CN209221841U - A kind of methane bio-desulfurization system - Google Patents

Abstract

The utility model provides a kind of methane bio-desulfurization system, including chemical absorbing tower, biological oxidation desulfurization pond, sedimentation basin, lye pond；Gas outlet, alkaline liquor distributor, filling body, inlet duct, sulfur-bearing lye collection device are successively arranged in chemical absorbing tower from top to bottom；Filling body is passed through by the biogas that inlet duct enters in chemical absorbing tower from lower to upper；Entered by the lye that alkaline liquor distributor sprays and reverse mass transfer occurs in filling body with biogas, the hydrogen sulfide that lye absorbs in biogas obtains sulfur-bearing lye, and the biogas of purification is discharged from gas outlet, and sulfur-bearing lye flows into sulfur-bearing lye collection device；Sulfide oxidation in sulfur-bearing lye is elemental sulfur using desulfurization bacterium by biological oxidation desulfurization pond；The efflux in biological oxidation desulfurization pond is separated by solid-liquid separation to obtain regeneration lye by sedimentation basin；Lye pond is used to provide lye to alkaline liquor distributor；Regeneration alkaline stream enters the recycling of lye pond.The utility model is mainly used for providing a kind of methane bio-desulfurization system of high-efficiency and economic.

Description

A kind of methane bio-desulfurization system

Technical field

The utility model relates to a kind of biogas desulfurization technical fields, more particularly to a kind of methane bio-desulfurization system.

Background technique

Biogas is a kind of reproducible high-grade clean energy resource, and its components include methane (60-70%), carbon dioxide (25-40%) and a small amount of hydrogen sulfide (rotten-egg odour), ammonia, hydrogen etc..Wherein, hydrogen sulfide is sulfur-containing compound micro- It is formed during biological reducing, has very strong corrosiveness to combustion powered devices and metallic conduit, two generated of burning Sulfur oxide and sulfur trioxide are the important predecessors of environmental acidification, have biggish harm.Therefore, in order to avoid hydrogen sulfide corrosion Compressor, gas reservoir, engine etc. and hydrogen sulfide poisoning is avoided, biogas needs to carry out desulfurization process before the use.And And correlation standard, it is used for civilian central gas supply, biogas to be not more than 20mg/m containing flow³, for the gas supply that generates electricity, sulfur-bearing Amount is not more than 200mg/m³。

In the prior art, biogas desulfurization technology mainly has desulfurization by dry method, wet hair desulfurization technology and biological desulphurization skill Art.Wherein, desulfurization by dry method is turned into using the physical action and chemical oxygen of solid absorbent (iron oxide, active carbon etc.) With Oxidation of Hydrogen Sulfide is generated elemental sulfur and sulfate, is primarily adapted for use in the low biogas of hydrogen sulfide content.Wet desulphurization is to utilize The liquid-absorbants such as lye absorb hydrogen sulfide, regenerate recycling after lye absorption saturation, are suitable for hydrogen sulfide content height or stream Measure big biogas.Biological desulfurizing technology is using the sulfur-oxidizing bacteria in active desulfurization sludge by H₂S turns through biological oxidation process Turn to elemental sulfur or sulfate radical.

The desulfuration efficiency of desulfurization by dry method is unstable, and desulfurizing agent is easily saturated, and sulfur capacity is low, needs to regularly replace, running cost With height, secondary pollution is easily caused.The absorbent consumption of Wet Flue Gas Desulfurization Technique is big, and removal efficiency is low, operating difficulties.It is de- with dry method Sulphur is compared with wet hair desulfurization technology, and the process flow of biological desulfurizing technology is simple and convenient to operate, efficient easy to control, operating cost It is low.But the utility model inventors have found that existing biological desulfurizing technology is concentrated mainly on laboratory simulation experiment rank Section lacks application on site and the methane bio-desulfurization system of high-efficiency and economic.

Utility model content

In view of this, the present invention provides a kind of methane bio-desulfurization system, main purpose is to provide a kind of efficient Economic methane bio-desulfurization system.

In order to achieve the above objectives, the utility model mainly provides the following technical solutions:

On the one hand, the embodiments of the present invention provide a kind of methane bio-desulfurization system comprising:

Chemical absorbing tower is successively arranged gas outlet, alkaline liquor distributor, filling machine in the chemical absorbing tower from top to bottom Structure, inlet duct, sulfur-bearing lye collection device；Wherein, by the inlet duct enter the chemical absorbing tower in biogas by Under up pass through the filling body；Entered in the filling body by the lye that the alkaline liquor distributor sprays and is occurred with biogas Reverse mass transfer, the hydrogen sulfide for absorbing lye in biogas obtain sulfur-bearing lye, and purified biogas is discharged from the gas outlet, Sulfur-bearing lye flows under the influence of gravity into the sulfur-bearing lye collection device；

Biological oxidation desulfurization pond, biological oxidation desulfurization pond are connected to the sulfur-bearing lye collection device, make sulfur-bearing alkali Liquid enters in biological oxidation desulfurization pond, using the desulfurization bacterium in biological oxidation desulfurization pond by the vulcanization in sulfur-bearing lye Object is oxidized to elemental sulfur；

Sedimentation basin, the sedimentation basin are connected to biological oxidation desulfurization pond, and being used for will be in biological oxidation desulfurization pond Efflux be separated by solid-liquid separation, obtain regeneration lye；

Lye pond, the lye pond are connected to the alkaline liquor distributor in the chemical absorbing tower, for the lye point Cloth device provides lye；And the lye pond is connected to the sedimentation basin, regenerates lye recycling for making.

It the purpose of this utility model and solves its technical problem also following technical measures can be used to further realize.

