CN209147061U - A kind of accumulation of heat regulation distributed combined heat and power generation system - Google Patents

Abstract

The utility model discloses a kind of accumulation of heats to regulate and control distributed combined heat and power generation system, it is made of differential pressure power generation machine, steam accumulator and corresponding control unit, the Multi-class propagation of the energy and the use gas inhomogeneities of heat user are fully considered, differential pressure power generation machine and steam accumulator are effectively combined, take full advantage of boiler efficiency, the boiler oil consumption for saving about 10%, efficiently solves peak load to the shock problem of system, also mitigates the workload and degree of fatigue of worker.

Description

A kind of accumulation of heat regulation distributed combined heat and power generation system

Technical field

The utility model belongs to distributed heat accumulation regulation and control field, in particular to a kind of differential pressure power generation, steam storage regulation system System.

Background technique

Current boiler air supply system is constituted simply, and efficiency of energy utilization is lower, because steam load is in fluctuation status, Blowing out even is wanted when load is lower, this makes boiler combustion very unstable, and boiler worker need to add on demand according to steam pressure gauge Refuelling is adjusted, this undoubtedly increases the work load of worker, and can reduce boiler service life.

Utility model content

In order to overcome the above-mentioned deficiencies of the prior art, the utility model proposes a kind of accumulation of heats to regulate and control distributed combined heat and power generation system System, peak load far super boiler capacity big to solve current steam load fluctuation, the lower problem of efficiency of energy utilization.

In order to achieve the above object, the utility model proposes technical solutions below:

A kind of accumulation of heat regulation distributed combined heat and power generation system, including steam boiler, differential pressure power generation machine, steam accumulator, institute The steam (vapor) outlet of differential pressure power generation machine connection steam boiler is stated, the steam (vapor) outlet of the differential pressure power generation machine passes through the pipe with control valve Road connects import and the heat user of the steam accumulator；The steam (vapor) outlet of the steam accumulator passes through the pipeline with control valve It is connected to heat user, the differential pressure power generation machine is generated electricity using the high pressure of the hot steam of the steam boiler, and power supply user makes With.

Non-return is provided on pipeline between the steam (vapor) outlet of the differential pressure power generation machine and the entrance of the steam accumulator Valve is provided with pressure reducing valve on the pipeline between the steam (vapor) outlet and heat user of the steam accumulator.

The pipeline of control valve in parallel one is had between the differential pressure power generation machine steam (vapor) outlet and the steam accumulator entrance Bypass conduit.

Pipeline between the steam (vapor) outlet and heat user of the steam accumulator is parallel with a bypass conduit.

Drain valve is equipped with close to the side of the steam boiler in the steam accumulator, it is ensured that the water in steam accumulator Liquid level keeps homeostasis.

The steam accumulator far from the steam boiler side be equipped with liquid level indicator, the liquid level indicator with The steam boiler connection, while monitoring the water in steam boiler and steam accumulator.

Further, the steam accumulator amount of capacity is determined by following calculation method:

Wherein, M is the maximum continuous evaporation amount of the steam boiler, M_maxFor the steam peak load of the steam boiler, T is peak load duration, h_f1For the condensed water heat under the steam accumulator the blowing pressure P1, h_f2It is described Condensed water heat under steam accumulator outlet pressure P2, h_fgIt is full for the generation 1kg under the steam accumulator outlet pressure P2 With heat needed for water, F is flash-off steam ratio.

Still further, the steam accumulator uses horizontal steam accumulator, size meets the following conditions:

Wherein, L is steam accumulator length, and D is steam accumulator diameter, also needs to meet simultaneously: water entrained by steam does not occur Maximum evaporation rate S (kg/m2h) be 220 times of operating pressure P (bar g), S < 220P.

The utility model compared to the prior art, have it is following the utility model has the advantages that

Storage of the utility model heat reservoir for distributed combined heat and power generation thermal energy discharges, according to the actual negative of heat user Lotus situation and design, steam when by underload stores, and carries out decompression release when required by flash principle, amount of storage Any peak condition should be met.Storage heater has good heat preservation property, and heat loss is small, and does not influence steam quality.This is practical Novel heat reservoir effectively increases the utilization efficiency and comprehensive utilization rate of energy source of boiler；It, can meanwhile by the adjusting of system So that steam load curve is gentler, part of fuel consumption is reduced, the economy of system is improved.

