CN87211960U - Pulse combustion energy system - Google Patents

Abstract

The utility model relates to a pulse combustion energy system. A pulse combustor of the utility model is connected with a work pipe for flowing treated materials. The work pipe is connected with a pair of rotational flow collectors. Steam in the collectors is conveyed back to the upper end of the work pipe by a recirculation part. The pulse combustor is provided with a rotary valve, a combustion chamber, an inner tail pip and an outer tail pipe, wherein the combustion chamber and the inner tail pipe have cone-shaped cross sections, are arranged in a longitudinal pressing mode and are connected by a positioning plate. The rotary valve forms an inner cavity by three tightly assembled cylinders which are all provided with radical aligning holes which form an air inlet. Air enters the combustion chamber from the hollow chamber through a unidirectional annular passage. A control system controls product feeding, system ignition, system flow and the work frequency of the pulse combustor.

Description

Pulse combustion energy system

The utility model is about drying equipment, and particularly a kind of new drying equipment, the material that is dried are wherein atomized by the stream of pulses of thermal current and is dry.

Common burning drying device is used for many years.This class device is widely used for dehumidifying for the solid material that suspends or be dissolved in the fluid.Say that typically liquid is atomized, resulting spraying is in from the thermal current that combustion method obtains, and (for example obtaining from air heater or pulse burner) is so that the moisture evaporation the spraying.The solids air-flow that is dried brings out from hothouse, separates by cyclone is gentle.

Two kinds of pulse burners are arranged.First kind is valve type pulse burner, and wherein the engine of V-1 fly bomb type is well-known example.Second kind is the air valve pulse burner, and it utilizes pulse energy to aspirate combustion air.The well-known example of this pattern is to cover the air valve engine that Lockwood (Mr.Raymond Lockwood) development is come out by thunder, and is disclosed in his many patents, and for example United States Patent (USP) 3,462,955.

The air valve pulse burner comprises a combustion chamber that has fuel to enter, the combustion chamber import of short tube shape and a combustor tail tube more longer than combustion chamber import.Fuel is pressurized atomizing in the combustion chamber, and when reaching suitable blast mixability, spark plug is just lighted it and done initial start-up.Fuel and air burst, combustion gas is from inlet tube and outlet ejection.Energy that time blast discharges just provides thrust or power from coming out in the combustion chamber when these two shock waves.Before second shock wave came out from tail pipe, a shock wave had just come out from short combustion chamber inlet tube.

The impulse force of comburant causes partial vacuum in the combustion chamber, and then causes the backflow of import and tail pipe.This backflow is brought fresh air into combustion chamber, at this, and the hot gas mixing that air just refluxes with the fuel of newly coming in and in tail pipe and.The impulse force that refluxes forms low pressure in the combustion chamber, fuel, air and comburant are mixed well.Mixture produces from lighting, and this process repeated in the kind 100 times at one second.

Current most pulse-combustion system's employing air valve engine does not have machinery to move other part simply again because its is made.Yet air valve system will be aspirated the required combustion air of fuel blast subsequently with the energy that obtains of big percentage from combustion process.Even the higher trust engine of efficient can be made by increasing the thrust assistor by this system, the suction energy that combustion air consumed reduces the gross energy of acquisition, and overall system efficiency is reduced.

Valve type pulse burner adopts the identical theory of combustion, is positioned at the combustion chamber inlet side except it has (tongue piece, hyoplastron, or original rotary-type) valve of a machinery, in order to prevent the backflow of any comburant from the inlet tube ejection.Valve fuel/air mixture mix finish the stage and explosion time is closed, so all comburant is gone out from tail pipe, shock wave is gone out earlier.Yet these valve type systems are because valve must open and close in each burn cycle under the environment of the heat of engine intake, and the per second kind reaches 100 times, so actual life is limited.