Preferably, it is additionally provided with demister in the chemical absorbing tower, for by the foam and mist in the biogas after sulphur removal Drop removes；The demister is located at the lower section of the gas outlet, the demister is located at the top of the alkaline liquor distributor；Its In, the demister includes:

Cavity is limited, the limit cavity is tubular structure, and the bottom of the limit cavity is provided with multiple ventholes, The drainage silk extended downwardly is provided at each venthole；The open top setting of the limit cavity；

Wire mesh block, the wire mesh block are filled in the limit cavity；

Pressure cover, the pressure cover include pressure ring and Duo Gen press strip；Wherein, pressure ring structure annular in shape, and the pressure Ring is removably connect with the limit cavity；The press strip is located at the pressure ring and encloses in the cavity set, and with it is described Pressure ring connection；Wherein, more press strips are crossed as reticular structure.

Preferably, sprayer-washer is additionally provided in the chemical absorbing tower；Wherein, the sprayer-washer is located at described The top of demister, positioned at the lower section of the gas outlet；The sprayer-washer is used for the water system being connected to outside chemical absorbing tower, Utilize chemical absorbing tower described in high pressure water cleaning；And/or

The chemical absorbing tower includes stainless steel tank body；Wherein, the gas outlet is provided with the top of the stainless steel tank body Portion；The demister, alkaline liquor distributor, filling body, inlet duct, sulfur-bearing lye collection device are sequentially distributed from top to bottom In the stainless cylinder of steel body.

Preferably, the alkaline liquor distributor includes pressure type comb distributor；Wherein, the pressure type comb distributor is logical It crosses pipeline to be connected to the lye pond, makes lye by the spray of the comb side wall on the pressure comb distributor under pressure Mouth sprays；And/or

The inlet duct includes inlet air distribution pipe；Wherein, multiple air inlets are offered on the inlet air distribution pipe, and into Stomata is arranged downward；The inlet air distribution pipe is connect by pipeline with the force (forcing) pump outside the chemical absorbing tower；And/or

The gas outlet is connected with total outlet pipe；Wherein, total outlet pipe respectively with the inlet duct, outlet Pipe connection；Wherein, when the biogas of gas outlet discharge is unqualified, the gas that gas outlet is discharged is again by inlet duct Multiplicating purification is carried out to biogas into chemical absorbing tower；When the biogas qualification of gas outlet discharge, make gas outlet The biogas of discharge flows to escape pipe.

Preferably, the filling body includes:

At least one packing layer, each described filler layer include cylindrical support part and multiple fillers；Wherein, the tubular branch Support member is fixed in the chemical absorbing tower, and the upper open end of the cylindrical support part is connected with wire mesh, the tubular branch The lower open mouth end of support member is connected with wire mesh；Multiple fillers dissipate heap in the cylindrical support part, wire mesh enclose set and At cavity in；

It is aerated layer, is equipped with aeration layer below each packing layer；Wherein, the aeration layer includes aeration tube；The exposure Closed at one end, air compressor of the other end for being connected to outside chemical absorbing tower of tracheae；It is opened below the aeration tube Equipped with multiple solarization air caps；

Wherein, the aeration tube includes the multiple aeration single tubes being sequentially communicated；And multiple aeration single tubes are arranged in parallel；It is described Solarization air cap is evenly arranged；

Wherein, the filler selects Raschig ring filler.

Preferably, the sulfur-bearing lye collection device includes:

Deflector, the deflector is welded on the inner wall of the chemical absorbing tower, and the deflector tilts down setting, And with horizontal direction in set angle α；Wherein, 10 °≤α≤20 °；

Funnel, the funnel are connect with the lower end of the deflector；

Eluate conduit, one end of the eluate conduit are connected to the funnel, and the other end is located at chemical absorbing for being connected to Biological oxidation desulfurization pond outside tower.

Preferably, biological oxidation desulfurization pond includes:

Pond body, the pond body are equipped with inlet and liquid outlet；Wherein, the inlet of the pond body and the sulfur-bearing lye are received Acquisition means connection；There is aerobic thiophilic bacteria in the pond body；

Aerating pipelines, the aeration tube road are laid in the pond body；And the aeration tube road is for being connected to the pond body Outer air compressor, to meet the dissolved oxygen demand of microbial metabolism in the pond body by aeration；

Dissolved oxygen monitoring device, the dissolved oxygen monitoring device include being placed in the intracorporal dissolved oxygen monitoring probe in the pond, are used for The intracorporal dissolved oxygen amount in the pond is detected, to realize the ratio (1.8-2.2) for making the intracorporal dissolved oxygen amount in the pond and sulfur content: 1；

Heating coil, the heating coil are layed in the pond body；

Insulating layer is provided with insulating layer on the outer wall of the pond body；

Temperature monitor and control device, the temperature monitor and control device includes temperature monitoring probe and temperature controller；Institute Temperature monitoring probe is stated to be placed in the pond body；The temperature controller is connect with the heating coil, will be in the pond body Temperature control between 28 DEG C -35 DEG C；

PH monitor controller, the pH monitor controller include be placed in the intracorporal pH monitoring probe in the pond and The controller that lye whether is injected into the pond body for controlling alkali liquid tank, by the control of the intracorporal pH value in the pond in 6.8- 7.5。

Preferably, overflow launder, the overflow launder and the sedimentation basin are provided in the pond body in biological oxidation desulfurization pond Connection, so that the liquid self-flowing in biological oxidation desulfurization pond enters in the sedimentation basin；And/or on edge in the sedimentation basin Set gradually into guiding region, decanting zone, settling zone in the flow direction of liquid；Wherein, the guiding region includes being connected to described sink The deflector of shallow lake pond inner wall；It is provided with bracket in the decanting zone, is mounted with inclined tube on the bracket, to promote fixer point From；The settling zone is pyramidal structure；Wherein, the settling zone is connected with sludge pipe, so that sludge is discharged by sludge pipe；Institute It states and is provided with overflow port on sedimentation basin, wherein the overflow port is arranged to triangular-notch weir, to intercept the surface scum of overflowing liquid.