Detailed description of the invention

Fig. 1 is the schematic diagram of the utility model accumulation of heat regulation distributed combined heat and power generation system.

Fig. 2 is the topology diagram of accumulation of heat regulation distributed combined heat and power generation system in embodiment.

Fig. 3 is the boiler heating system boiler combustion rate curve graph in embodiment without steam accumulator.

Fig. 4 is the boiler heating system boiler combustion rate curve graph for having steam accumulator in embodiment.

Appended drawing reference:

100- steam boiler, 200- differential pressure power generation machine, 300- steam accumulator, 10- bypass conduit, 20- check-valves, 30- Pressure reducing valve, 40- drain valve, 50- liquid level indicator, 60- control valve.

Specific embodiment

The content of the utility model is described in further details with reference to the accompanying drawings and detailed description.

As shown in Figure 1, a kind of accumulation of heat regulation distributed combined heat and power generation system includes boiler system, steam stocking system two Point.It is formed by connecting by steam boiler 100, differential pressure power generation machine 200, steam accumulator 300 and all kinds of control valves.User's steam load It is provided by the steam that boiler and storage heater store, wherein storage heater only provides steam when steam load is more than boiler load.

Differential pressure power generation machine 200 connects the steam (vapor) outlet of steam boiler 100, and the steam (vapor) outlet of differential pressure power generation machine 200 passes through band There are import and the heat user of the piping connection steam accumulator 300 of control valve 60；The steam (vapor) outlet of steam accumulator 300 passes through Piping connection with control valve 60 is generated electricity in heat user, differential pressure power generation machine 200 using the high pressure of the hot steam of steam boiler, The user that powers uses.

Further, in order to be convenient for control in system operation, in the steam (vapor) outlet and steam of differential pressure power generation machine 200 Check-valves 20 is provided on pipeline between the entrance of storage heater 300, between the steam (vapor) outlet and heat user of steam accumulator Pressure reducing valve 30 is provided on pipeline.

Drain valve 40 is equipped with close to the side of steam boiler 100 in steam accumulator 300, it is ensured that the water in steam accumulator Liquid level keeps homeostasis.

Liquid level indicator 50, liquid level indicator 50 and steaming are equipped with far from the side of steam boiler 100 in steam accumulator 300 Boiler furnace 100 is connected to, while monitoring the water in steam boiler and steam accumulator.

The principle of the utility model accumulation of heat regulation distributed combined heat and power generation system are as follows: steam is passed through steam accumulator 300 In, the water in steam accumulator 300 is heated, with being constantly filled with for steam, the temperature and pressure in steam accumulator is all continuous Rise, until inflation is completed by the saturation temperature under water temperature heating to the blowing pressure；When discharging steam, according to flash principle, lead to The pressure in pressure reducing valve reduction steam accumulator is crossed, steam evaporates immediately, and control steam accumulator maximum steam release rate is less than Maximum evaporation rate guarantees that the steam of release is dry saturated steam.

Further, in order to avoid the O&M expense in later period, and working efficiency is improved, in the steaming of differential pressure power generation machine 200 Pipeline between vapor outlet and the steam inlet of steam accumulator 300 bypass conduit 10 in parallel, in the steaming of steam accumulator 300 Also a bypass conduit 10 is parallel on pipeline between vapor outlet and heat user.The design of bypass conduit 10 is to go out in valve It is conducive to repair when existing failure and does not influence to supply.

When user's steam load is relatively gentle, the variation of day part gas consumption less, then can not use steam accumulator 300, steam directly passes through pipeline and is transported to heat user end by pipeline from the steam (vapor) outlet end of differential pressure power generation machine.

Since steam accumulator 300 can only provide the supply of steam in short-term, only play a role in the peak load period, If day part steam consumption changes greatly, there are Wave crest and wave troughs, then the steady load of steam accumulator can be used.

When load is gentle, selection can make boiler efficiency in the boiler of 60% or more size, i.e. stabilizing heat load heat Load should be greater than the 60% of boiler continuous evaporation amount, and peak load is less than boiler maximum continuous rating.

When existing with gas, when fluctuating, extra steam is entered steam accumulator 300 from the flow path by opens check valve 20 In, according to the thermic load in heat user production time section, analysis obtains the amount and its duration of steam peak load, most The difference of big peak load and maximum boiler continuous evaporation amount is the heat storage capacity (ton/hour) of steam accumulator 300.

