CN209604106U - A kind of biomass thermal cogeneration system that can recycle steam exhaust and fume afterheat simultaneously - Google Patents

Abstract

The utility model proposes the biomass thermal cogeneration systems that one kind can recycle steam exhaust and fume afterheat simultaneously, belong to Biomass Energy Utilization technical field.The system includes biomass boiler, steam turbine, steam exhaust heat exchanger, condenser, cooling tower, boiler water-suppling heater, flue gas emission reduction waste heat recycling integral type unit, flue gas spray water- to-water heat exchanger, chimney, power grid, end electric heating pump, user's heat exchanger and connecting line and valve；It includes desulfurizing tower and waste heat recovery tower that flue gas emission reduction waste heat, which recycles integral type unit,.The utility model is reducing heat supply network return water temperature by way of user side mixes water heat supply using electric heat pump, to by directly exchanging heat, step recycles the flue gas condensing latent heat and exhaust steam residual heat in power plant, increases the heat capacity of biomass electric power plant, obtains optimal biomass energy comprehensive utilization ratio.

Description

A kind of biomass thermal cogeneration system that can recycle steam exhaust and fume afterheat simultaneously

Technical field

The utility model proposes the biomass thermal cogeneration systems that one kind can recycle steam exhaust and fume afterheat simultaneously, belong to life Substance technical field of energy utilization.

Background technique

Important component of the biomass as renewable energy, for ensureing energy security, reducing greenhouse gases carbon row It puts etc. and to be of great significance.China's biomass power generation project in 2017 shares 747, adds up installed capacity up to 1476.2 ten thousand kW, Power generation substitution is about 22,000,000 tons coal-fired, and according to statistics, the annual 4.6 hundred million tons of marks of the potentiality of the alternative fire coal of China's biomass power generation Coal, so biomass power generation has vast potential for future development.

But current biomass electric power plant is restricted due to being unevenly distributed uniform raw material collect range by biomass resource, power generation at This is higher, often can only maintain operation by subsidy.And conventional biomass cogeneration of heat and power carries out concentration confession while power generation Heat sacrifices the ability of steam extraction acting power generation, although economy is better than simple biomass power plant, since thermoelectricity compares Low, economy is still poor.

At the same time, a large amount of waste heat is not yet used appropriately in biomass electric power plant, is lost in environment and causes the energy Waste.Such as the flue gas that biomass boiler burning generates, still it is directly discharged in atmosphere at 50 DEG C or more after treatment, in flue gas Condensation latent heat be not fully utilized；There are also the steam exhaust of steam turbine, are cooled to after condensed water again by air-cooled or water cooling heat exchanger Biomass boiler is returned to, this partial heat also lost in vain.For the biomass electric power plant of pure condensate power generation, this two parts waste heat Account for about 70% or more of fuel input heat.

According to literature survey as a result, biomass cogeneration of heat and power field there is no while recycle exhaust steam residual heat and flue gas condensing at present The system of latent heat.Such as a kind of biomass efficient energy co-generation unit that patent of invention 201310554417.8 proposes, directly By flue gas emission into atmosphere, the steam exhaust of generation is condensed into condensed water by cooling tower；Such as utility model patent The 201720980001.6 a kind of biomass thermal mechanism of qi co-generation units proposed, using flue gas and water- to-water heat exchanger recovery section cigarette Gas waste heat, but directly exchange heat due to being hot net water with flue gas, it is difficult sufficiently to recycle condensation heat of flue gas.Such as utility model patent 201721534445.3 a kind of biomass direct-fired co-generation unit of distribution proposed, has recycled part exhaust steam residual heat and has been used for ORC (Organic Rankine Cycle, organic rankie cycle) power generation, but still there is most of steam exhaust heat to pass through evaporation Formula condenser discharge is into atmosphere, while fume afterheat is not also utilized.

For exhaust steam residual heat and flue gas condensing latent heat, in traditional coal-fired thermal power coproduction or Combined cycle gas-steam turbine application Under scene, existing partial monopoly proposes the method for recycling.Such as one kind that patent of invention 201110407567.7 proposes is based on The exhaust steam residual heat of multiple-effect overlapping jetting type heat exchange recycles co-generation unit, directlys adopt steam extraction in coal-fired thermal power coproduction unit Jet type heat pump recycling exhaust steam residual heat is driven to be used for heat supply；A kind of Zero-energy loss that patent of invention 201110271116.5 proposes Three System and method for of circulating thermoelectric cold is steamed in the combustion of steam power plant, is absorbed in Combined cycle gas-steam turbine power plant using steam extraction driving Formula heat pump recycles exhaust steam residual heat and flue gas condensing latent heat, and in thermal substation adds absorption heat exchange unit to increase supply backwater temperature difference strong Change the effect etc. of waste heat recycling.But the method for above-mentioned recycling exhaust steam residual heat and flue gas condensing latent heat not can be used directly in biomass In co-generation unit, reason has two: first is that the difference of installation scale.The corresponding machine kludge of above-mentioned patent is larger, right Answer heat user distance also farther out, thermal substation setting absorption heat exchange unit increases the conveying temperature difference in end, and biomass thermoelectricity Coproduction is collected factor by fuel and is limited, and installation scale is smaller, and the load and distance of corresponding heat user are also smaller, often with villages and small towns For for heat target, it might even be possible to use primary system, heat source directly passes through heat supply network with user and connect, and the difference of scale makes entirely The composition different from of system；Second is the difference of heat supply network parameter, all uses heat exchangers for district heating by heat supply network water temperature in prior art 110 DEG C or more are heated to, while heat supply network water temperature difference also reaches 90 DEG C or more, and for distributed biomass cogeneration of heat and power system System, hot net water directly supply heat user and conveying distance is short, so heat supply network supply water temperature is lower, can not directly be fired using having The method of coal cogeneration of heat and power or Combined cycle gas-steam turbine carries out system design.

It there is no exhaust steam residual heat and the full recovery system research of flue gas condensing latent heat to break through biomass cogeneration of heat and power field Status, the application problem for overcoming biomass cogeneration of heat and power miniaturization, distributed brought waste heat to recycle entirely, the utility model proposes A kind of biomass thermal cogeneration system of recyclable steam exhaust and fume afterheat.

Utility model content

The problem of the purpose of this utility model is to overcome the wastes of existing biomass cogeneration of heat and power technology waste heat, proposes A kind of biomass thermal cogeneration system that can recycle steam exhaust and fume afterheat simultaneously.By mixing water using electric heat pump in user side The form of heat supply reduces heat supply network return water temperature, thus by directly exchanging heat, step recycles flue gas condensing latent heat in power plant and weary Vapour waste heat increases the heat capacity of biomass electric power plant, obtains optimal biomass energy comprehensive utilization ratio.

