CN209340012U - Combined environmental-protecting firepower produces electricity energy-storage system - Google Patents

Abstract

The utility model provides a kind of combined environmental-protecting firepower electricity production energy-storage system; it includes two ends that a boiler plant and a power generation module group are connected to a steam diversion pipe; and the boiler plant and the power generation module group are connected to two ends of a heat accumulation pipe, and the boiler plant uses modified methanol fuel.Plural heat to electricity conversion mould group is mounted on the surface of the heat accumulation pipe.One energy storage device is electrically connected the heat to electricity conversion mould group and/or the power generation module group.Reach whereby and improves power benefit and reduce empty dirty the effect of generating.

Description

Combined environmental-protecting firepower produces electricity energy-storage system

Technical field

A kind of technical field of the utility model about electricity production and energy storage, especially boiler is by combustion methanol fuel to generate High-temperature steam and the combined environmental-protecting firepower electricity production energy-storage system for carrying out hot power generation.

Background technique

Due to being short of increasingly for fossil energy, alternative solution is all actively found by each side.Wherein green can generate electricity is always to substitute First choice in scheme, however whether solar power generation or wind-power electricity generation, all have generated energy unstable and power benefit Bad disadvantage.

Gas turbine is routinely used in electricity generation system and method.It obtains energy from burning gases stream, should Burning gases are guided through the blade being present in the turbine, with revolving wormgear axis.Energy can by generator and from this Rotary shaft obtains, to be provided as the power of form of power.However gas turbine component need to typically be formed by high performance material, because This gas turbine is often the high cost assemblies of generating equipment.

The power generation means that will using high-temperature steam and often see.It mainly generates high-temperature steam by heating boiler, and High-temperature steam is oriented to scheduled generating set.However such mode has a large amount of thermal energy and scatters and disappears in conductive process, therefore send out Electric benefit fails to reach optimization.Furthermore fuel required for heating boiler is mostly fossil fuel or coal, thus in addition to cost compared with It is outer that high and quantity was increasingly reduced consider, and also has and generates empty dirty disadvantage.

Utility model content

The utility model provides a kind of combined environmental-protecting firepower electricity production energy-storage system, and having can be with green oil appropriate Fuel is to generate high-temperature steam to carry out hot power generation, then accumulation of heat means and heat to electricity conversion means appropriate is cooperated to carry out heat to electricity conversion Power generation reaches whereby and improves power benefit and reduce empty dirty the effect of generating, solves the disadvantage that prior art accordingly.

In order to achieve the above object with effect, it includes that a boiler fills that combined type provided by the utility model, which produces electricity energy-storage system, It sets, the combination of a steam diversion pipe, a power generation module group, a heat accumulation pipe, plural heat to electricity conversion mould group and an energy storage device.

The boiler plant includes a furnace body and a burner in conjunction with the furnace body, and the burner uses first Alcohol fuel provides thermal energy, and the furnace body is caused to provide high-temperature steam；The steam diversion pipe has a first end and second end, Wherein the first end connects the boiler plant；The power generation module group connects the second end of the steam diversion pipe, causes The high-temperature steam for exporting the boiler plant enters the power generation module group and generates electricity；The heat accumulation pipe has one first to enter Mouthful end and a second entrance end, wherein the first entrance end connects the boiler plant, described in the second entrance end connection Remaining flow of steam at high temperature after power generation module group, the high-temperature steam for causing the boiler plant to be exported and power generation module group power generation Into the heat accumulation pipe；Each heat to electricity conversion mould group is mounted on the surface of the heat accumulation pipe, by the absorption heat accumulation pipe table The heat that face is transferred out carries out electric heating conversion；The energy storage device is electrically connected each heat to electricity conversion mould group, to store Electric energy caused by each heat to electricity conversion mould group.

As a preferred embodiment of the above technical solution, preferably, heat accumulation pipe is continuous bend structure, and the accumulation of heat pipe surface has There is plural number to post face, the face that posts is planar configuration with for superthermal conduction interface installation/coating, and the confession thermoelectricity The installation positioning of modulus of conversion group.

As a preferred embodiment of the above technical solution, preferably, the energy storage device is electrically connected the power generation module group, to store up Deposit electric energy caused by the power generation module group.

As a preferred embodiment of the above technical solution, preferably, further including a downtake pipe, one end of the downtake pipe Connect the heat accumulation pipe and the connection power generation module group.

As a preferred embodiment of the above technical solution, preferably, further including a changes in temperature unit, the changes in temperature unit has one to lead Pipe, and the conduit connects the downtake pipe, causes the part high-temperature steam in the downtake pipe to be imported into described Changes in temperature unit.