Also having a problem that influences two kinds of pattern pulse burner engine lives is the corrosion of the combustion gas of heat.Each of bearing the hottest temperature in system part in addition damaged soon, need to these in addition part carry out the repairing and the replacing of frequent costliness.Owing in the system these in addition the unable to bear stress with temperature of machinery of parts destroy, so attempt to make these parts in addition with erosion resistant, as with high-class stainless steel or Inconel, success already.Attempt to make these other parts with ceramic material and but failed, because make with existing processes, cost is too high.The main cause that the ceramic structure cost is high is that element must be made thick section earlier, and reprocessing forms flange, the hole, or the like.This method has been wasted the artificial of expensive ceramic material and costliness, also will adopt advanced cutter and cutting technology.

The efficient of drying apparatus with pulse combustion device depends on its operating characteristic to a great extent.For example, operating frequency influence is by the flow velocity (also being drying time) of system, and the amplitude of sound blaster or pressure must and given material proportional because the pressure over-drying or damaged material of conference too, and pressure too for a short time make dry insufficient.

Present various systems only work under the natural frequency of pulse burner, and it is determined by blast pipe length.Therefore, the change of operating frequency (also being rate of drying) need be by expensive system reconstruction.Each system often runs into when expecting maximal efficiency when this carries out drying to certain types of materials.Have, because the natural frequency of pulse burner also depends on the velocity of sound, variations in temperature can change natural frequency in the burner again.Because natural frequency departs from the frequency of the desirable operation of pulse burner, the amplitude of pressure wave reduces, and be increased on the level that can receive the drying time of certain product.The result makes dry run inhomogeneous and inefficient.

Another shortcoming of each present system is the standard (OSHA standards) that can not meet the labour protection regulation for safety.External noise is that the industrial pulse burner of not welcoming is as the main cause that can select the energy for use, because environmental noise can be above 120 decibels.

At last, because overheated in the work, the too much fuel during starting gathers, and too many oxygen is arranged in dry gas stream and causes the burning of dry products the danger of blast is often arranged.

The utility model is a drying apparatus with pulse combustion device, and its function is that the solid material that suspends or be dissolved in the fluid is restored.In an embodiment of the present utility model, pulse burner is connected to a service pipe, and this pipeline is connected to a pair of eddy flow gatherer again.

Processed material is sent into the upstream extremity of instrumentation tubes by stream, and the material of handling well is told from combustion-gas flow with the eddy flow gatherer.

The downstream of service pipe is to constitute like this, and promptly the ping of sending from pulse burner is by reflected back partly, and a part presents with the standing wave pattern, and this has improved working (machining) efficiency.Service pipe comprises that also a harmonic device (so that amplitude of manual adjustment ping) and a series of muffler are in order to noise reduction.A decoupler (decoupler) is positioned at the upstream extremity of service pipe, and the spontaneous combustion frequency of permission burner can not adopt the reconstruction of expensive system and change.

Drying apparatus with pulse combustion device can be equipped with recycle sections, and the steam that enters the eddy flow gatherer is recirculated into the service pipe upstream portion, and this is the occasion occasion of maximal regulated ratio especially that is used to load variations when system.The recirculation steam bring in the system oxygen seldom, minimum is reduced in the danger that institute blasts so that there be not the burning of combustion fuel or converted products.

Pulse burner of the present utility model has adopted rotary valve, and it has an overcoat, one and overcoat intermediate sleeve concentric and that be connected to CD-ROM drive motor, one and the concentric interior cover of intermediate sleeve.Near the end of the interior cover of CD-ROM drive motor be sealing to prevent because the axial load of the CD-ROM drive motor that the burning back pressure causes.Three all covers all have the hole of radial arrangement, have formed the import of air, these hole substantial registration when intermediate sleeve is in the position of rotation of a regulation.The speed of CD-ROM drive motor is variable to regulate the air pulse flow velocity by rotary valve.This can change by action need with regard to the operating frequency that makes pulse burner.Oxidant, promptly flow into the air flow combustion chamber of rotary valve, pass " the air diode " of an annular, it is to constitute like this, promptly the fluid that flows to entrance point from the port of export has very big obstruction, and it is little to flow to the fluid obstacle of the port of export from entrance point, like this, has reduced the back pressure on the rotary valve thereby has prolonged life-span of valve greatly.Rotary valve has also been eliminated the needs that the energy that consumes big percentage from combustion process to aspirate for follow-up fuel blast combustion air.