Preferably, the sedimentation basin is connected to by the overflow port with the lye pond；And/or it is arranged in the lye pond There is a pH monitor controller, the pH monitor controller includes the pH monitoring probe being placed in the lye pond and for controlling Whether alkaline flow container injects the controller of lye into the lye pond.

Preferably, the methane bio-desulfurization system further include: Online Monitoring Control System, the Online Monitoring Control system System is connect with flowmeter, pressure gauge, the analytical instrument on the air inlet pipeline in inlet duct, and to the air inlet in inlet duct It is adjusted；The Online Monitoring Control System is connect with the valve on total outlet pipe on the gas outlet, according to reality The flow direction of border control outlet；Dissolved oxygen monitoring probe, pH in the Online Monitoring Control System and biological oxidation desulfurization pond Dissolved oxygen amount in biological oxidation desulfurization pond, pH value, temperature control are being set model by monitoring probe, temperature monitoring probe In enclosing；The Online Monitoring Control System is connect with the pH monitoring probe in the lye pond, by the pH in the lye pond Value control is within the set range；Wherein, the Online Monitoring Control device includes PLC control system.

Compared with prior art, the methane bio-desulfurization system of the utility model at least have it is following the utility model has the advantages that

The chemical absorbing tower of methane bio-desulfurization system design provided by the embodiment of the utility model passes through by inlet duct Pass through filling body from lower to upper into the biogas in chemical absorbing tower；Filling body is entered by the lye that alkaline liquor distributor sprays In with biogas reverse mass transfer occurs, increase the mass transfer contact of biogas and lye, improve lye to the absorptivity of hydrogen sulfide；And Metabolism of the sulfur bacteria to sulfur-bearing lye is improved by the way that biological oxidation desulfurization pond is separately provided；And by be separately provided sedimentation basin, The lye pond being connected to sedimentation basin can improve the precipitation and separation efficiency of sulfur-bearing sludge and the recycling rate of lye.Therefore, this reality The desulfuration efficiency for applying the methane bio-desulfurization system in example is high, and precipitation and separation is high-efficient and lye can reuse, to drop Low cost, good economy performance.

Further, that installs at the position that the utility model embodiment passes through the close tower top in chemical absorbing tower removes Foam device includes the disk-like structure being rolled by wire mesh, can by outlet foam and droplet remove.Also, the present embodiment removes Foam device can be drained the mist in wire mesh block at drop by the way that drainage silk is arranged at venthole, and de- along drainage filament It falls, mist is avoided to be attached to wire mesh block surface, improve the gas permeability of wire mesh block.

Further, filling body provided by the embodiment of the utility model is aerated by laying in the lower section of each packing layer Layer, flow perturbation caused by the microbubble generated using aeration, the impurity being attached on filler is rinsed out, removes manpower to filling out The disassembly of material is cleared up.

Further, sulfur-bearing lye collection device provided by the embodiment of the utility model in chemical absorbing tower 1 by leaning on The inclined deflector of setting, can play good drainage to sulfur-bearing lye at the position of nearly tower bottom, make sulfur-bearing lye along Deflector flows into conical hopper, further goes out chemical absorbing tower by eluate conduit water conservancy diversion；Above-mentioned setting can not only be real well Sulfur-bearing lye is now guided to biological oxidation desulfurization pond, moreover it is possible to reduce the noise that sulfur-bearing lye flows down tower bottom under the effect of gravity.

Further, biological oxidation desulfurization provided by the embodiment of the utility model pond by design heating coil, insulating layer, Temperature monitor and control device, pH monitor controller, aeration tube and dissolved oxygen monitoring device, by the inner ring in biological oxidation desulfurization pond Border maintains control environment, to make hydrogen sulfide more be oxidized to sulphur simple substance as much as possible, reduces the generation of sulfate.

Further, in sedimentation basin provided in this embodiment the flow direction along liquid set gradually into guiding region, Decanting zone and settling zone；Liquid guide flow is entered in decanting zone by deflector in guiding region, by pacifying on bracket in decanting zone It is equipped with inclined tube, to promote fixer to separate, sludge pipe is discharged again after precipitating precipitating by settling zone；Above-mentioned setting can be really Protect solid-liquid separation effect；The liquid clay content for ensuring that overflow goes out is less.

The above description is merely an outline of the technical solution of the present invention, in order to better understand the skill of the utility model Art means, and can be implemented in accordance with the contents of the specification, below on the preferred embodiment of the present invention and the accompanying drawings in detail It describes in detail bright as after.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram for methane bio-desulfurization system that the embodiments of the present invention provide；

Fig. 2 is a kind of structure cut-away view for demister that the embodiments of the present invention provide；

Fig. 3 is a kind of structural schematic diagram for filling body that the embodiments of the present invention provide；

Fig. 4 is the structure bottom view of the aeration tube in filling body shown in Fig. 3；

Fig. 5 is a kind of structural schematic diagram in biological oxidation desulfurization pond that the embodiments of the present invention provide.

Specific embodiment

Further to illustrate that the utility model is the technical means and efficacy reaching predetermined purpose of utility model and being taken, Below in conjunction with attached drawing and preferred embodiment, to specific embodiment, structure, feature and its function according to the present utility model application Effect, detailed description is as follows.In the following description, what different " embodiment " or " embodiment " referred to is not necessarily same implementation Example.In addition, the special characteristic, structure or feature in one or more embodiments can be combined by any suitable form.