To achieve the goals above, the utility model proposes three kinds of different technical solutions, as follows respectively:

The utility model proposes one kind can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, it is special Sign is that the system includes biomass boiler, steam turbine, steam exhaust heat exchanger, condenser, cooling tower, boiler water-suppling heater, cigarette Gas emission reduction waste heat recycle integral type unit, flue gas spray water- to-water heat exchanger, chimney, power grid, end electric heating pump, user's heat exchanger and Connecting line and valve；The flue gas emission reduction waste heat recycling integral type unit includes desulfurizing tower and waste heat recovery tower；Each equipment Connection relationship are as follows:

The high-temperature steam outlet of the biomass boiler is connected with the steam inlet of steam turbine, the steam exhaust outlet point of steam turbine Not by being connected with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger and condenser, steam exhaust heat exchanger and condensing The high temperature side water outlet of device passes sequentially through the upper water of boiler feedwater force (forcing) pump, boiler water-suppling heater and biomass boiler after converging Entrance is connected, and the steam extraction outlet of steam turbine is connected with the air intake of boiler water-suppling heater；The low temperature side of cooling tower and condenser It is connected to by the pipeline with cooling water circulating pump and forms loop；The exhanst gas outlet of biomass boiler pass sequentially through desulfurizing tower and Waste heat recovery tower is connected to chimney, and the slurry pool of desulfurizing tower tower bottom is connected by slurry circulating pump with desulfurization column overhead spray tube, The first of the spray pond of waste heat recovery tower tower bottom sprays water out and sprays water- to-water heat exchanger height by spray water-circulating pump and flue gas The water inlet of warm side is connected, and the water outlet of flue gas spray water- to-water heat exchanger high temperature side is connected with the spray tube of waste heat recycling column overhead, The second spray water out in the spray pond of waste heat recovery tower tower bottom is converged by the pipeline equipped with flue gas condensed water pump with moisturizing pipeline The slurry pool of desulfurizing tower tower bottom is accessed after conjunction；

The water outlet of the leaving condenser water mouth of the end electric heating pump and steam exhaust heat exchanger low temperature side changes after converging with user The water inlet of hot device is connected；The water outlet of user's heat exchanger is divided into two branches, and the first branch passes through multifunctional pump and end electric heating The condenser water inlet of pump is connected, and second branch is connected with the evaporator water inlet of end electric heating pump；The evaporation of end electric heating pump Device water outlet is connected by pumps for hot water supply net with the water inlet that flue gas sprays water- to-water heat exchanger low temperature side, and it is low that flue gas sprays water- to-water heat exchanger The water outlet of warm side is connected with the water inlet of steam exhaust heat exchanger low temperature side；

The steam turbine power generation is sent into power grid, while the end electric heating pump of end connects electricity as drive energy from power grid.

The utility model proposes the biomass thermal cogeneration system that can recycle steam exhaust and fume afterheat for second simultaneously, Be characterized in that, the system include biomass boiler, steam turbine, steam exhaust heat exchanger, condenser, cooling tower, boiler water-suppling heater, Flue gas emission reduction waste heat recycles integral type unit, chimney, power grid, power plant's electric heating pump, user's heat exchanger and connecting line and valve； The flue gas emission reduction waste heat recycling integral type unit includes desulfurizing tower and waste heat recovery tower；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of the biomass boiler is connected with the steam inlet of steam turbine, the steam exhaust outlet point of steam turbine Not by being connected with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger and condenser, steam exhaust heat exchanger and condensing The high temperature side water outlet of device passes sequentially through the upper water of boiler feedwater force (forcing) pump, boiler water-suppling heater and biomass boiler after converging Entrance is connected, and the steam extraction outlet of steam turbine is connected with the air intake of boiler water-suppling heater；The low temperature side of cooling tower and condenser It is connected to by the pipeline with cooling water circulating pump and forms loop；The exhanst gas outlet of biomass boiler pass sequentially through desulfurizing tower, Waste heat recovery tower is connected to chimney, and the slurry pool of desulfurizing tower tower bottom is connected by slurry circulating pump with desulfurization column overhead spray tube, The evaporator that the first spray water out in the spray pond of waste heat recovery tower tower bottom passes through spray water-circulating pump and power plant's electric heating pump Water inlet is connected, and the evaporator water outlet of power plant's electric heating pump is connected with the spray tube of waste heat recycling column overhead, waste heat recovery tower tower The second spray water out in the spray pond at bottom accesses desulfurization after converging with moisturizing pipeline by the pipeline equipped with flue gas condensed water pump The slurry pool of tower tower bottom；

Condenser, user's heat exchanger, pumps for hot water supply net and the steam exhaust heat exchanger low temperature side of power plant's electric heating pump successively connect It connects to form loop；

The steam turbine power generation is sent into power grid, while power plant's electric heating pump connects electricity as drive energy from steam turbine.

The utility model proposes the third can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, Be characterized in that, the system include biomass boiler, steam turbine, steam exhaust heat exchanger, condenser, cooling tower, boiler water-suppling heater, Flue gas emission reduction waste heat recycles integral type unit, flue gas sprays water- to-water heat exchanger, chimney, power grid, extraction heater, absorption heat exchange machine Group, user's heat exchanger and connecting line and valve；Flue gas emission reduction waste heat recycling integral type unit includes desulfurizing tower and remaining Heat recovery tower；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of the biomass boiler is connected with the steam inlet of steam turbine, the steam exhaust outlet point of steam turbine Not by being connected with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger and condenser, steam exhaust heat exchanger and condensing The high temperature side water outlet of device and the high temperature side water outlet of extraction heater passed sequentially through after converging boiler feedwater force (forcing) pump, boiler to Water heater is connected with the upper water inlet of biomass boiler, the first steam extraction outlet of steam turbine and boiler water-suppling heater into vapour Mouth is connected, and the second steam extraction outlet of steam turbine is connected with the high temperature side extraction entrance of extraction heater, and steam turbine power generation is sent into electricity Net；Cooling tower is connected to by the pipeline with cooling water circulating pump with the low temperature side of condenser and forms loop；Biomass boiler Exhanst gas outlet pass sequentially through desulfurizing tower, waste heat recovery tower is connected to chimney, the slurry pool of desulfurizing tower tower bottom passes through serum recycle Pump is connected with desulfurization column overhead spray tube, and the first spray water out in the spray pond of waste heat recovery tower tower bottom is followed by shower water Ring pump is connected with the water inlet of flue gas spray water- to-water heat exchanger high temperature side, and flue gas sprays the water outlet and waste heat of water- to-water heat exchanger high temperature side The spray tube for recycling column overhead is connected, and the second spray water out in the spray pond of waste heat recovery tower tower bottom is by being equipped with flue gas condensed The pipeline of water pump accesses the slurry pool of desulfurizing tower tower bottom after converging with moisturizing pipeline；

Flue gas spray water- to-water heat exchanger low temperature side, extraction heater low temperature side, absorption changes steam exhaust heat exchanger low temperature side The primary net of heat engine group and pumps for hot water supply net are in turn connected to form a heat supply network water loops；The secondary network of absorption heat exchange unit is discharged Mouth is connected with user's heat exchanger water inlet, and user's heat exchanger water outlet passes through secondary network circulating pump and the two of absorption heat exchange unit Secondary net water inlet is connected.