In order to reduce the corrosiveness of hot combustion gas, combustion chamber and middle tail pipe are made with pottery.Pulse burner suitably is installed can make moment of flexure and thermal stress on each other part reduce to minimum.The elimination of moment of flexure is because the pulse burner is put into vertical compression in the burner installation room, and owing to there is a positioning plate device externally to transmit the compression stress at combustion chamber and middle tail tube joint place, this place can produce moment of flexure, reducing of thermal stress is not with holes owing to the tail pipe of combustion chamber and beginning is made, the taper of flange or other rough region and tubular section.This structure has also been got rid of elder generation and parts are cast the heavy wall section is reprocessed into flange, the hole, or the like needs.This method has been wasted expensive ceramic material, the artificial and employing advanced person's that needization are expensive instrument and cutting technology.Owing to eliminated these considerable surcharges, the pulse burner made from ceramic material against corrosion commercial become feasible.

Owing to used control system, operating flexibility and security are increased, control system is regulated product feed rate, the speed of ignition of system, the flow velocity of system, and the operating frequency of pulse burner.When normal running, fuel burner in the system can be aligned is lighting air atomizing oil, and this has further increased peace, owing to guaranteed after first burning betides between oil and the atomizing air, when mixture is gone into the combustion chamber of heat by feed, can blast in time.At last, owing to noise stop device has increased security to the regulation that external noise is suppressed to above OSHA.

Fig. 1 is the sectional side view that shows the preferential embodiment of the utility model.

Fig. 2 A is the sectional side view of pulse-combustion engine among Fig. 1.

Fig. 2 B is another embodiment of pulse-combustion engine among Fig. 2 A.

Fig. 3 A is a sectional side view of the rotary valve that uses in the pulse-combustion engine among Fig. 2 A.

Fig. 3 B be the rotary valve that uses in the pulse-combustion engine among Fig. 2 A outside, the decomposition sectional side view of centre and interior cover.

Fig. 4 is the combustion chamber of Fig. 2 A and the detailed view of the bindiny mechanism that interior tail is applied mechanically.

Fig. 5 is the sketch of the flame safety system that uses among the preferential embodiment of the present utility model.

Fig. 6 is the sketch of the operation control system used among the preferential embodiment of the present utility model.

Fig. 7 is the sectional side view of another embodiment of the present utility model.

The new-type drying apparatus with pulse combustion device 4 that Fig. 1 shows.Drying apparatus with pulse combustion device 4 comprises that a working portion 8 and one accept part 12.A product feeding system 16 is connected to working portion 8, want material processed to import working portion 8 with handle, and have an air to pump into device 18, it has combustion air control retaining 17, by the air suction is filtered clean muffler 19 through air intlet, to the system supply combustion air.

Working portion 8 comprises a shell 20, and it is lined with sound-absorbing material to reduce the external noise level of system.Being placed in the shell 20 is burner installation room 24, and pulse burner 28 is equipped with in its inside.

The instrumentation tubes 32 that has upstream portion 33 and a discharge section 34 also is placed within the shell 20 and is connected to pulse burner 28.Discharge section 34 has a contraction flow region 36, so partly reflected back from the ping of pulse burner 28, a part just forms standing wave.There is an adjustable harmonic device 40 upstream of contraction flow region 36, and it has the pistons 44 that can regulate from shell 20 outsides.Adjustable piston 44 allows operators that the amplitude of standing wave is regulated, and can turn down stage to the back wave complete attenuation so that do not produce standing wave by maximum.