Embodiment 1

The present embodiment provides a kind of methane bio-desulfurization systems, as shown in Figure 1, the methane bio-desulfurization system in the present embodiment System includes: chemical absorbing tower 1, biological oxidation desulfurization pond 2, sedimentation basin 3 and lye pond 4.Specifically, from upper in chemical absorbing tower 1 Gas outlet 11, alkaline liquor distributor 14, filling body 15, inlet duct 16, sulfur-bearing lye collection device 17 are successively arranged under and. Wherein, filling body 15 is passed through by the biogas that inlet duct 16 enters in chemical absorbing tower 1 from lower to upper；By alkaline liquor distributor 14 lye sprayed, which enter in filling body 15, occurs reverse mass transfer with biogas, and the hydrogen sulfide for absorbing lye in biogas obtains Sulfur-bearing lye, purified biogas are discharged from gas outlet 11, and sulfur-bearing lye flows under the influence of gravity into the sulfur-bearing lye and receives In acquisition means 17.Biological oxidation desulfurization pond 2 is connected to sulfur-bearing lye collection device 17, and sulfur-bearing lye is made to enter biological oxidation desulfurization In pond 2, using the desulfurization bacterium in biological oxidation desulfurization pond 2 by the sulfide oxidation in sulfur-bearing lye be elemental sulfur.Sedimentation basin 3 with Biological oxidation desulfurization pond 2 is connected to, and for the efflux in biological oxidation desulfurization pond 2 to be separated by solid-liquid separation, obtains regeneration lye. Lye pond 4 is connected to the alkaline liquor distributor 14 in chemical absorbing tower 1, for providing lye to alkaline liquor distributor 14；And lye pond 4 It is connected to sedimentation basin 3, regenerates lye recycling for making.

The chemical absorbing tower of methane bio-desulfurization system design provided in this embodiment is by entering chemistry by inlet duct Biogas in absorption tower passes through filling body from lower to upper；By alkaline liquor distributor spray lye enter in filling body with biogas Reverse mass transfer occurs, increases the mass transfer contact of biogas and lye, improves lye to the absorptivity of hydrogen sulfide；And by independent Biological oxidation desulfurization pond is set and improves metabolism of the sulfur bacteria to sulfur-bearing lye；And by the way that sedimentation basin and sedimentation basin is separately provided The lye pond of connection can improve the precipitation and separation efficiency of sulfur-bearing sludge and the recycling rate of lye.Therefore, in the present embodiment The desulfuration efficiency of methane bio-desulfurization system is high, and precipitation and separation is high-efficient and lye can reuse, to reduce into This, good economy performance.

Embodiment 2

Preferably, the present embodiment provides a kind of methane bio-desulfurization system, compared with a upper embodiment, such as Fig. 1 and Fig. 2 institute Show, the present embodiment further designs as follows:

It is additionally provided with demister 13 in chemical absorbing tower 1 in the present embodiment, for by the foam in the biogas after sulphur removal It is removed with droplet；Demister 13 is located at the lower section of gas outlet 11, demister 13 is located at the top of alkaline liquor distributor 14；Wherein, it removes Foam device 13 includes: limit cavity 131 and wire mesh block 133；Wherein, limit cavity 131 is tubular structure, and limits cavity 131 bottom is provided with multiple ventholes 1311, and the drainage silk 1312 extended downwardly is provided at each venthole 1311；Limit The open top of cavity 131 is arranged.Wire mesh block 133 is filled in limit cavity 131 and encloses in the cavity being set as (wire mesh block 133 disc-shaped structures are adapted with the inner space of limit cavity)；Pressure cover includes that pressure ring 132 and Duo Gen press strip (do not show Out)；Wherein, the structure annular in shape of pressure ring 132, and the pressure ring 132 is removably connect with limit cavity 131；Press strip It encloses in the cavity set positioned at pressure ring 132, and is connect with pressure ring 132；Wherein, more press strips are crossed as reticular structure.

The demister installed at the position that the present embodiment passes through the close tower top in chemical absorbing tower includes by wire Net volume at disk-like structure, can by outlet foam and droplet remove.Also, the demister of the present embodiment passes through in venthole Place's setting drainage silk can drain the mist in wire mesh block at drop, and along drainage filament fall off, mist be avoided to adhere to On wire mesh block surface, the gas permeability of wire mesh block is improved.

Embodiment 3

Preferably, the present embodiment provides a kind of methane bio-desulfurization system, compared with a upper embodiment, as shown in Figure 1, this Embodiment further designs chemical absorbing tower as follows:

Sprayer-washer 12 is additionally provided in chemical absorbing tower 1 in the present embodiment；Wherein, sprayer-washer 12 is located at and removes The top of foam device 13, positioned at the lower section of gas outlet 11；Chemical absorbing tower 1 is provided with discharge outlet 19；Sprayer-washer 12 is for connecting Tonghua learn absorption tower 1 outside water system 121, using high pressure water cleaning chemical absorbing tower 1 and its inside component, as demister, Alkaline liquor distributor, filling body etc..

Showering washing device is installed, when tower is included at the position that the present embodiment passes through the close top in chemical absorbing tower Impurity effect operational effect when, open wash mill, wash demister and alkaline liquor distributor etc. using high pressure water flushing, and in tower Water is filled, the cleaning to whole device is completed, after cleaning, sewage is discharged by discharge outlet.

In addition, the chemical absorbing tower in the present embodiment includes stainless steel tank body；Wherein, gas outlet 11 is provided with described stainless The top of cylinder of steel body；Demister 13, alkaline liquor distributor 14, filling body 15, inlet duct 16, sulfur-bearing lye collection device 17 from Top to bottm is sequentially distributed in the stainless cylinder of steel body.

Preferably, alkaline liquor distributor 14 includes pressure type comb distributor；Wherein, pressure type comb distributor include: into Liquid mouth 141, liquid level tube 142, liquid dispensing tube 143 and comb 144.Pressure type comb distributor (is arranged by pipeline on pipeline Have force (forcing) pump) it is connected to lye pond 4, make lye by the nozzle of the comb side wall on pressure type comb distributor under pressure It sprays.