As a preferred embodiment of the above technical solution, preferably, further including a second exhaust pipe, one end of the second exhaust pipe The heat accumulation pipe is connected, the other end is opening port to discharge steam.

As a preferred embodiment of the above technical solution, preferably, the second exhaust pipe is continuous bend structure, and described second There is plural number to post face on the surface of exhaust pipe, and the face that posts is planar configuration with so that heat to electricity conversion mould group installation is fixed Position.

As a preferred embodiment of the above technical solution, preferably, the energy storage device is a graphene battery comprising one just Pole, a cathode, diaphragm configuration are between the anode and the cathode and a battery case is to accommodate the anode, institute State the combination of cathode and the diaphragm.

As a preferred embodiment of the above technical solution, preferably, further including a battery management system is for electrically connecting to the storage It can device and the heat to electricity conversion mould group.

The utility model provides a kind of combined environmental-protecting firepower electricity production energy-storage system, and it includes a boiler plants and one to generate electricity Mould group is connected to two ends of a steam diversion pipe and the boiler plant and the power generation module group are connected to two ends of a heat accumulation pipe, And the boiler plant uses modified methanol fuel.Plural heat to electricity conversion mould group is mounted on the surface of the heat accumulation pipe.One energy storage device It is electrically connected the heat to electricity conversion mould group and/or the power generation module group.Reach the function for improving power benefit and reducing empty dirty generation whereby Effect.It is practical that this is described in detail by enumerating preferred embodiment and cooperating attached drawing according to the purpose of this utility model and effect below The structure and configuration of new embodiment.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is made one and is simply introduced, it should be apparent that, the accompanying drawings in the following description is this Some embodiments of utility model, for those of ordinary skill in the art, without creative efforts, also Other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 is the configuration schematic diagram of the utility model electricity generation system.

Fig. 2 is the configuration schematic diagram of the utility model heat accumulation pipe and heat to electricity conversion mould group.

Fig. 3 is the assembled state schematic diagram of the utility model heat accumulation pipe and heat to electricity conversion mould group.

Fig. 4 the utility model heat to electricity conversion mould group and power generation module group are electrically connected the schematic diagram of energy storage device.

The configuration schematic diagram of Fig. 5 the utility model heat accumulation pipe and second exhaust pipe.

Fig. 6 is the structural schematic diagram of the utility model energy storage device.

Wherein, 10- boiler plant；12- furnace body；14- burner；20- steam diversion pipe；22- first end；24- second End；30- power generation module group；40- heat accumulation pipe；42- first entrance end；44- second entrance end；46- posts face；The superthermal conduction of 47- is situated between Matter；50- heat to electricity conversion mould group；60- energy storage device；62- battery management system；70- downtake pipe；72- changes in temperature unit；74- Conduit；80- second exhaust pipe；82- opening；84- posts face；90- anode；900- positive electrode active materials；902- plus plate current-collecting body； 92- cathode；920- negative electrode material；922- negative current collector；94- diaphragm；96- battery case.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical solutions in the embodiments of the present invention are clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, those of ordinary skill in the art's every other embodiment obtained without making creative work, all belongs to In the range of the utility model protection.

As shown in Figure 1, electricity production system provided by the utility model embodiment includes a boiler plant 10, a steam water conservancy diversion Pipe 20, a power generation module group 30 and a heat accumulation pipe 40.Wherein the boiler plant 10 is to include a furnace body 12 and a burner 14 In conjunction with the furnace body 12.Wherein the burner 14 provides thermal energy using scheduled methanol fuel, causes the furnace body 12 that can mention For high-temperature steam.The steam diversion pipe 20 is with a first end 22 and second end 24.The first end of the steam diversion pipe 20 22 furnace body 12 to connect the boiler plant 10.

The power generation module group 30 can be a temperature difference power electric generator mould group.The power generation module group 30 connects the steam diversion pipe 20 The second end 24, in this way, which can enter by the steam diversion pipe 20 should for the high-temperature steam that is exported of the boiler plant 10 Power generation module group 30 is to generate electricity.

The heat accumulation pipe 40 is with a first entrance end 42 and a second entrance end 44.The first entrance end 42 be to Connect the furnace body 12 of the boiler plant 10；The second entrance end 44 is to connect the power generation module group 30.Such boiler dress Remaining high-temperature steam after setting the part high-temperature steam and the power generation module group 30 power generation that 10 are exported, can all flow to the heat accumulation pipe In 40.