There is an abatement device 46 in the downstream of contraction flow region 36, and it is designed to suppress to enter the high strength sound equipment of accepting part 12 prior to steam and the work particle instrumentation tubes 32 of flowing through.Abatement device 46 comprises that is subdued a cover 45, and there are a plurality of movably sound panels 47 its inside, and they form a plurality of anechoic chambers 48.Each sound panel 47 can axially be regulated with the volume that changes anechoic chamber 48 to be fit to specific effect.But the top 51 of each sound panel 46 is variation lengths, and this just further changes the volume of anechoic chamber 48.In the bottom of each sound panel 47 reflector 49 is arranged, its shape is made into makes each anechoic chamber 48 can form the contraction and the aperture opening ratio of regulation.The particle that the lower surface 50 of each reflector 49 is made into the instrumentation tubes 32 that guarantees to flow through is driven into each chamber 48 from the import reflection.

Be connected instrumentation tubes 32 discharge section 34 be to accept part 12, it comprises one first eddy flow gatherer 52, gatherer 52 is connected to the second eddy flow gatherer 56 by muffler 54, and gatherer 56 has a bag shape cover 60, and it comprises a plurality of textile bags 61 that place the top.Eddy flow gatherer 52 and 56 is all insulated fully to reduce the noise of their outsides.In the bottom of each eddy flow gatherer 52,56 are star valves (star valves) 62,63, are used for separately manufactured product is discharged into converted products transfer system 64.What place the second eddy flow gatherer, 56 tops is a return fan 66, in order to off and on air inversion is blown through each textile bags 61.

Be connected to the second eddy flow gatherer 56 outlet 68 be an induction ventilation blower 69, it is designed to extract moisture and combustion productses out by accepting part 12, then their is pushed by muffler 70 and chimney 71.A recycle sections of selecting for use 72 also is connected to outlet 68, it has conduit 73 and 74, recirculation air service pipe 75, and the occasion that recirculation blower 76 is used to load variations and needs the maximal regulated ratio when drying apparatus with pulse combustion device, this blower fan 76 makes the steam flow recirculation flow through the upstream portion 33 of the second eddy flow gatherer 56 to instrumentation tubes 32.Recycle sections 72 can selectively be connected to the outlet of the first eddy flow gatherer 52, if necessary.

Shown in Fig. 2 A, pulse combustor 28 comprises 78, one combustion chamber covers 80 of a rotary valve substantially, and the inside of cover 80 forms combustion chamber 81, interior tail pipe 84 and outer tail pipe 86.

Shown in Fig. 3 A and 3B, the hole 100 of a plurality of (four) regulation shape is arranged on the overcoat 96 of rotary valve 78, they be equally spaced around periphery to form the structure of balance.Overcoat 96 is fixed on the panel 102 of valve motor 104.Placing with one heart within the overcoat 96 is a valve rotor, and it is made up of with the intermediate sleeve 109 that is being connected driver plate 108.Driver plate 108 is connected to valve motor 104 by motor drive shaft 110 and axle cap 111.The hole 116 of a plurality of (four) regulation shape is arranged on the intermediate sleeve 109, and they are equally spaced with arbitrary form, around periphery, to form the structure of balance.When intermediate sleeve 109 was in the position of rotation of regulation, hole 116 was aimed at external trepanning 100 haply.Last and in whole specification and claims, the hole is always being aimed at, and their form the common open of arbitrary shape or size.

The interior cover 120 that is arranged in intermediate sleeve 109 inside with one heart has the hole 122 of a plurality of (four) regulation shape, they with arbitrary form be equally spaced around periphery, form balanced structure.In cover 120 usually and overcoat 96 hole of similar number is arranged, and the hole 122 of hole on the overcoat 96 100 and interior cover 120 is aimed at haply.Some occasion makes the hole 122 of hole 100 and interior cover 120 have relative leading or hysteresis can obtain better effect.Hole 100,116 and 122 has formed the air intlet 124 of valve 78, as shown in Figure 3A.

Design also can be revised as required in hole 100, gives fixed variation with the valve capacity coefficient C that allows rotary valve 78 by the switching of air intlet 124, to cooperate the need of work of engine.They can be made into the shape of dotted line 125 among Fig. 3 B, and when allowing air intlet 124 just to open, air stream is slightly big or littler, or they can be made into this shape, and shutting the space-time air-flow when air intlet 124 can be a little greatly or littler.In other words, hole 100 has required shape, for engine provides required air intlet flow velocity and characteristic.Equally, such shape can be made so that regulate the ventilation speed of engine in the hole on intermediate sleeve 109 or the interior cover 120, and each is shown in dotted line 126 and 127.