The characteristics of the utility model and the utility model has the advantages that

The utility model in order to overcome standard biologic matter residual heat of electric power plant waste the shortcomings that, propose one kind can recycle simultaneously it is weary The biomass thermal cogeneration system of vapour and fume afterheat.The system has the characteristics that following:

1, the waste heat of biomass cogeneration of heat and power recycles entirely, fume afterheat and steam exhaust in current most of biomass thermal power plant Waste heat is all directly discharged in environment, not only causes the waste of heat, will also result in the waste of water resource for water chiller And the problems such as thermal pollution, by the waste heat in biomass electric power plant, all recycling is used for heat supply to the utility model, realizes remaining in power plant Thermal resource Optimum utilization.

2, fume afterheat emission reduction and waste heat recycling are subjected to integrated design, while utilize condensation extra after waste heat recycling Moisturizing of the water as emission-reducing system, can reduce the water consumption of whole system.

3, the cascade utilization for focusing on waste heat is sequentially connected in series recycling using low temperature heat supply network return water according to the temperature grade of waste heat Fume afterheat and exhaust steam residual heat can reduce heat transfer processLoss, although suitably improving steam exhaust pressure will affect power generation Amount, but compared with traditional extraction for heat supply mode, power plant's entirety generated energy also will increase.

4, end thermal desorption system carries out the form of mixed water supply using electric heating pump leaving condenser water and hot net water, can reduce Heat supply network return water temperature creates advantage for the waste heat in recycling power plant, while increasing the conveying temperature difference, reduces transmission & distribution energy consumption.

5, the system that the utility model is proposed has recycled a large amount of waste heats, therefore its hotspot stress is compared to conventional biomass Power plant is higher, is capable of providing more heat supplies under the conditions of the same fuel of consumption, generated energy are approximate, so that increasing economy of power plant effect Benefit significantly increases, and can promote and apply on a large scale.

Detailed description of the invention

Fig. 1 be the utility model proposes factory in water- to-water heat exchanger and steam exhaust heat exchanger step sprayed using flue gas heat heat supply network Water, end reduce return water temperature using electric heating pump, mix the basic procedure schematic diagram of supply heat user after water.

Fig. 2 be the utility model proposes factory in hot net water heated using electric heating pump step in steam exhaust heat exchanger and factory, directly Connect the flow diagram of supply end heat user.

Fig. 3 be the utility model proposes factory in water- to-water heat exchanger, steam exhaust heat exchanger and extraction heater sprayed using flue gas Step heats hot net water, flow diagram of the end thermal substation using absorption heat exchange unit through secondary network supply heat user.

Symbol in figure:

1-biomass boiler, 2-steam turbines, 3-steam exhaust heat exchangers, 4-condensers, 5-cooling towers, 6-boiler feedwaters Heater, 7-flue gas emission reduction waste heats recycle integral type unit, 7a-desulfurizing tower, 7b-waste heat recovery tower, 8-flue gas shower waters Heat exchanger, 9-chimneys, 10-end electric heating pumps, 11-user's heat exchangers, 12-multifunctional pumps, 13-pumps for hot water supply net, 14-is cold But water-circulating pump, 15-boiler feedwater force (forcing) pumps, 16-spray water-circulating pumps, 17-flue gas condensed water pumps, 18-slurry circulating pumps, 19-power grids, 20-power plant's electric heating pumps, 21-extraction heaters, 22-absorption heat exchange units, 23-secondary network circulating pumps.

Specific embodiment

The utility model proposes one kind can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, according to The difference of application scenarios and system parameter enumerates three embodiments, and in conjunction with accompanying drawings and embodiments, detailed description are as follows:

Embodiment 1: hot net water is heated using flue gas spray water- to-water heat exchanger and steam exhaust heat exchanger step in factory, end is using electricity Heat pump reduces return water temperature, mixes the basic procedure of supply heat user after water

One kind of the utility model embodiment 1 can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, As shown in Figure 1, the system includes biomass boiler 1, steam turbine 2, steam exhaust heat exchanger 3, condenser 4, cooling tower 5, boiler feedwater Heater 6, flue gas emission reduction waste heat recycling integral type unit 7, flue gas spray water- to-water heat exchanger 8, chimney 9, power grid 19, end electric heating pump 10, user's heat exchanger 11 and connecting line and valve；It includes desulfurizing tower 7a and remaining that flue gas emission reduction waste heat, which recycles integral type unit 7, Heat recovery tower 7b；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of biomass boiler 1 is connected by the pipeline with valve with the steam inlet of steam turbine 2, steamer The steam exhaust outlet of machine 2 passes through the high temperature side steam exhaust entrance phase with valvular pipeline with steam exhaust heat exchanger 3 and condenser 4 respectively Even, the high temperature side water outlet of steam exhaust heat exchanger 3 and condenser 4 passes sequentially through boiler feedwater after converging via the pipeline with valve and adds Press pump 15, boiler water-suppling heater 6 are connected with the upper water inlet of biomass boiler 1, the steam extraction outlet and boiler feedwater of steam turbine 2 The air intake of heater 6 is connected；Cooling tower 5 is connected to the low temperature side of condenser 4 by the pipeline with cooling water circulating pump 14 And loop is formed, specifically, the cooling water outlet of cooling tower 5 passes through pipeline and condenser with valve and cooling water circulating pump 14 4 low temperature side water inlet is connected, and the low temperature side water outlet of condenser 4 passes through the cooling water with valvular pipeline Yu cooling tower 5 Entrance is connected；The exhanst gas outlet of biomass boiler 1 is connected with the smoke inlet of desulfurizing tower 7a, the exhanst gas outlet of desulfurizing tower 7a with it is remaining The smoke inlet of heat recovery tower 7b is connected, and the exhanst gas outlet of waste heat recovery tower 7b is connected with the chimney 9 at top, desulfurizing tower 7a tower bottom Slurry pool by being connected with the pipeline of slurry circulating pump 18 with desulfurizing tower 7a tower top spray tube, waste heat recovery tower 7b tower bottom The the first spray water out for spraying pond passes through the pipeline for being equipped with spray water-circulating pump 16 and valve and flue gas sprays water- to-water heat exchanger 8 The water inlet of high temperature side is connected, and flue gas sprays the water outlet of 8 high temperature side of water- to-water heat exchanger by returning with valvular pipeline and waste heat The spray tube for receiving tower 7b tower top is connected, and the second spray water out in the spray pond of waste heat recovery tower 7b tower bottom is by being equipped with flue gas The pipeline of condensate pump 17 and valve, and with converge with valvular moisturizing pipeline after access desulfurizing tower 7a tower bottom slurry pool；