Preferably, inlet duct 16 includes inlet air distribution pipe；Wherein, multiple air inlets are offered on inlet air distribution pipe, and Air inlet is arranged downward, and setting in this way improves gas distribution performance.Inlet air distribution pipe passes through outside UPVC pipeline and chemical absorbing tower Force (forcing) pump 18 connect, in this way, realize flow biogas from bottom to top.

Preferably, gas outlet 11 is connected with total outlet pipe；Wherein, total outlet pipe is filled with air inlet respectively by pipeline It sets, escape pipe connection；Wherein, when the biogas of gas outlet discharge is unqualified, the gas that gas outlet is discharged is again by first Pipeline 112 is connected to inlet duct and enters in chemical absorbing tower and carry out multiplicating purification to biogas；When the gas outlet is discharged Biogas qualification when, make gas outlet be discharged biogas flow to escape pipe 111.

Embodiment 4

Preferably, the present embodiment provides a kind of methane bio-desulfurization system, compared with a upper embodiment, such as Fig. 1, Fig. 3 and Shown in Fig. 4, the present embodiment further designs the filling body 15 in chemical absorbing tower 1 as follows:

Filling body 15 includes at least one packing layer, is provided with aeration layer below each packing layer.Wherein, each to fill out The bed of material includes cylindrical support part 151 and multiple fillers 153；Wherein, cylindrical support part 151 is fixed in chemical absorbing tower 1, tubular The upper open end of supporting element 151 is connected with wire mesh 153, the lower open mouth end of cylindrical support part 151 is connected with wire mesh 153；Multiple fillers 153 dissipate heap and enclose in cavity made of setting in cylindrical support part 151, wire mesh 153.Filler 153, which is selected, to be drawn Western ring filler.Specifically, Raschig ring filler includes Raschig ring ontology, and offers hole on Raschig ring ontology；And Raschig ring ontology Including inner ring and outer rings；Wherein, inner ring and outer rings are connected by dowel；Wherein, hole is provided on the wall of outer ring.

Filling body provided in this embodiment is generated by laying aeration layer in the lower section of each packing layer using aeration Flow perturbation caused by microbubble rinses out the impurity being attached on filler, removes manpower from and clears up the disassembly of filler.

Preferably, aeration layer includes aeration tube 154, aeration tube 154 it is closed at one end, the other end is located at chemistry for being connected to Air compressor outside absorption tower；The lower section of aeration tube 154 offers multiple solarization air caps 1541.Solarization air cap is evenly arranged.Wherein, Aeration tube 154 includes sequentially connected aeration single tube；And aeration single tube is arranged in parallel, so that aeration layer is in multilayer folding tubulose knot Structure.It is arranged in this way, the area of aeration layer can be increased, increase the aeration quantity of unit area, improves the cleaning to packing layer Efficiency.

Embodiment 5

Preferably, the present embodiment provides a kind of methane bio-desulfurization systems, compared with above-described embodiment, as shown in Figure 1, this Embodiment further designs sulfur-bearing lye collection device 17 as follows:

Sulfur-bearing lye collection device 17 in the present embodiment includes: deflector 171, funnel 172 and eluate conduit 173.Its In, deflector 171 is welded on the inner wall of chemical absorbing tower 1, and deflector 171 tilts down setting, and is in set with horizontal direction Determine angle [alpha]；Wherein, 10 °≤α≤20 °；Preferably 15 °.Funnel 172 is connect with the lower end of deflector 171；Eluate conduit 173 One end is connected to funnel 172, and the other end is used to be connected to the biological oxidation desulfurization pond 2 for being located at chemical absorbing tower outer 1.

Sulfur-bearing lye collection device provided in this embodiment in chemical absorbing tower 1 at the position of tower bottom by being arranged Inclined deflector can play good drainage to sulfur-bearing lye, and sulfur-bearing lye is made to flow into conical hopper along deflector In, chemical absorbing tower is further gone out by eluate conduit water conservancy diversion；Above-mentioned setting can not only be realized well and be guided to sulfur-bearing lye Biological oxidation desulfurization pond, moreover it is possible to reduce the noise that sulfur-bearing lye flows down tower bottom under the effect of gravity.

Embodiment 6

Preferably, the present embodiment provides a kind of methane bio-desulfurization systems, compared with above-described embodiment, such as Fig. 1 and Fig. 5 institute Show, the present embodiment further designs biological oxidation desulfurization pond as follows:

Biological oxidation desulfurization pond 2 in the present embodiment includes: that pond body 20, aerating pipelines 24, dissolved oxygen monitoring device (are not shown Out), heating coil 202, insulating layer 201, temperature monitor and control device 21 and pH monitor controller.

Pond body 20 is equipped with inlet 28 and liquid outlet 29 (preferably, inlet, liquid outlet are respectively provided with rectangular weir)；Its In, the inlet 28 of pond body 20 is connected to sulfur-bearing lye collection device 17；Nutritious liquid in pond body 20, containing aerobic in nutrient solution Thiophilic bacteria.

Aerating pipelines 24 are laid in the pond body 20；And the sky that the aeration tube road 24 is used to be connected to outside the pond body 20 Air compressor 25, to meet the dissolved oxygen demand of microbial metabolism in the pond body 20 by aeration.

Dissolved oxygen monitoring device includes the dissolved oxygen monitoring probe being placed in pond body 20, for detecting in the pond body 20 Dissolved oxygen amount makes the ratio (1.8-2.2) of the dissolved oxygen amount in the pond body 20 and sulfur content to realize: 1.Preferably, design one Controller, controller control the unlatching of air compressor 25 according to dissolved oxygen amount, and realizing makes dissolved oxygen amount in the pond body 20 and contain The ratio of sulfur content is (1.8-2.2): 1, so that hydrogen sulfide is more oxidized to sulphur simple substance, reduces the generation of sulfate.