Cover 120 is backboard 128 near driver plate 108 and in being connected to, and it is used for preventing the back pressure compressing driver plate 108 from combustion chamber 81.This has just protected motor drive shaft 110 and axle cap 111, has prevented any axial load of valve motor 104 simultaneously.

As shown in Figure 3A, be placed near overcoat 96 intermediate sleeve 109, with interior cover 120, facing to motor 104, be valve outlet port part 132, it comprises that 136 1 of an outside that connect combustion chamber cover 80 and interior cover 120 places outside 136 and and its inside 140 of radially separating with one heart.An end of inner 140 connects backboard 128, and end connects flameholder 142 in addition.Flameholder 142 the most handy potteries are made.

Inner 140 outer surface 144, the outer surface 148 of backboard 128, form an annular air casing 156 together with the inner surface 152 of interior cover 120, it and make fluid communication by the annular " air diode " 160 that the outer surface 168 of outside 136 inner surface 164 and inner 140 forms.The shape of annular air diode 160 is such, and promptly it is to having very big resistance by combustion chamber 81 to the air-flow of air chamber 156, to by air chamber 156 to the combustion chamber 81 gas-flow resistance very little.This is by making surface 164 coarse and a series of wavyly obtain as shown in Figure 3A being made on surface 168.

Annular air casing 156 is designed such that the volume of air between combustion chamber 81 and the air intlet is minimum.This has just reduced the cushion effect of this volume for shock wave, and this shock wave is to be reflected to valve 78 time break of pulse burner circulation.

Placing in inner 140 is a cooling chamber 170, and it has a cooling import 174 and a coolant outlet 178, and the cooling medium of the cooling chamber 170 of therefore flowing through helps cooling rotary valve/junction, combustion chamber when work.

For further cooling is provided, an air intlet 182 is housed, the air feed is given the junction of driver plate 108 and panel 102.Air flow and the ring casing that forms by outer surface by the inner surface of overcoat 96 and intermediate sleeve 109, and finally pass through on intermediate sleeve 109 and the interior cover 120 separately hole 116 and 122, enter air chamber 156.

As shown in Figure 1, rotary valve 78 is installed in the front of pulse burner 28 and is placed in the burner installation room 24.Rotary valve motor 104 also is installed in the burner installation room 24, and airtight between the inside of motor 104 and pulse burner installation room 24 guaranteed by an expansion joint 184.Expansion joint 184 also absorb any by the heat in when work burner cause flexible.

Fig. 2 A has shown the remainder of pulse burner 28.What place close valve outlet port part 132 is combustion chamber cover 80, and its inside has formed combustion chamber 81.The annular air diode 160 of combustion chamber 81 and valve outlet port part 132 is made fluid and is communicated with.They respectively are contained in place near two fuel burners 186 four fuel burners 186 and two igniter 187() by around being arranged in valve outlet port part 132 allly, with to combustion chamber 81 fuel supplying and ignition energy.The end of combustion chamber cover 80 is to move back the combustor exit 188 that pulls out shape.Close combustor exit 188 respectively is interior tail pipe 84 and outer tail pipe 86.Radiation shield 189 is set to the periphery around combustion chamber cover 80 and interior tail pipe 84, prevents the high temperature that is sent by these parts with protection burning installation sleeve 24.When normal running, during the air flow rotary valve 78 of coming in, heated by radiation shield 189, heated air in the burner 28 surface heat losses recirculation reversion pulse combustion process to raise the efficiency.