The water outlet that the leaving condenser water mouth of end electric heating pump 10 passes through the pipeline with valve and 3 low temperature side of steam exhaust heat exchanger Converge and is connected afterwards with the water inlet of user's heat exchanger 11；The water outlet of user's heat exchanger 11 is divided into two branches, and the first branch is logical It crosses the pipeline with valve and multifunctional pump 12 to be connected with the condenser water inlet of end electric heating pump 10, second branch passes through with valve Pipeline is connected with the evaporator water inlet of end electric heating pump 10；The evaporator water outlet of end electric heating pump 10 passes through band valve and heat The pipeline of net circulating pump 13 is connected with the water inlet of flue gas spray 8 low temperature side of water- to-water heat exchanger, and flue gas sprays 8 low temperature side of water- to-water heat exchanger Water outlet be connected by the pipeline with valve with the water inlet of 3 low temperature side of steam exhaust heat exchanger；

Power grid 19 is sent into the power generation of steam turbine 2, while the end electric heating pump 10 of end connects electricity as drive energy from power grid 19. The present embodiment end reduces heat supply network return water temperature for waste heat recycling in power plant using electric heating pump 10, while electric heating pump 10 is from power grid The electricity that 19 consumption part cogenerations of heat and power are issued, to recycle this partial heat for heating part heat supply network return water, and using mixed The form of water supplies heat user.

Further, in this embodiment also passing through band valve between the evaporator water outlet of end electric heating pump 10, water inlet Pipeline connection, flue gas sprays and is also connected to by the pipeline with valve between the water outlet of 8 low temperature side of water- to-water heat exchanger, water inlet, For under electric heating pump accident condition directly by the water inlet of the water outlet of user's heat exchanger 11 and the low temperature side of steam exhaust heat exchanger 3 By being connected with valve with the pipeline of pumps for hot water supply net 13, basic heat demand is ensured.

The workflow of the present embodiment is as follows:

(route shown in straight line is water route in figure, and route shown in dotted line is gas circuit, and route shown in dotted line is as shown in Figure 1 Circuit, remaining same), biomass fuel enters the burning generation high-temperature steam of biomass boiler 1 and enters 2 steam inlet of steam turbine, generates electricity Become steam exhaust afterwards and export from the steam exhaust of steam turbine 2 to draw, steam exhaust in winter cogeneration of heat and power when enter the high temperature side of steam exhaust heat exchanger 3 Steam exhaust entrance enters the high temperature side steam exhaust entrance of condenser 4 in summer operating mode, in steam exhaust heat exchanger 3 or the high temperature side of condenser 4 Water outlet is condensed into condensed water and enters 6 water inlet of boiler water-suppling heater, boiler feedwater after the boosting of boiler feedwater force (forcing) pump 15 6 water outlet of heater is connected with water inlet on biomass boiler 1；Summer operating mode, the recirculated cooling water that cooling tower 5 generates is through cooling Water-circulating pump 14 enters condenser 4 for cooling down steam exhaust.For fume side, the flue gas that biomass boiler 1 generates enters flue gas and subtracts The smoke inlet of desulfurizing tower 7a in exhaust recuperation of heat integral type unit 7, the exhanst gas outlet and waste heat recovery tower 7b cigarette of desulfurizing tower 7a Gas entrance is connected, and waste heat recovery tower 7b exhanst gas outlet is connected with chimney 9；Desulfurizing tower 7a tower bottom slurries through slurry circulating pump 18 send to Tower top spray, is constantly reacted with flue gas, and waste heat recovery tower 7b tower bottom shower water is sent into flue gas through spray water-circulating pump 16 and is sprayed The high temperature side water inlet and hot net water of water drenching heat exchanger 8 exchange heat, and spray the high temperature side water outlet and waste heat recovery tower of water- to-water heat exchanger 8 The spray tube of 7b tower top is connected；The extra shower water of waste heat recovery tower 7b tower bottom is sent into desulfurizing tower 7a moisturizing through flue gas condensed water pump 17 Pipeline is sent eventually as moisturizing to desulfurizing tower 7a tower bottom.For the hot net water side of end, the evaporator water outlet of electric heating pump 10 Hot net water is sent into the low temperature side water inlet of flue gas spray water- to-water heat exchanger 8, the heat exchange of flue gas shower water after the pressurization of pumps for hot water supply net 13 The low temperature side water outlet of device 8 is connected with the low temperature side water inlet of steam exhaust heat exchanger 3, the low temperature side water outlet of steam exhaust heat exchanger 3 It is connected after the hot net water mixing of hot net water and the leaving condenser water mouth from end electric heating pump 10 with 11 import of user's heat exchanger, uses The hot net water that family heat exchanger 11 exports is divided into two parts, enters 10 evaporator water inlet of end electric heating pump all the way, another way is through mixed Water pump 12 enters 10 condenser water inlet of end electric heating pump after pressurizeing, into the hot net water of 10 condenser water inlet of end electric heating pump After heated, mixed from 10 leaving condenser water mouth of end electric heating pump with the hot net water from 3 low temperature side water outlet of steam exhaust heat exchanger, And into the hot net water of 10 evaporator water inlet of end electric heating pump after cooling down, from 10 evaporator water outlet of end electric heating pump through heat Net circulating pump 13 sends flue gas spray 8 low temperature side water inlet of water- to-water heat exchanger back to, completes hot net water circulation.Electricity is sent into the power generation of steam turbine 2 Net 19, while end electric heating pump 10 connects electricity as drive energy from power grid 19.