Preferably, heating coil 202 is layed in the pond body 20；Preferably, the bottom of pond body 20, side wall are equipped with Heating coil 202, in this way setting can make the intracorporal temperature in pond uniform as much as possible.Insulating layer is provided on the outer wall of pond body 20 201, to reduce the heat dissipation capacity of pond body 20.Temperature monitor and control device includes temperature monitoring probe 22 and temperature controller 21；Institute Temperature monitoring probe 22 is stated to be placed in the pond body 20；The temperature controller 21 is connect with the heating coil 202, by institute The temperature stated in pond body 20 controls between 28 DEG C -35 DEG C, provides control environment for the biological metabolism activity of desulfurization bacterium.Preferably Ground, temperature measuring probe 22 are arranged multiple, are distributed at the intracorporal different location in pond, accurately to determine the intracorporal temperature in pond Degree.

PH monitor controller includes being placed in the intracorporal pH monitoring probe 27 in the pond and for whether controlling alkali liquid tank 5 The controller of lye is injected into the pond body, here, controller is according to the pH value detected, control connection alkali liquid tank and pond Whether the valve 52 on the pipeline 51 of body is opened, by the intracorporal pH value control in the pond in 6.8-7.5.

Preferably, being provided with overflow launder in the pond body 20 in biological oxidation desulfurization pond, the overflow launder and the sedimentation basin connect It is logical, so that the liquid self-flowing in biological oxidation desulfurization pond enters in the sedimentation basin.

Biological oxidation desulfurization provided in this embodiment pond by design heating coil, insulating layer, temperature monitor and control device, The interior environment in biological oxidation desulfurization pond is maintained control environment by pH monitor controller, aeration tube and dissolved oxygen monitoring device, To make hydrogen sulfide more be oxidized to sulphur simple substance as much as possible, the generation of sulfate is reduced.

Embodiment 7

Preferably, the present embodiment provides a kind of methane bio-desulfurization systems, compared with above-described embodiment, as shown in Figure 1, this Embodiment further designs sedimentation basin 3, lye pond 4 (also referred to as lean solution pond) as follows:

Preferably, guiding region, decanting zone, settling zone are set gradually into sedimentation basin 3 in the flow direction along liquid；Its In, the guiding region includes the deflector 31 for being connected to the sedimentation basin inner wall, is provided with bracket in decanting zone, is disposed on bracket There is inclined tube 32, to promote fixer to separate；Settling zone is pyramidal structure；Wherein, settling zone is connected with sludge pipe, so that sludge is logical Cross sludge pipe discharge；Overflow port 35 is provided on the sedimentation basin, wherein overflow port 35 is arranged to triangular-notch weir, to intercept overflow The surface scum of liquid.Specifically, sedimentation basin includes to match liquid guiding region, decanting zone, settling zone.Sedimentation basin inner wall welds deflector, Optimize fluid flow characteristics, guarantees effect of settling.Rectangle support is welded in sedimentation basin, disposes plastic pipe chute, and inclination angle is 60 degree, is promoted Into separation of solid and liquid.Settling zone is pyramidal structure, and precipitating sludge is discharged by perforated sludge discharge pipe.

Guiding region, decanting zone are set gradually into the flow direction along liquid in sedimentation basin provided in this embodiment and are sunk Shallow lake area；Liquid guide flow is entered in decanting zone 31 by deflector 31 in guiding region, by being mounted on bracket in decanting zone 31 Inclined tube 32, to promote fixer to separate, sludge pipe is discharged again after precipitating precipitating by settling zone；Above-mentioned setting can ensure that Solid-liquid separation effect；The liquid clay content for ensuring that overflow goes out is less.

Preferably, sedimentation basin 3 is connected to by the overflow port 35 with the lye pond 4.Preferably, the position of overflow port 35 It maintains at the position of sedimentation basin upper end.

Preferably, being provided with pH monitor controller in lye pond 4, the pH monitor controller is described including being placed in PH monitoring probe in lye pond and the controller that lye whether is injected into the lye pond for controlling alkali liquid tank 6, in real time Lye pH is between 7.8-8.5 in regulation pond.Lye pond 4 is connected to by pipeline with alkaline liquor distributor 4, and is provided on the pipeline Force (forcing) pump 41.

Embodiment 8

Preferably, the present embodiment provides a kind of methane bio-desulfurization systems, compared with above-described embodiment, in the present embodiment Methane bio-desulfurization system further includes Online Monitoring Control System.Pass through Online Monitoring Control System (including PLC and on-line monitoring Instrument) entire process flow is monitored in real time, realize full autocontrol operation.

For example, Online Monitoring Control System and flowmeter, the pressure gauge, constituent analysis on the air inlet pipeline in inlet duct Instrument connection, and the air inlet in inlet duct is controlled；Always going out at the Online Monitoring Control System and the gas outlet Analytical instrument, valve connection on air pipe, according to the flow direction of outlet Composition Control outlet；The Online Monitoring Control system System and dissolved oxygen monitoring probe, the pH monitoring probe, temperature monitoring probe in biological oxidation desulfurization pond, by the biological oxygen Change the dissolved oxygen amount in desulfurization pond, pH value, temperature to control within the set range；The Online Monitoring Control System and the lye pond In pH monitoring probe connection, by the lye pond pH value control within the set range.