Combustion chamber cover 80, the interior tail pipe part 84 of flameholder 142 and pulse burner 28 is all stood the maximum temperature in the system.Flange on these parts, hole and other coarse profiles all have been cancelled, and concentrate with the thermal stress that reduces to cause other part to split and scrap.Combustion chamber cover 80 and interior tail pipe 84 are made into smooth taper and tubular section.This makes it make these parts in addition at commercial easy use high-temperature ceramic materials, thereby has eliminated and cast the needs that heavy section casting carries out expensive processing more earlier.Pottery part in addition is next compared with the part in addition of the other materials of now knowing, the life-span of having improved pulse burner significantly.Therefore, have three kinds of diverse ways can make these parts in addition, they are arranged in order as follows:

A. they can wholely be made by high-temperature ceramic materials, silicon nitride for example, carborundum, aluminium oxide, or mullite type pottery.Different engine section in the same engine assembly can be made with different potteries.Also can with catalytic metal for example platinum (or other metals) come metallized ceramic in addition the inner surface of part pollute to improve combustion process and to reduce.

B. they can or cast the thin-walled section with inconel or high temperature stainless steel system, and the ceramic segment of thin-walled on the lining promptly is connected it on the inner surface of metal shell.This method can be used the same pottery described in the above-mentioned A, and this method should be used for engine, and part is bigger in addition, and used equipment is difficult to make the whole pottery occasion of part in addition.Have again, the inner surface of ceramic insert can with catalytic metal for example platinum metallize to improve combustion process.

C. they can or cast the heavy wall section with inconel or high temperature stainless steel system, again the coat of coated with high temperature zirconia base.The about 0.010-0.015 inch of zirconia coat is thick, and metallic surface temperature is descended above 200 °F.

Except eliminating the thermal stress with producing the part in addition of not being with stress to generate shape, installation system must be eliminated all moments of flexure that produce on other part at these basically, to reduce the possibility that other part damages because of mechanical stress.At Fig. 2 A, the installation system that shows among the 3A and 4 just obtains this result.

As shown in Figure 3A, frame 204 applies pressure on the flange 205, and flange 205 is radially to stretch out from the outside 136 of exit portion 132.Flange 205 by encircle 206 and wedge 207 be connected to combustion chamber cover 80, this device is fixing with bolt 208.Shown in Fig. 2 A, frame 204 longitudinally is pressed in combustion chamber cover 80 and interior tail pipe 84 on the flange 210 of outer tail pipe 86.Frame 204 is fixed by hold-down bolt 212, and bolt 212 is screwed in the flange 213, and fixing with nut 214 and top spring 215.Top spring 215 allows pulse burner 28 expanded by heating when work.

In order to prevent at combustor exit 188 moment of flexure is arranged, the positioning plate device 218 shown in Fig. 4 externally transmits combustion chamber cover 80 and interior tail pipe 84 mutual coarctate power.Positioning plate device 218 comprises stainless steel ring 219,220, and they are pressed in stainless gad 221,222 respectively on combustion chamber cover 80 and the interior tail pipe 84 separately.Location-plate ring 224 is placed between wedge 221 and 222.

Positioning plate device 218 usefulness bolts 234 are fixed on the frame 232, and bolt 234 passes the bolt hole on ring 219 and the wedge 221, stretches into location-plate ring 224.Positioning plate device 218 is fixed on the frame 236 in the same way.Pin 238 sliding frame 232,236 and the supports 240 of passing with joining.The middle part that pin 238 allows pulse burners 28 can be held during expanded by heating at work.The longitudinal pressure of combustion chamber cover 80 is passed to wedge 221 by the outside like this, and passes to wedge 222 along location-plate ring 224, tail pipe 84 in wedge 222 guides to longitudinal pressure again.