Embodiment 2: heating hot net water using electric heating pump step in steam exhaust heat exchanger and factory in factory, directly feeds end heat use The process at family

One kind of the utility model embodiment 2 can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, As shown in Fig. 2, the system includes biomass boiler 1, steam turbine 2, steam exhaust heat exchanger 3, condenser 4, cooling tower 5, boiler feedwater Heater 6, flue gas emission reduction waste heat recycling integral type unit 7, chimney 9, power grid 19, power plant's electric heating pump 20, user's heat exchanger 11 with And connecting line and valve；It includes desulfurizing tower 7a and waste heat recovery tower 7b that flue gas emission reduction waste heat, which recycles integral type unit 7,；Each equipment Connection relationship are as follows:

The high-temperature steam outlet of biomass boiler 1 is connected by the pipeline with valve with the steam inlet of steam turbine 2, steamer The steam exhaust outlet of machine 2 passes through the high temperature side steam exhaust entrance phase with valvular pipeline with steam exhaust heat exchanger 3 and condenser 4 respectively Even, the high temperature side water outlet of steam exhaust heat exchanger 3 and condenser 4 passes sequentially through boiler feedwater after converging via the pipeline with valve and adds Press pump 15, boiler water-suppling heater 6 are connected with the upper water inlet of biomass boiler 1, the steam extraction outlet and boiler feedwater of steam turbine 2 The air intake of heater 6 is connected；Cooling tower 5 is connected to the low temperature side of condenser 4 by the pipeline with cooling water circulating pump 14 And loop is formed, specifically, the cooling water outlet of cooling tower 5 passes through pipeline and condenser with valve and cooling water circulating pump 14 4 low temperature side water inlet is connected, and the low temperature side water outlet of condenser 4 passes through the cooling water with valvular pipeline Yu cooling tower 5 Entrance is connected；The exhanst gas outlet of biomass boiler 1 is connected with the smoke inlet of desulfurizing tower 7a, the exhanst gas outlet of desulfurizing tower 7a with it is remaining The smoke inlet of heat recovery tower 7b is connected, and the exhanst gas outlet of waste heat recovery tower 7b is connected with the chimney 9 at top, desulfurizing tower 7a tower bottom Slurry pool by being connected with the pipeline of slurry circulating pump 18 with desulfurizing tower 7a tower top spray tube, waste heat recovery tower 7b tower bottom The the first spray water out for spraying pond passes through the steaming for being equipped with the pipeline and power plant's electric heating pump 20 of spray water-circulating pump 16 and valve It sends out device water inlet to be connected, the evaporator water outlet of power plant's electric heating pump 20 passes through with valvular pipeline and waste heat recovery tower 7b tower top Spray tube be connected, waste heat recovery tower 7b tower bottom spray pond second spray water out pass through be equipped with 17 He of flue gas condensed water pump The pipeline of valve, and with converge with valvular moisturizing pipeline after access desulfurizing tower 7a tower bottom slurry pool；

Condenser, user's heat exchanger 11, pumps for hot water supply net 13 and 3 low temperature side of steam exhaust heat exchanger of power plant's electric heating pump 20 are successively Connection forms loop, and specifically, the leaving condenser water mouth of power plant's electric heating pump 20 passes through with valvular pipeline and user's heat exchanger 11 water inlets are connected, and 11 water outlet of user's heat exchanger passes through pipeline and steam exhaust heat exchanger 3 with pumps for hot water supply net 13 and valve Low temperature side water inlet is connected, and 3 low temperature side water outlet of steam exhaust heat exchanger passes through cold with valvular pipeline and power plant electric heating pump 20 Condenser water inlet is connected；The present embodiment is using the form of step heating in power plant, and the heat supply network return water series connection of low temperature is by flue gas spray Water drenching heat exchanger 8 and steam exhaust heat exchanger 3, successively Mist heat recovering and exhaust steam residual heat, can reduce heat transfer processLoss；

Power grid 19 is sent into the power generation of steam turbine 2, while power plant's electric heating pump 20 connects electricity as drive energy from steam turbine 2.

Further, it is also connected to by the pipeline with valve between the leaving condenser water mouth of power plant's electric heating pump 20, water inlet, For under electric heating pump accident condition directly by the water inlet of the water outlet of user's heat exchanger 11 and the low temperature side of steam exhaust heat exchanger 3 By being connected with valve with the pipeline of pumps for hot water supply net 13, basic heat demand is ensured.

The workflow of the present embodiment is as follows:

It generates high-temperature steam as shown in Fig. 2, biomass fuel enters the burning of biomass boiler 1 and enters 2 steam of steam turbine and enter Mouthful, become after power generation steam exhaust from 2 steam exhaust of steam turbine export draw, steam exhaust in winter cogeneration of heat and power when enter steam exhaust heat exchanger 3 High temperature side steam exhaust entrance enters the high temperature side steam exhaust entrance of condenser 4 in summer operating mode, in steam exhaust heat exchanger 3 or condenser 4 High temperature side water outlet is condensed into condensed water and enters 6 entrance of boiler water-suppling heater, boiler after the boosting of boiler feedwater force (forcing) pump 15 6 water outlet of feed-water heater is connected with water inlet on biomass boiler 1；Summer operating mode, the recirculated cooling water warp that cooling tower 5 generates Cooling water circulating pump 14 enters condenser 4 for cooling down steam exhaust.For fume side, the flue gas that biomass boiler 1 generates enters cigarette Gas emission reduction waste heat recycles the smoke inlet of desulfurizing tower 7a in integral type unit 7, the exhanst gas outlet and waste heat recovery tower of desulfurizing tower 7a The smoke inlet of 7b is connected, and the exhanst gas outlet of waste heat recovery tower 7b is connected with chimney 9；Desulfurizing tower 7a tower bottom slurries are through serum recycle Pump 18 send to tower top and sprays, and is constantly reacted with flue gas, and waste heat recovery tower 7b tower bottom shower water is sent through spraying water-circulating pump 16 Enter the evaporator water inlet of electric heating pump 20 in factory, the spray of the evaporator water outlet of electric heating pump 20 and waste heat recovery tower 7b tower top in factory Shower pipe is connected；The extra shower water of waste heat recovery tower 7b tower bottom is sent into the moisturizing pipeline of desulfurizing tower 7a through flue gas condensed water pump 17, most It send eventually as moisturizing to desulfurizing tower 7a tower bottom.For hot net water side, the hot net water of 11 water outlet of user's heat exchanger is recycled through heat supply network Pump 13 is connected with 3 low temperature side water inlet of steam exhaust heat exchanger, the condensation of electric heating pump 20 in 3 low temperature side water outlet of steam exhaust heat exchanger and factory Device water inlet is connected, and the leaving condenser water mouth of electric heating pump 20 is connected with 11 water inlet of user's heat exchanger in factory, completes hot net water and follows Ring.Power grid 19 is sent into the power generation of steam turbine 2, while the steam turbine 2 directly out of factory of electric heating pump 20 connects electricity as drive energy in factory.