As shown in Fig. 2 Fig. 3, the heat accumulation pipe 40 provided by the present embodiment is continuous bend structure, and the heat accumulation pipe 40 Surface there is plural number to post face 46, and it is planar configuration that this, which posts face 46, facilitates to install or coat on the surface whereby super Heat-conduction medium 47 (is detailed in Fig. 3), such as grapheme material.The present embodiment also includes plural heat to electricity conversion mould group 50.The respectively heat The electric installation of modulus of conversion group 50 and this for being located in 40 surface of heat accumulation pipe post face 46.In this way, respectively the heat to electricity conversion mould group 50 can Electric heating conversion is carried out by the heat that 40 surface of heat accumulation pipe is transferred out is absorbed.

As shown in figure 4, the present embodiment also include an energy storage device 60 be electrically connected respectively the heat to electricity conversion mould group 50 and/or The power generation module group 30, such energy storage device 60 can be to store respectively the heat to electricity conversion mould group 40 and/or the power generation module group 30 Generated electric energy.Further, to keep the collection behavior of electric energy more certain and managing, in the heat to electricity conversion mould group 50 and the storage It can configure between energy device 60 and be electrically connected one or more battery management systems (BMS) 62；It similarly, can also be in the power generation module group It is configured between 30 and the energy storage device 60 and is electrically connected one or more battery management systems (BMS) 62.

According to above content, with the power generation module group 30 and respectively, the heat to electricity conversion mould group 50 utilizes boiler plant 10 to the present embodiment The condition of high temperature on provided high-temperature steam and pipeline surface carries out the power generation mode of combined type, provides boiler plant 10 Heat can fully or significantly be applied to power generation behavior.In particular, 40 2 end of heat accumulation pipe is separately connected the furnace body 10 and the power generation module group 30, cause thermal energy by deliberately be retained in scheduled channel interior, in addition the heat accumulation pipe 40 is using continuous Warp architecture is not only able to improve the indwelling amount of the high-temperature steam in the heat accumulation pipe 40, additionally it is possible to reduce high-temperature steam in managing Flow rate, therefore the time that respectively the heat to electricity conversion mould group 50 absorbs high temperature heat can be increased, and then improve heat to electricity conversion Benefit reaches space (warp architecture) and exchanges the time for, and the time exchanges the effect of thermal energy greatly improves power benefit for.Due to the accumulation of heat The architectural characteristic of 40 device of tubulature makes thermal convection and the effect gain of heat transfer, wherein hot biography amount can gain 25~30%, thermoelectricity The power benefit of modulus of conversion group 50 can gain 20%~25%.

Again as shown in Figure 1, this example includes a downtake pipe 70.One end of the downtake pipe 70 connects the heat accumulation pipe 40 and it is connected to the power generation module group 30.Further, a changes in temperature unit 72 has a conduit 74, and the conduit 74 connects the first row Tracheae 70.Part high-temperature steam in such downtake pipe 70 can be imported into the changes in temperature unit 72, make the changes in temperature accordingly Unit 72 provides refrigeration or heating.

As shown in Fig. 1 Fig. 5, this example also includes a second exhaust pipe 80.One end of the second exhaust pipe 80 connects the storage Heat pipe 40, the other end are opening port 82 to discharge steam.Value is it is noted that the second exhaust pipe 80 can be continuous bend knot Structure, and there is the plural number of planar configuration to post face 84 on the surface of the second exhaust pipe 80, and the heat to electricity conversion mould group 50 can pacify It fills and is located in this and post face 84.In this way, which the generated energy of the present embodiment can be improved more.

The above-mentioned methanol fuel refers to that a kind of fuel for being entirely free of gasoline, composition include methanol accounting 95- 99%；Cosolvent is to include isobutanol, accounting 0.1-0.5%；Stabilizer accounting 0.05-0.15%；Cleanser accounting 0.05-0.15%；Lubricant accounting 0.08-0.22%；Solubilizer accounting 0.08-0.22%；Preparation accounting is delayed in antirust corruption 0.05-0.15%.

More specifically, a kind of enforceable modified methanol fuel at being grouped into methanol accounting 95-99%；Cosolvent Include isobutanol, accounting 0.1-0.5%；Stabilizer is ethynyl carbinol, accounting 0.05-0.15%；Cleanser is three hydroxyls Base triethylamine, accounting 0.05-0.15%；Lubricant includes oleic acid, accounting 0.08-0.22%；Solubilizer includes poly- sorb Alcohol ester 80, accounting 0.08-0.22%；It includes methyl phenylpropyl triazole, accounting 0.05-0.15% that preparation is delayed in antirust corruption.