Pulse burner compared with other partly comes, and outer tail pipe 86 will be worked under different conditions.It stands very high thermal stress load because processed material by a plurality of nozzles 246 in a plurality of holes 248 that pass because of entering tail pipe, shown in Fig. 2 A.The result is that this part is usually without the ceramic material manufacturing.The temperature of processed material is more much lower than air-flow, so the tail pipe surface must adapt to the high temperature difference.Its most handy inconel or high temperature stainless steel are made, and can apply one deck high-temperature oxydation zirconium.Place nozzle 246 tail pipe 86 outsides also to belong within the scope of the present utility model, shown in Fig. 2 B, and it is mobile to make processed material be parallel to tail pipe 86 substantially.This arrangement is preferably used in the dry system such as potato, and wherein the composition of material is for example sugared, tends to accumulate in the nozzle opening part, when nozzle is placed in the tail pipe.Go to the hole 248 that disappeared in this embodiment, make outer tail pipe 86 to make with ceramic material.When needs, also can be only with a nozzle 246, this also belongs in the scope of the present utility model.

Therefore shown in Fig. 2 A, burner installation room 24 is contained on the instrumentation tubes 32, and outer tail pipe 86 is by with one heart and radially place separatedly within the inner surface of instrumentation tubes 32.

The part of the upstream portion 33 of instrumentation tubes 32 is placed in the recirculation air cover 250 with one heart and radially separatedly, forms an annular air channel 254.Connecting recirculation air cover 250 and and annular air channel 254 does that fluid is communicated with is recirculation air supply pipe 75, it accepts to recycle steams from accepting part 12.The recirculation steam flows out from annular air channel 254, by a plurality of grooves 255 that circumferentially are arranged in instrumentation tubes 32 surfaces, enters instrumentation tubes 32.

Because the natural frequency of pulse burner partly depends on the length of tail pipe, wish under some occasion to guarantee that instrumentation tubes 32 does not have the effect of tail pipe 86 prolongations outside the conduct.For this reason, on the surface of instrumentation tubes 32 around arranging a plurality of holes 256 week, to form the decoupler between outer tail pipe 86 and the instrumentation tubes 32.Hole 256 can selectively cover to change the decoupling effect with the plate (not shown).

Drying apparatus with pulse combustion device starts under the supervision of flame safety system shown in Figure 5, work and parking.Flame safety system is controlled by a programmable microprocessor or a relay logic system that is contained in the logic box 500.Logic box 500 is from a plurality of sensor acknowledge(ment) signals, and these signals are used to control fuel, oil extraction, and combustion air, and atomizing air system also will be talked about below.

Liquid fuel source of supply 502(is No. 2 fuel oils preferably) be connected on the fuel conduit 504, pipeline 504 is monitored by a low oil pressure switch 506 and high oil pressure shut-off switch 508.What place fuel conduit 504 is a safety shutoff valve 510, and it is controlled by electromagnet armature 512 by a safety.Fuel conduit 504 passes by the stop valve 514 by electromagnet armature 516 controls, again by each nozzle 186.

Natural gas supply source 520 is connected to fuel conduit 522, and pipeline 522 is monitored by high gas pressure switch 524 and low air pressure switch 526.What place cartridge 522 is safety shutoff valve 528,530 and ventilation valve 532, and their each free safety is controlled by electromagnet 534,536 and ventilation electromagnet armature 538.Fuel conduit 522 passes by the stop valve 540 by electromagnet armature 542 controls and leads to each nozzle 186.

An atomizing space source of the gas 550 is connected to atomizing air pipeline 552, and pipeline 552 is by 554 monitoring that compress switch of low atomizing air.Atomizing air pipeline 522 passes by the stop valve 556 by electromagnet armature 558 controls, leads to each nozzle 186.

Compress switch in order to the low combustion air of monitoring combustion air pressure and 560 to be connected to 18, one systems of air intlet device high temperature switches 562 below the combustion air control retaining 17 and to be connected to instrumentation tubes overheated with in the detection system.

Flame safety system also has a flame indicator 570 to be used to refer to combustion process.In a pulse-combustion system, flame indicator 570 can be an optical scanner, is used for ultraviolet or the infrared waves that flame detection sends, and can be pressure sensor also, is used for measuring the positive pressure pulse that the fuel blast produces in the combustion chamber.Pressure sensor is decided scale like this, and promptly it will detect above the air feed of combustion air air blast and press, so it will only measure that part of pressure of being supplied by fuel combustion in the stagnation pressure.