Embodiment 3: heat supply network is heated using flue gas spray water- to-water heat exchanger, steam exhaust heat exchanger and extraction heater step in factory Water, process of the end thermal substation using absorption heat exchange unit through secondary network supply heat user

One kind of the utility model embodiment 3 can recycle the biomass thermal cogeneration system of steam exhaust and fume afterheat simultaneously, As shown in figure 3, the system includes biomass boiler 1, steam turbine 2, steam exhaust heat exchanger 3, condenser 4, cooling tower 5, boiler feedwater Heater 6, flue gas emission reduction waste heat recycling integral type unit 7, flue gas spray water- to-water heat exchanger 8, chimney 9, power grid 19, extraction heater 21, absorption heat exchange unit 22, user's heat exchanger 11 and connecting line and valve；Flue gas emission reduction waste heat recycles integral type unit 7 include desulfurizing tower 7a and waste heat recovery tower 7b；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of biomass boiler 1 is connected by the pipeline with valve with the steam inlet of steam turbine 2, steamer The steam exhaust outlet of machine 2 passes through the high temperature side steam exhaust entrance phase with valvular pipeline with steam exhaust heat exchanger 3 and condenser 4 respectively Even, the high temperature side water outlet of steam exhaust heat exchanger 3 and condenser 4 is via the pipeline with valve and the high temperature side with extraction heater 21 Water outlet passes sequentially through the upper water inlet phase of boiler feedwater force (forcing) pump 15, boiler water-suppling heater 6 and biomass boiler 1 after converging Even, the first steam extraction outlet of steam turbine 2 is connected with the air intake of boiler water-suppling heater 6, the second steam extraction of steam turbine 2 export and The high temperature side extraction entrance of extraction heater 21 is connected, and power grid 19 is sent into the power generation of steam turbine 2；The low temperature of cooling tower 5 and condenser 4 Side is connected to and is formed loop by the pipeline with cooling water circulating pump 14, and specifically, the cooling water outlet of cooling tower 5 passes through band The pipeline of valve and cooling water circulating pump 14 is connected with the low temperature side water inlet of condenser 4, and the low temperature side water outlet of condenser 4 is logical It crosses and is connected with valvular pipeline with the cooling water inlet of cooling tower 5；The exhanst gas outlet of biomass boiler 1 and the cigarette of desulfurizing tower 7a Gas entrance is connected, and the exhanst gas outlet of desulfurizing tower 7a is connected with the smoke inlet of waste heat recovery tower 7b, the flue gas of waste heat recovery tower 7b Outlet is connected with the chimney 9 at top, and the slurry pool of desulfurizing tower 7a tower bottom passes through pipeline and desulfurizing tower with slurry circulating pump 18 7a tower top spray tube is connected, and the first spray water out in the spray pond of waste heat recovery tower 7b tower bottom is recycled by being equipped with shower water The pipeline of pump 16 and valve is connected with the water inlet of flue gas spray 8 high temperature side of water- to-water heat exchanger, and flue gas sprays 8 high temperature side of water- to-water heat exchanger Water outlet by being connected with valvular pipeline with the spray tube of waste heat recovery tower 7b tower top, the spray of waste heat recovery tower 7b tower bottom Water drenching pond second spray water out by be equipped with flue gas condensed water pump 17 and valve pipeline, and with valvular moisturizing pipeline The slurry pool of desulfurizing tower 7a tower bottom is accessed after converging；

Flue gas spray 8 low temperature side of water- to-water heat exchanger, 21 low temperature side of extraction heater, absorption changes 3 low temperature side of steam exhaust heat exchanger The primary net of heat engine group 22 and pumps for hot water supply net 13 are in turn connected to form a heat supply network water loops, specifically, flue gas shower water exchanges heat For 8 low temperature side water outlet of device by being connected with valvular pipeline with 3 low temperature side water inlet of steam exhaust heat exchanger, steam exhaust heat exchanger 3 is low Warm side water outlet with valvular pipeline with 21 low temperature side water inlet of extraction heater by being connected, 21 low temperature side of extraction heater Water outlet with valvular pipeline with the primary net water inlet of absorption heat exchange unit 22 by being connected, absorption heat exchange unit 22 1 Secondary net water outlet sprays 8 low temperature side water inlet phase of water- to-water heat exchanger with flue gas by the pipeline with pumps for hot water supply net 13 and valve Even；22 secondary network water outlet of absorption heat exchange unit, by being connected with valvular pipeline, is used with 11 water inlet of user's heat exchanger Heat exchanger 11 water outlet in family is entered by the pipeline with secondary network circulating pump 23 and valve with 22 secondary network of absorption heat exchange unit The mouth of a river is connected.

Further, in this embodiment also passing through between the water outlet of flue gas spray 8 low temperature side of water- to-water heat exchanger, water inlet Pipeline connection with valve, for passing through steam exhaust heat exchanger 3, extraction heater 21 in the case where flue gas sprays water- to-water heat exchanger accident condition With absorption heat exchange unit 22 to user side heat supply, basic heat demand is ensured.

The workflow of the present embodiment is as follows:

It generates high-temperature steam as shown in figure 3, biomass fuel enters the burning of biomass boiler 1 and enters 2 steam of steam turbine and enter Mouthful, become steam exhaust after power generation from the steam exhaust of steam turbine 2 and export extraction, generates electricity and be sent into power grid 19, it is weary in winter when cogeneration of heat and power Vapour enters the high temperature side steam exhaust entrance of steam exhaust heat exchanger 3, is condensed into condensed water, steam extraction in 3 high temperature side water outlet of steam exhaust heat exchanger Into the high temperature side extraction entrance of extraction heater 21, it is condensed into condensed water in the high temperature side water outlet of extraction heater 21, with The water outlet condensed water of 3 high temperature side of steam exhaust heat exchanger converges；The high temperature side steam exhaust that steam exhaust enters condenser 4 in summer operating mode enters Mouthful, it coagulates in 4 high temperature side outlet of condenser for condensed water, summer in winter all condensed water all boosts through boiler feedwater force (forcing) pump 15 laggard Enter 6 water inlet of boiler water-suppling heater, 6 water outlet of boiler water-suppling heater is connected with 1 water inlet of biomass boiler；Steam turbine 2 The steam extraction of generation, a part is sent into 21 high temperature side of extraction heater, another part is sent into boiler water-suppling heater 6, after pressurization Condensate heated；Summer operating mode, the recirculated cooling water that cooling tower 5 generates enter condenser 4 through cooling water circulating pump 14 and use In cooling steam exhaust.For fume side, the flue gas that biomass boiler 1 generates enters in flue gas emission reduction waste heat recycling integral type unit 7 The exhanst gas outlet of the smoke inlet of desulfurizing tower 7a, desulfurizing tower 7a is connected with the smoke inlet of waste heat recovery tower 7b, waste heat recovery tower The exhanst gas outlet of 7b is connected with chimney 9；Desulfurizing tower 7a tower bottom slurries send to tower top through slurry circulating pump 18 and spray, constantly and flue gas It is reacted, waste heat recovery tower 7b tower bottom shower water is sent into the high temperature side of flue gas spray water- to-water heat exchanger 8 through spray water-circulating pump 16 Water inlet and hot net water exchange heat, and the high temperature side water outlet of spray water- to-water heat exchanger 8 is that spray tube is connected with waste heat recovery tower 7b tower top； The extra shower water of waste heat recovery tower 7b tower bottom is sent into desulfurizing tower 7a moisturizing pipeline through flue gas condensed water pump 17, send eventually as moisturizing To desulfurizing tower 7a tower bottom.For hot net water side, the low-temperature return water of the primary net water outlet of absorption heat exchange unit 22 is recycled through heat supply network The low temperature side water inlet of flue gas spray water- to-water heat exchanger 8 is sent into after 13 pressurization of pump, flue gas sprays the low temperature side water outlet of water- to-water heat exchanger 8 It is connected with the low temperature side water inlet of steam exhaust heat exchanger 3,3 low temperature side water outlet of steam exhaust heat exchanger enters with 21 low temperature side of extraction heater The mouth of a river is connected, and 21 low temperature side water outlet of extraction heater is connected with the primary net water inlet of absorption heat exchange unit 22, completes primary Net water circulation.The secondary network water outlet of absorption heat exchange unit 22 is connected with 11 water outlet of user's heat exchanger, user's heat exchanger 11 The secondary network water of water outlet sends absorption heat exchange unit secondary network water inlet back to through secondary network circulating pump 23, completes secondary network water and follows Ring.

Building block in the various embodiments described above can be achieved by ordinary skill in the art means.Above-mentioned implementation Example is respectively suitable for different application scenarios: embodiment 1 is suitable for biomass electric power plant and heat user apart from moderate, and user side has Standby condition adds the application scenarios of end electric heating pump；Embodiment 2 is suitable for biomass electric power plant and heat user is closer or user Side does not have the application scenarios for adding end electric heating pump；Embodiment 3 is suitable for biomass electric power plant and heat user distance farther out, and uses The biggish application scenarios of family side thermic load.

To sum up, the main feature of the utility model is as follows: (1) waste heat of biomass cogeneration of heat and power recycles entirely, in power plant Fume afterheat and exhaust steam residual heat are all recycled for heat supply, realize the residual heat resources Optimum utilization in power plant；(2) fume afterheat emission reduction Integrated design is recycled with waste heat, while recycling extra condensed water as the moisturizing of emission-reducing system using waste heat, it can Reduce water consumption；(3) focus on the cascade utilization of waste heat, low temperature heat supply network return water is sequentially connected in series Mist heat recovering and exhaust steam residual heat, Meet the second law of thermodynamics, reduces heat transfer processLoss；(4) end thermal desorption system uses the form of electric heating pump, can Heat supply network return water temperature is reduced, advantage is created for the waste heat in recycling power plant, while increasing the conveying temperature difference, reduces transmission & distribution energy Consumption.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement；And these are modified or replaceed, various embodiments of the utility model technology that it does not separate the essence of the corresponding technical solution The spirit and scope of scheme.

Claims (6)

1. the biomass thermal cogeneration system that one kind can recycle steam exhaust and fume afterheat simultaneously, which is characterized in that the system includes Biomass boiler (1), steam turbine (2), steam exhaust heat exchanger (3), condenser (4), cooling tower (5), boiler water-suppling heater (6), Flue gas emission reduction waste heat recycles integral type unit (7), flue gas sprays water- to-water heat exchanger (8), chimney (9), power grid (19), end electric heating pump (10), user's heat exchanger (11) and connecting line and valve；Flue gas emission reduction waste heat recycling integral type unit (7) includes de- Sulphur tower (7a) and waste heat recovery tower (7b)；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of the biomass boiler (1) is connected with the steam inlet of steam turbine (2), the steam exhaust of steam turbine (2) Outlet with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger (3) and condenser (4) respectively by being connected, steam exhaust The high temperature side water outlet of heat exchanger (3) and condenser (4) passes sequentially through boiler feedwater force (forcing) pump (15) after converging, boiler feedwater adds Hot device (6) is connected with the upper water inlet of biomass boiler (1), steam extraction outlet and boiler water-suppling heater (6) of steam turbine (2) Air intake is connected；Cooling tower (5) is connected to the low temperature side of condenser (4) by the pipeline with cooling water circulating pump (14) and shape At loop；The exhanst gas outlet of biomass boiler (1) passes sequentially through desulfurizing tower (7a) and waste heat recovery tower (7b) and chimney (9) even Logical, the slurry pool of desulfurizing tower (7a) tower bottom is connected by slurry circulating pump (18) with desulfurizing tower (7a) tower top spray tube, and waste heat returns The the first spray water out for receiving the spray pond of tower (7b) tower bottom sprays water- to-water heat exchanger by spray water-circulating pump (16) and flue gas (8) water inlet of high temperature side is connected, and flue gas sprays the water outlet and waste heat recovery tower (7b) tower top of water- to-water heat exchanger (8) high temperature side Spray tube is connected, and the second spray water out in the spray pond of waste heat recovery tower (7b) tower bottom is by being equipped with flue gas condensed water pump (17) Pipeline, after converging with moisturizing pipeline access desulfurizing tower (7a) tower bottom slurry pool；

The leaving condenser water mouth of the end electric heating pump (10) and the water outlet of steam exhaust heat exchanger (3) low temperature side converge rear and user The water inlet of heat exchanger (11) is connected；The water outlet of user's heat exchanger (11) is divided into two branches, and the first branch passes through multifunctional pump (12) it is connected with the condenser water inlet of end electric heating pump (10), the evaporator water inlet of second branch and end electric heating pump (10) It is connected；The evaporator water outlet of end electric heating pump (10) sprays water- to-water heat exchanger (8) low temperature by pumps for hot water supply net (13) and flue gas The water inlet of side is connected, and flue gas sprays the water outlet of water- to-water heat exchanger (8) low temperature side and the water inlet of steam exhaust heat exchanger (3) low temperature side It is connected；

Power grid (19) are sent into steam turbine (2) power generation, while the end electric heating pump (10) of end connects electric conduct from power grid (19) Drive energy.