The size selection of steam accumulator 300 can be carried out according to following methods:

The volume of steam accumulator is calculated according to the following formula:

Wherein, M is the maximum continuous evaporation amount of steam boiler, and Mmax is the steam peak load of steam boiler, and t is peak Duty value duration, h_f1For the condensed water heat under steam accumulator the blowing pressure P1, h_f2For steam accumulator outlet Condensed water heat under pressure P2, h_fgFor heat needed for the generation 1kg saturated water under steam accumulator outlet pressure P2, F is Flash-off steam ratio.

In addition, the size of horizontal steam accumulator need to meet the following conditions:

Wherein, L is steam accumulator length, and D is steam accumulator diameter, also needs to meet simultaneously: water entrained by steam does not occur Maximum evaporation rate S (kg/m2h) be 220 times of operating pressure P (bar g), S < 220P.

In accumulation of heat regulation distributed combined heat and power generation system operational process, in the heating system of no steam accumulator, Steam boiler combustion rate curve is as shown in Figure 2；Have in the heating system of steam accumulator, steam boiler combustion rate such as Fig. 3 institute Show, it is known that there is its steam boiler combustion rate of the heating system of steam accumulator gentler, steam boiler burning is more stable, for Load curve plays the effect of peak load shifting.

The high pressure for the high-pressure hot steam that differential pressure power generation machine 200 is come out during the whole service of system using steam boiler It generates electricity, power supply user terminal uses.While being generated electricity using high steam, steam quality is not influenced, is realized to steam It is further utilized, plays good energy-saving effect, reduce operating cost.

Above-listed detailed description is illustrating for the utility model possible embodiments, and the embodiment is not to limit The scope of the patents of the utility model, all equivalence enforcements or change without departing from carried out by the utility model, is intended to be limited solely by this case In the scope of the patents.

Claims (7)

1. a kind of accumulation of heat regulates and controls distributed combined heat and power generation system, it is characterised in that: including steam boiler, differential pressure power generation machine, steam Storage heater, the steam (vapor) outlet of the differential pressure power generation machine connection steam boiler, the steam (vapor) outlet of the differential pressure power generation machine is by having The import of steam accumulator described in the piping connection of control valve and heat user；The steam (vapor) outlet of the steam accumulator passes through band control The piping connection of valve processed is generated electricity in heat user, the differential pressure power generation machine using the high steam of the steam boiler, power supply User uses.

2. accumulation of heat according to claim 1 regulates and controls distributed combined heat and power generation system, it is characterised in that: the differential pressure power generation machine Steam (vapor) outlet and the steam accumulator entrance between pipeline on be provided with check-valves, the steam of the steam accumulator Pressure reducing valve is provided on pipeline between outlet and heat user.

3. accumulation of heat according to claim 2 regulates and controls distributed combined heat and power generation system, it is characterised in that: the differential pressure power generation machine With the pipeline of a control valve bypass conduit in parallel between steam (vapor) outlet and the steam accumulator entrance.

4. accumulation of heat according to claim 2 regulates and controls distributed combined heat and power generation system, it is characterised in that: the steam accumulator Steam (vapor) outlet and heat user between pipeline be parallel with a bypass conduit.

5. accumulation of heat according to claim 1 regulates and controls distributed combined heat and power generation system, it is characterised in that: in the steam accumulation of heat Device is equipped with drain valve close to the side of the steam boiler, it is ensured that the water level in steam accumulator keeps homeostasis.

6. accumulation of heat according to claim 1 regulates and controls distributed combined heat and power generation system, it is characterised in that: in the steam accumulation of heat Device is equipped with liquid level indicator far from the side of the steam boiler, and the liquid level indicator is connected to the steam boiler, simultaneously Monitor the water in steam boiler and steam accumulator.

7. accumulation of heat according to claim 1 regulates and controls distributed combined heat and power generation system, it is characterised in that:

The steam accumulator uses horizontal steam accumulator, and size meets the following conditions:

Wherein, L is steam accumulator length, and D is steam accumulator diameter, and V is steam accumulator capacity, is also needed to meet simultaneously: The maximum evaporation rate S that water entrained by steam does not occur is 220 times of operating pressure P, S < 220P.