam so as to avoid, improves low-temperature zone waste heat The utilization rate of boiler heat, is sufficiently used the fume afterheat of low-temperature zone, so as to reduce, fume afterheat resource is substantial amounts of to be dissipated Hot driving is wasted.

Brief description of the drawings

The present invention is further detailed explanation with reference to the accompanying drawings and detailed description：

Fig. 1 is the electricity generation system organigram in the utility model embodiment.

Include in Fig. 1：1 --- --- high temperature section exhaust duct, 3 --- low-temperature zone exhaust duct, 4 --- whirlwind of mineral hot furnace, 2 --- --- --- --- chimney, 9 --- the evaporated flue, 10 --- waste heat of air-introduced machine, 8 of deduster, 7 of dry kiln, 6 of separator, 5 Boiler, 11 --- the second drum, 12 --- steam turbine, 13 --- generator, 14 --- condenser, 15 --- cooling tower, 16 --- water circulating pump, 17 --- condensate pump, 18 --- oxygen-eliminating device, 19 --- feed pump, 20 --- the first drum, 21 --- Convection heating surface device.

Embodiment

As shown in figure 1, a kind of mineral heating furnace flue waste heat recovery generating system includes generating set, in mineral hot furnace 1 with generating electricity It is connected with high temperature section exhaust duct 2, low-temperature zone exhaust duct 3, cyclone separator 4 and waste heat boiler 10 between unit in turn, wherein, it is high The pipe of temperature section air draft 2 is connected with the evaporated flue 9 for being heated to be steam that feeds water, and low-temperature zone exhaust duct 3, which is connected with, is heated to be feedwater The convection heating surface device 21 of steam, the port of export of cyclone separator 4 is also connected with dry kiln 5, deduster 6, air-introduced machine in turn 7th, chimney 8；Generating set includes steam turbine 12 and generator 13.In order to better profit from the low-temperature flue gas of low-temperature zone exhaust duct 3 Heat, convection heating surface device 21 is connected with low-temperature zone exhaust duct 3.The high-temperature flue gas that mineral hot furnace 1 is produced is arranged into high temperature section Airduct 2, high-temperature flue gas becomes low-temperature flue gas after the utilization of evaporated flue 9, and low-temperature flue gas is again introduced into convection heating surface device 21 are heated, and the flue gas discharged by convection heating surface device 21 sequentially enters cyclone separator 4, dry kiln 5, deduster 6 Dedusting, the flue gas after dust separation is discharged by air-introduced machine 7 from chimney 8.A gas bypass is drawn after cyclone separator 4, Waste heat boiler 10 is passed to, low-temperature flue gas enters deduster 6 after being utilized through waste heat boiler 10.

Feedwater enters the first drum 20 by feed pump 19, then respectively enters the He of evaporated flue 9 by the first drum 20 Convection heating surface device 21 carries out heating and becomes steam, and the steam returns to the first drum 20, forms Natural Circulation；First drum 20 In steam through the second drum 11 enter waste heat boiler 10 in superheater be heated as superheated steam, then superheated steam enter Steam turbine 12, the pushing generator 13 that is heated of steam turbine 12 generates electricity.Steam after being done work to steam turbine 12 enters condenser 14, condensing The one outlet of device 14 is connected with cooling tower 14, and cooling tower 14 connects an import of condenser 14 by water circulating pump 16, Condenser 14 carries out circulation with the cooling water of cooling tower 15 and exchanges cooling, and the steam after cooling becomes feedwater again, then by solidifying Bear water pump 17 and flow to oxygen-eliminating device 18, the feedwater of deoxygenation is inputted first by feed pump 19 again after the deoxygenation of oxygen-eliminating device 18 Drum 20, so as to complete entirely to close water circulation system, takes full advantage of water resource.

The utility model is heated to be steam using connecting the evaporated flue 9 of high temperature section exhaust duct 2 feedwater, and high temperature section is arranged Airduct 2 has enough heat energy that feedwater is heated to be steam, and then the steam, which is delivered to, again can provide heat relatively small number of waste heat Boiler 10, allowing waste heat boiler 10, the steam is heated to be supply generator group after superheated steam again（That is steam turbine 12 and generator 13）Generate electricity, directly allow waste heat boiler 10 that feedwater is heated to be steam so as to avoid, improve the heat of low-temperature zone waste heat boiler 10 Utilization rate, be sufficiently used the fume afterheat of low-temperature zone, thus reduce fume afterheat resource it is substantial amounts of radiating discharge wave Take.

Claims (6)

1. a kind of mineral heating furnace flue waste heat recovery generating system, including generating set, between the mineral hot furnace and generating set It is connected with high temperature section exhaust duct, low-temperature zone exhaust duct, cyclone separator and waste heat boiler in turn, high temperature section exhaust duct is connected with handle Feedwater is heated to be the evaporated flue of steam, it is characterised in that：The output end of evaporated flue connects the input of waste heat boiler, waste heat The output end connection generating set of boiler.

2. a kind of mineral heating furnace flue waste heat recovery generating system according to claim 1, it is characterised in that：Including connection vapour Change the first drum of flue, the input connection of the first drum provides the pipeline of feedwater, the output end connection waste heat of the first drum The input of boiler.

3. a kind of mineral heating furnace flue waste heat recovery generating system according to claim 2, it is characterised in that：Also include connection The convection heating surface device of low-temperature zone exhaust duct, its described feedwater, which is heated to be after steam, enters the first drum.

4. a kind of mineral heating furnace flue waste heat recovery generating system according to claim 3, it is characterised in that：The feedwater warp First drum enters convection heating surface device.

5. a kind of mineral heating furnace flue waste heat recovery generating system according to any one of claim 2 to 4, it is characterised in that： Include the second drum of connection waste heat boiler, the input of the second drum connects the output end of the first drum, the second drum it is defeated Go out end connection generating set, the steam delivers to generator after being heated to be superheated steam again into waste heat boiler through the second drum Group.

6. a kind of mineral heating furnace flue waste heat recovery generating system according to claim 1, it is characterised in that：It is additionally included in hair The condenser that is sequentially connected between the output end of group of motors and the feedwater input of the first drum, condensate pump, oxygen-eliminating device, feedwater Pump, the one outlet of condenser is connected with cooling tower, and cooling tower connects an import of condenser by water circulating pump.