2. the biomass thermal cogeneration system according to claim 1 that steam exhaust and fume afterheat can be recycled simultaneously, feature It is, passes through the pipeline with valve between the evaporator water outlet of the end electric heating pump (10), water inlet and be connected to；The flue gas It sprays and passes through the pipeline with valve between the water outlet of water- to-water heat exchanger (8) low temperature side, water inlet and be connected to.

3. the biomass thermal cogeneration system that one kind can recycle steam exhaust and fume afterheat simultaneously, which is characterized in that the system includes Biomass boiler (1), steam turbine (2), steam exhaust heat exchanger (3), condenser (4), cooling tower (5), boiler water-suppling heater (6), Flue gas emission reduction waste heat recycles integral type unit (7), chimney (9), power grid (19), power plant's electric heating pump (20), user's heat exchanger (11) And connecting line and valve；Flue gas emission reduction waste heat recycling integral type unit (7) includes desulfurizing tower (7a) and waste heat recycling Tower (7b)；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of the biomass boiler (1) is connected with the steam inlet of steam turbine (2), the steam exhaust of steam turbine (2) Outlet with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger (3) and condenser (4) respectively by being connected, steam exhaust The high temperature side water outlet of heat exchanger (3) and condenser (4) passes sequentially through boiler feedwater force (forcing) pump (15) after converging, boiler feedwater adds Hot device (6) is connected with the upper water inlet of biomass boiler (1), steam extraction outlet and boiler water-suppling heater (6) of steam turbine (2) Air intake is connected；Cooling tower (5) is connected to the low temperature side of condenser (4) by the pipeline with cooling water circulating pump (14) and shape At loop；The exhanst gas outlet of biomass boiler (1) passes sequentially through desulfurizing tower (7a), waste heat recovery tower (7b) is connected to chimney (9), The slurry pool of desulfurizing tower (7a) tower bottom is connected by slurry circulating pump (18) with desulfurizing tower (7a) tower top spray tube, waste heat recovery tower The evaporation that the first spray water out in the spray pond of (7b) tower bottom passes through spray water-circulating pump (16) and power plant's electric heating pump (20) Device water inlet is connected, and the evaporator water outlet of power plant's electric heating pump (20) is connected with the spray tube of waste heat recovery tower (7b) tower top, remaining The second spray water out in the spray pond of heat recovery tower (7b) tower bottom is by the pipeline equipped with flue gas condensed water pump (17), with moisturizing Pipeline accesses the slurry pool of desulfurizing tower (7a) tower bottom after converging；

The condenser of power plant's electric heating pump (20), user's heat exchanger (11), pumps for hot water supply net (13) and steam exhaust heat exchanger (3) are low Warm side is in turn connected to form loop；

Power grid (19) are sent into steam turbine (2) power generation, while power plant's electric heating pump (20) connects electricity as driving energy from steam turbine (2) Source.

4. the biomass thermal cogeneration system according to claim 3 that steam exhaust and fume afterheat can be recycled simultaneously, feature It is, also passes through the pipeline with valve between the leaving condenser water mouth of power plant's electric heating pump (20), water inlet and be connected to.

5. the biomass thermal cogeneration system that one kind can recycle steam exhaust and fume afterheat simultaneously, which is characterized in that the system includes Biomass boiler (1), steam turbine (2), steam exhaust heat exchanger (3), condenser (4), cooling tower (5), boiler water-suppling heater (6), Flue gas emission reduction waste heat recycles integral type unit (7), flue gas sprays water- to-water heat exchanger (8), chimney (9), power grid (19), extraction heater (21), absorption heat exchange unit (22), user's heat exchanger (11) and connecting line and valve；The flue gas emission reduction waste heat recycling Integral type unit (7) includes desulfurizing tower (7a) and waste heat recovery tower (7b)；The connection relationship of each equipment are as follows:

The high-temperature steam outlet of the biomass boiler (1) is connected with the steam inlet of steam turbine (2), the steam exhaust of steam turbine (2) Outlet with valvular pipeline with the high temperature side steam exhaust entrance of steam exhaust heat exchanger (3) and condenser (4) respectively by being connected, steam exhaust The high temperature side water outlet of the high temperature side water outlet of heat exchanger (3) and condenser (4) and extraction heater (21) successively leads to after converging Cross boiler feedwater force (forcing) pump (15), boiler water-suppling heater (6) is connected with the upper water inlet of biomass boiler (1), steam turbine (2) The first steam extraction outlet be connected with the air intake of boiler water-suppling heater (6), the second steam extraction outlet of steam turbine (2) adds with steam extraction The high temperature side extraction entrance of hot device (21) is connected, and power grid (19) are sent into steam turbine (2) power generation；Cooling tower (5) and condenser (4) Low temperature side is connected to by the pipeline with cooling water circulating pump (14) and forms loop；The exhanst gas outlet of biomass boiler (1) according to Secondary to be connected to by desulfurizing tower (7a), waste heat recovery tower (7b) with chimney (9), the slurry pool of desulfurizing tower (7a) tower bottom is followed by slurries Ring pump (18) is connected with desulfurizing tower (7a) tower top spray tube, and first shower water in the spray pond of waste heat recovery tower (7b) tower bottom goes out Mouth is connected by spray water-circulating pump (16) with the water inlet that flue gas sprays water- to-water heat exchanger (8) high temperature side, the heat exchange of flue gas shower water The water outlet of device (8) high temperature side is connected with the spray tube of waste heat recovery tower (7b) tower top, the spray of waste heat recovery tower (7b) tower bottom The second spray water out in pond accesses desulfurizing tower after converging with moisturizing pipeline by the pipeline equipped with flue gas condensed water pump (17) The slurry pool of (7a) tower bottom；

The flue gas sprays water- to-water heat exchanger (8) low temperature side, steam exhaust heat exchanger (3) low temperature side, extraction heater (21) low temperature side, suction The primary net of receipts formula heat-exchange unit (22) and pumps for hot water supply net (13) are in turn connected to form a heat supply network water loops；Absorption heat exchange machine The secondary network water outlet of group (22) is connected with user's heat exchanger (11) water inlet, and user's heat exchanger (11) water outlet passes through secondary network Circulating pump (23) is connected with the secondary network water inlet of absorption heat exchange unit (22).

6. the biomass thermal cogeneration system according to claim 5 that steam exhaust and fume afterheat can be recycled simultaneously, feature It is, the flue gas sprays the pipeline connection also passed through between the water outlet of water- to-water heat exchanger (8) low temperature side, water inlet with valve.