To sum up, the process route of methane bio-desulfurization system provided by the above embodiment are as follows: biogas is pumped in gas pressurized Effect is lower to enter chemical absorbing tower packing bottom by inlet duct, under pressure, from lower to upper uniformly through packing layer. Lye is sprayed into tiny droplet by the drive nozzle of chemical absorbing tower upper liquid distributor and lands, and reverse pass occurs with biogas Matter, so that purified biogas is discharged after demister from the gas outlet of tower top by the hydrogen sulfide absorption in biogas.It absorbs Lye after hydrogen sulfide passes through sulfur-bearing lye collection device under the effect of gravity and flows into biological oxidation desulfurization pond, using therein good Sulfide oxidation is elemental sulfur by oxygen thiophilic bacteria.Biological desulphurization pond goes out liquid and is entered in sedimentation basin by overflow launder, through precipitating point Regeneration lye is obtained from effect.Regeneration lye is entered in lean solution pond in sedimentation basin by overflow pipe, after regulating and controlling pH, is followed through lye Ring, which is pumped to, to be repeated to spray in the alkaline liquor distributor of chemical absorbing top of tower.In addition, when attachment impurity effect operation effect in tower When fruit, wash mill is opened, washes demister and alkaline liquor distributor etc. using high pressure water flushing, and fill water in tower, completed to whole After cleaning, sewage is discharged by discharge outlet for the cleaning of a device.

In addition, biogas flow 5000m³/ d, air inlet H₂S concentration 3000-5000ppm, it is desirable that outlet H₂S concentration is not more than When 200ppm, each unit service condition is as follows: packed absorber is having a size of 550 × 8500mm of Ф.Aeration zone: superelevation 0.6m, water Deep 2.5m, hydraulic detention time 2.5h, the blow rate required: 12.84m³/h.Length and width all take the settling zone 6m: superelevation 0.3m, with aeration zone water Potential difference 0.2m, sedimentation time 1.5h.

To sum up, the chemical absorbing tower of methane bio-desulfurization system design provided by the embodiment of the utility model passes through by air inlet The biogas that device enters in chemical absorbing tower passes through filling body from lower to upper；Filler is entered by the lye that alkaline liquor distributor sprays Reverse mass transfer occurs with biogas in mechanism, increases the mass transfer contact of biogas and lye, improves lye to the absorptivity of hydrogen sulfide； And metabolism of the sulfur bacteria to sulfur-bearing lye is improved by the way that biological oxidation desulfurization pond is separately provided；And by the way that precipitating is separately provided Pond, the lye pond being connected to sedimentation basin can improve the precipitation and separation efficiency of sulfur-bearing sludge and the recycling rate of lye.Therefore, originally The desulfuration efficiency of methane bio-desulfurization system in embodiment is high, and precipitation and separation is high-efficient and lye can reuse, thus It reduces costs, good economy performance.

The above descriptions are merely preferred embodiments of the present invention, not makees in any form to the utility model Limitation, any simple modification, equivalent change and modification made by the above technical examples according to the technical essence of the present invention, It is still within the scope of the technical solutions of the present invention.

Claims (10)

1. a kind of methane bio-desulfurization system, characterized in that it comprises:

Chemical absorbing tower, be successively arranged in the chemical absorbing tower from top to bottom gas outlet, alkaline liquor distributor, filling body, into Device of air, sulfur-bearing lye collection device；Wherein, the biogas in the chemical absorbing tower is entered from lower to upper by the inlet duct Pass through the filling body；Entered by the lye that the alkaline liquor distributor sprays and reverse pass occurs in the filling body with biogas Matter, the hydrogen sulfide for absorbing lye in biogas obtain sulfur-bearing lye, and purified biogas is discharged from the gas outlet, sulfur-bearing alkali Liquid flows under the influence of gravity into the sulfur-bearing lye collection device；

Biological oxidation desulfurization pond, biological oxidation desulfurization pond are connected to the sulfur-bearing lye collection device, make sulfur-bearing lye into Enter in biological oxidation desulfurization pond, using the desulfurization bacterium in biological oxidation desulfurization pond by the sulfide oxygen in sulfur-bearing lye Turn to elemental sulfur；

Sedimentation basin, the sedimentation basin are connected to biological oxidation desulfurization pond, for by the stream in biological oxidation desulfurization pond Liquid is separated by solid-liquid separation out, obtains regeneration lye；

Lye pond, the lye pond are connected to the alkaline liquor distributor in the chemical absorbing tower, for the alkaline liquor distributor Lye is provided；And the lye pond is connected to the sedimentation basin, regenerates lye recycling for making.

2. methane bio-desulfurization system according to claim 1, which is characterized in that be additionally provided in the chemical absorbing tower Demister, for by the biogas after sulphur removal foam and droplet remove；The demister is located at the lower section of the gas outlet, institute State the top that demister is located at the alkaline liquor distributor；Wherein, the demister includes:

Cavity is limited, the limit cavity is tubular structure, and the bottom of the limit cavity is provided with multiple ventholes, each The drainage silk extended downwardly is provided at the venthole；The open top setting of the limit cavity；

Wire mesh block, the wire mesh block are filled in the limit cavity；

Pressure cover, the pressure cover include pressure ring and Duo Gen press strip；Wherein, pressure ring structure annular in shape, and the pressure ring with The limit cavity removably connects；The press strip is located at the pressure ring and encloses in the cavity set, and with the pressure ring Connection；Wherein, more press strips are crossed as reticular structure.

3. methane bio-desulfurization system according to claim 2, which is characterized in that be additionally provided in the chemical absorbing tower Sprayer-washer；Wherein, the sprayer-washer is located at the top of the demister, positioned at the lower section of the gas outlet；It is described Chemical absorbing tower is provided with discharge outlet；The sprayer-washer is used for the water system being connected to outside chemical absorbing tower, utilizes high pressure water Clean the chemical absorbing tower；And/or

The chemical absorbing tower includes stainless steel tank body；Wherein, the gas outlet is provided with the top of the stainless steel tank body；Institute Demister, alkaline liquor distributor, filling body, inlet duct are stated, sulfur-bearing lye collection device is sequentially distributed from top to bottom described In stainless cylinder of steel body.