Another possible embodiments are methanol accounting 95-99%；Cosolvent includes isobutanol, accounting 0.1-0.5%；Surely Determining agent is ethynyl carbinol, accounting 0.05-0.15%；Cleanser is Triaethanolamine, accounting 0.05-0.15%；Profit Lubrication prescription includes oleic acid, accounting 0.08-0.22%；Solubilizer includes polysorbate rouge 80, accounting 0.08-0.22%；Antirust The slow preparation of corruption includes methyl phenylpropyl triazole, accounting 0.05-0.15%；Power promoting agent, accounting 0.4-0.6%.

The power promoting agent includes water, potassium nitrate and fusel oil, and the quality accounting that wherein water accounts in power promoting agent is 30-50%.Be with water overall accounting can be less than 1%.Secondly can have power enhancement after water and methanol hybrid reaction Effect.

The modified methanol fuel can also include ethyl alcohol, propyl alcohol or butanol in scheduled quality accounting；Further, second Alcohol, the quality out of the ordinary of propyl alcohol or butanol or aggregation and be less than methanol quality.

The present embodiment also includes that antifreeze solubilizer accounting is 0.06-0.10%.The antifreeze solubilizer can be glycerine.

The cosolvent of this implementation can also include isopropyl ether, 2- methylpropanol or tetrahydro in scheduled quality accounting Furans.

The lubricant of the present embodiment can also include molybdenum dithiocarbamate or oleic acid in scheduled quality accounting Copper.

According to above composition, it is methanol accounting 98.5% that the utility model, which provides another modified methanol fuel,；Cosolvent For isobutanol, accounting 0.3%；Stabilizer is ethynyl carbinol, accounting 0.1%；Cleanser is Triaethanolamine, Accounting 0.1%；Lubricant is oleic acid, accounting 0.18%；Solubilizer is polysorbate rouge 80, accounting 0.18%；Antirust is rotten Slow preparation is methyl benzotriazazole, accounting 0.1%；Power promoting agent, accounting 0.47%.Remaining is according to actual demand Selection addition antifreezing agent solubilizer, combustion adjuvant, oxygenation agent, boiling point regulator, calorific value reinforcing agent, detersive, flavoring agent or flash-point One of regulator or plural ingredient.

The combustion adjuvant can be selected from one of ethyl alcohol, acetone or ethers or combination.The combustion adjuvant is to assist and be promoted The efficiency of combustion of the methanol gasoline.

The oxygenation agent can be selected from one of potassium permanganate, hydrogen peroxide, potassium nitrate or combination.The oxygenation agent is to auxiliary Help and promoted the efficiency of combustion of the methanol gasoline.

The boiling point regulator can be selected from one of acetone, ether, dimethyl ether, petroleum ether or butane or combination.Liquid Boiling point it is most important, generally in 65 degree of C or so.However after methanol gasoline has added water and other auxiliary agents, boiling point will be changed And it need to be adjusted.The utility model can be by above-mentioned boiling point regulator boiling point appropriate for adjusting the methanol gasoline, should Methanol gasoline smoothly can be vaporized and be applied.

The calorific value reinforcing agent can be selected from one of fusel, petroleum ether or ketone or combination.Main fuel (methanol) with help Combustion agent will not improve calorific value sometimes, and such situation can allow use process to generate trouble, so must increase calorific value to improve and use Efficiency.

The detersive can be selected from normal propyl alcohol, isopropanol, limonene, ring one of ring or combination.The flavoring agent can Selected from one of camphorated oil, ethyl butyrate, lavender oil or other flammable fragrance or combination.After methanol gasoline modulation, Peculiar smell is generated sometimes, can arrive adjustment smell and combustion-supporting effect by detersive and adjustment.

The flash-point regulator can be selected from one of petroleum ether, ether, dimethyl ether or acetone or combination.By the flash-point The evaporation capacity of methanol gasoline can be improved in regulator, to increase the pressure in container, and flash-point reduction is made to be easy to light and be easy to Feed burns.

The above-mentioned antifreezing agent solubilizer, combustion adjuvant, oxygenation agent, boiling point regulator, calorific value reinforcing agent, detersive, seasoning One of agent or flash-point regulator or plural ingredient are referred to alternatively as addition property auxiliary agent, and the addition auxiliary agent can be according to practical need Ask appropriate addition.