4. methane bio-desulfurization system according to claim 1, which is characterized in that the alkaline liquor distributor includes pressure type Comb distributor；Wherein, the pressure type comb distributor is connected to by pipeline with the lye pond, makes alkali under pressure Liquid is sprayed by the nozzle of the comb side wall on the pressure type comb pressure type comb distributor；And/or

The inlet duct includes inlet air distribution pipe；Wherein, multiple air inlets, and air inlet are offered on the inlet air distribution pipe It is arranged downward；The inlet air distribution pipe is connect by pipeline with the force (forcing) pump outside the chemical absorbing tower；And/or

The gas outlet is connected with total outlet pipe；Wherein, total outlet pipe connects with the inlet duct, escape pipe respectively It connects；Wherein, when the biogas of gas outlet discharge is unqualified, the gas that gas outlet is discharged enters again by inlet duct Multiplicating purification is carried out to biogas in chemical absorbing tower；When the biogas qualification of gas outlet discharge, gas outlet is discharged Biogas flow to escape pipe.

5. methane bio-desulfurization system according to claim 1, which is characterized in that the filling body includes:

At least one packing layer, each described filler layer include cylindrical support part and multiple fillers；Wherein, the cylindrical support part It is fixed in the chemical absorbing tower, the upper open end of the cylindrical support part is connected with wire mesh, the cylindrical support part Lower open mouth end be connected with wire mesh；Multiple fillers dissipate heap and enclose made of setting in the cylindrical support part, wire mesh In cavity；

It is aerated layer, is equipped with aeration layer below each packing layer；Wherein, the aeration layer includes aeration tube；The aeration tube It is closed at one end, the other end is used for air compressor be connected to outside the chemical absorbing tower；It is offered below the aeration tube Multiple solarization air caps；

Wherein, the aeration tube includes the multiple aeration single tubes being sequentially communicated；And multiple aeration single tubes are arranged in parallel；The aeration Hole is evenly arranged；

Wherein, the filler selects Raschig ring filler.

6. methane bio-desulfurization system according to claim 1, which is characterized in that the sulfur-bearing lye collection device packet It includes:

Deflector, the deflector are welded on the inner wall of the chemical absorbing tower, and the deflector tilts down setting, and with Horizontal direction is in set angle α；Wherein, 10 °≤α≤20 °；

Funnel, the funnel are connect with the lower end of the deflector；

Eluate conduit, one end of the eluate conduit are connected to the funnel, and the other end is located at outside chemical absorbing tower for being connected to Biological oxidation desulfurization pond.

7. methane bio-desulfurization system according to claim 1, which is characterized in that biological oxidation desulfurization pond includes:

Pond body, the pond body are equipped with inlet and liquid outlet；Wherein, the inlet of the pond body and the sulfur-bearing lye, which are collected, fills Set connection；There is aerobic thiophilic bacteria in the pond body；

Aerating pipelines, the aeration tube road are laid in the pond body；And the aeration tube road is for being connected to outside the pond body Air compressor, to meet the dissolved oxygen demand of microbial metabolism in the pond body by aeration；

Dissolved oxygen monitoring device, the dissolved oxygen monitoring device includes being placed in the intracorporal dissolved oxygen monitoring probe in the pond, for monitoring The intracorporal dissolved oxygen amount in the pond out makes the ratio (1.8-2.2) of the intracorporal dissolved oxygen amount in the pond and sulfur content to realize: 1；

Heating coil, the heating coil are layed in the pond body；

Insulating layer is provided with insulating layer on the outer wall of the pond body；

Temperature monitor and control device, the temperature monitor and control device includes temperature monitoring probe and temperature controller；The temperature Degree monitoring probe is placed in the pond body；The temperature controller is connect with the heating coil, by the intracorporal temperature in the pond Degree control is between 28 DEG C -35 DEG C；

PH monitor controller, the pH monitor controller include being placed in the intracorporal pH monitoring probe in the pond and for controlling Whether alkaline flow container injects the controller of lye into the pond body, by the intracorporal pH value control in the pond in 6.8-7.5.

8. methane bio-desulfurization system according to claim 7, which is characterized in that the pond body in biological oxidation desulfurization pond On be provided with overflow launder, the overflow launder is connected to the sedimentation basin, so that the liquid self-flowing in biological oxidation desulfurization pond Into in the sedimentation basin；And/or

Guiding region, decanting zone, settling zone are set gradually into the sedimentation basin in the flow direction along liquid；Wherein, described to lead Flowing area includes the deflector for being connected to the sedimentation basin inner wall；It is provided with bracket in the decanting zone, is mounted on the bracket Inclined tube, to promote fixer to separate；The settling zone is pyramidal structure；

Wherein, the settling zone is connected with sludge pipe, so that sludge is discharged by sludge pipe；Overflow is provided on the sedimentation basin Mouthful, wherein the overflow port is arranged to triangular-notch weir, to intercept the surface scum of overflowing liquid.

9. methane bio-desulfurization system according to claim 8, which is characterized in that the sedimentation basin passes through the overflow port It is connected to the lye pond；And/or

PH monitor controller is provided in the lye pond, the pH monitor controller includes being placed in the lye pond PH monitoring probe and for control alkali liquid tank whether into the lye pond inject lye controller.

10. -9 described in any item methane bio-desulfurization systems according to claim 1, which is characterized in that the biogas biology is de- Sulphur system further include:

The flowmeter on air inlet pipeline, pressure in Online Monitoring Control System, the Online Monitoring Control System and inlet duct Power table, analytical instrument connection, and the air inlet in inlet duct is controlled；The Online Monitoring Control System and it is described go out The analytical instrument on total outlet pipe, valve connection at port, according to the flow direction of outlet Composition Control outlet；It is described Dissolved oxygen monitoring probe, pH monitoring probe, temperature monitoring probe in line monitor control system and biological oxidation desulfurization pond, with Dissolved oxygen amount in biological oxidation desulfurization pond, pH value, temperature are controlled within the set range；The Online Monitoring Control System It is connect with the pH monitoring probe in the lye pond, within the set range by the pH value control in the lye pond；

Wherein, the Online Monitoring Control device includes PLC control system.