As shown in fig. 6, the energy storage device 60 indicated by the present embodiment is the graphene battery with capacitance characteristic, packet Include an anode 90, a cathode 92, a diaphragm 94 configuration between the anode 90 and the cathode 92 and a battery case 96 to Accommodate the combination of the anode 90, the cathode 92 and the diaphragm 94.In particular, the anode 90 is sticked by a positive electrode active materials 900, one Agent, a conductive agent and a plus plate current-collecting body 902 composition；Wherein the positive electrode active materials 900 are selected from aluminium and coat nickle cobalt lithium manganate Or the one of them of lithium cladding nickel cobalt aluminium, the one of them of LiMn2O4 or alkene silicon cladding LiMn2O4 are mixed, or use graphite carbon materials With composite material made of metal oxide；The adhesive agent uses Kynoar；The conductive agent uses conductive carbon black, red copper Powder, graphene, carbon nanotubes, electrically conductive graphite and carbon nano-fiber at least two；The plus plate current-collecting body 902 is using cladding silicon three Tie up the aluminium foil of graphene and the hydrocarbon chlorine of phenyl ring；The cathode 92 is by negative electrode material 920, conductive agent, thickener, adhesive agent and cathode collection Fluid 922 forms, in which: the negative electrode material 920 is composite wood made by graphite carbon materials or graphite carbon materials and metal oxide Material；The negative current collector 922 uses the structure of the copper foil of cladding silicon three-dimensional grapheme and the hydrocarbon chlorine of phenyl ring.

It is applied to the boiler plant 10 with the methanol fuel and is combusted with the combustion rate of quantity combusted 3.84T/hr, can be surveyed Calorific value be 8920/9300 (Kcal/Kg), the steam flow of the steam lead 20 is 100T/hr, steam heat 5.39 × 10⁷Kcal/hr；The power generation module group 30 is that 7500Kw temperature difference dynamic power unit mould group, the heat to electricity conversion mould group 50 are 2500Kw is superthermal to lead thermo-electric generation mould group, and power generation result can get the generated energy of 10Mw/hr.

The various embodiments described above are provided only the technology and its effect that the utility model is illustrated, not for limitation The utility model.It is any it is ripe can be in the situation of technical principle and spirit without prejudice to the utility model in technique personage Under, it modifies and changes to above-described embodiment.

Claims (9)

1. a kind of combined environmental-protecting firepower electricity production energy-storage system, characterized by comprising:

One boiler plant, it includes a furnace bodies and a burner in conjunction with the furnace body, and the burner is fired using methanol Material provides thermal energy, and the furnace body is caused to provide high-temperature steam；

One steam diversion pipe has a first end and second end, wherein the first end connects the boiler plant；

One power generation module group connects the second end of the steam diversion pipe, and the high temperature for causing the boiler plant to be exported steams Vapour enters the power generation module group and generates electricity；

One heat accumulation pipe has a first entrance end and a second entrance end, wherein the first entrance end connects the boiler dress It sets, the second entrance end connects the power generation module group, the high-temperature steam for causing the boiler plant to be exported and the power generation Remaining high-temperature steam after the power generation of mould group flows in the heat accumulation pipe；

Plural heat to electricity conversion mould group, is mounted on the surface of the heat accumulation pipe, is transferred out by the absorption accumulation of heat pipe surface Heat carries out electric heating conversion；

One energy storage device is electrically connected each heat to electricity conversion mould group, to store caused by each heat to electricity conversion mould group Electric energy.

2. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that the heat accumulation pipe is to connect Continuous warp architecture, and there is the accumulation of heat pipe surface plural number to post face, the face that posts is planar configuration with for superthermal conduction Interface installation/coating, and for heat to electricity conversion mould group installation positioning.

3. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that the energy storage device electricity Property the connection power generation module group, to store electric energy caused by the power generation module group.

4. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that further include a first row Tracheae, one end of the downtake pipe connect the heat accumulation pipe and the connection power generation module group.

5. combined environmental-protecting firepower according to claim 4 produces electricity energy-storage system, which is characterized in that further include an air conditioner Group, the changes in temperature unit has a conduit, and the conduit connects the downtake pipe, causes in the downtake pipe Part high-temperature steam is imported into the changes in temperature unit.

6. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that further include a second row Tracheae, one end of the second exhaust pipe connect the heat accumulation pipe, and the other end is opening port to discharge steam.

7. combined environmental-protecting firepower according to claim 6 produces electricity energy-storage system, which is characterized in that the second exhaust pipe For continuous bend structure, and there is plural number to post face on the surface of the second exhaust pipe, it is described post face be planar configuration to It installs and positions for the heat to electricity conversion mould group.

8. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that the energy storage device is One graphene battery a comprising anode, a cathode, a diaphragm configure between the anode and the cathode and a battery Combination of the shell to accommodate the anode, the cathode and the diaphragm.

9. combined environmental-protecting firepower according to claim 1 produces electricity energy-storage system, which is characterized in that further include a cell tube Reason system is for electrically connecting to the energy storage device and the heat to electricity conversion mould group.