Flame safety system will end the fuel that leads to pulse burner according to following condition: low or high fuel pressure, and low combustion-supporting or atomization air pressure, flame-out, or high system temperature.When using oil, with closed safe stop valve 510, when using combustion gas, safety will be from each closed safe stop valve 528 and 530 by electromagnet armature 534 and 536 by electromagnet armature 512 for safety, and ventilation electromagnet armature 538 will be opened ventilation valve 532.

Flame safety system is also controlled the combustion chamber oil draining system.There is the draining valve 580 of a special use in the pulse-combustion system, is installed on the outside 136 of rotary valve 78, and is connected with electromagnet armature 586.Pulse burner draining valve 580 is opened by flame safety system, uses when this will light oil when starting or during convert fuel.When flame indicator 570 detects the igniting of fuel oil, the flame safety logic device just cuts out the draining valve 580 of combustion chamber, and any unnecessary fuel will have been removed from the chamber.

As shown in Figure 6, drying apparatus with pulse combustion device has programme-control, and system controls automatically with permission.These controls are designed each set point in the checking process and regulate each running parameter to keep each set point.Each set point of working is according to the processed product by system, the speed of processing, or the like regulate.

A control loop is set the speed of rotary valve 78, to change the operating frequency of pulse burner 28.Frequency sensor 600 is used for measuring the burning pulsation rate, and it and then passes to controller 602 to signal, to regulate the operating frequency set point.Frequency sensor 600 can be used instead the air pulse rate that enters combustion chamber 81 of measuring.Controller 602 is sent the speed that a signal removes control valve to motor control device 604, and accepts the rotating speed that a feedback signal changes actual valve from valve motor rotary speed meter 606.Controller 602 and/or control device 604 can be the parts of rotary valve 78.The adjusting of controller 602 can make the speed of rotary valve 78 be arranged on the natural frequency of pulse burner 28 or slightly leaves on the frequency of some, and this decides according to processed product.So will be like this, be that this just may make the processing speed of some product surpass acceptable level and cause processed particle temperature increase because when the speed of rotary valve 78 during near the natural frequency of pulse burner 28, acoustic pressure wave is increased.The acoustic pressure wave of the product needed maximum of difficult drying, and rotary valve 78 is operated at the speed of coupling engine natural frequency to obtain this result.

A control loop that separates is used to set up the feed rate of product and regulates feed rate according to water capacity.When the pulse-combustion system moves, bag temperature of shape cover 60 is remained on more than the dew point (approximately being 212, the occasion that is dewatering), therefore do not have condensate water and make it wet and sticking be adsorbed on bag shape surface than fine particle.Because the input of the heat of system is to be set by required speed of production, so be difficult to know the moisture content of sending thing in any moment, therefore a temperature sensor 610 is installed in bag outlet side of shape cover 60.Send a signal to temperature controller 614 from the temperature transmitter 612 of sensor 610, it is located at the discharge temperature of bag shape cover 60 and is higher than about 10 of dew point.Controller 614 then send a signal give variable speed motor controller 616(its handle product feeding system 61), product sent to the speed of pulse-combustion system sets.Humidity as fruit product is very little, and feed rate just is increased.As fruit product bigger humidity is arranged, feed rate is just lowered, so the moisture that will remove from product in the native system can not be greater than being used for the heat of evaporation water.

A control loop also is housed, allows the speed of ignition that the operator can initialization system, protection system can be not overheated when temporarily being obstructed when product is sent to.Outlet side at the first eddy flow gatherer 52 has a temperature sensor 620, is used for measuring temperature.Send a temperature signal from the temperature transmitter 622 of sensor 620 and give a temperature controller 624, the operator can set up the speed of ignition of a control set point or initialization system with hand herein.The signal sets fuel control valve 626 of slave controller 624 and the position of combustion air control valve 17.These two valves all have position indicator to tell what degree controller 624 each valve are opened or closed.This system also can be used to set the speed of ignition of pulse-combustion system, works if this is equipped under the situation less than heap(ed) capacity.Also have, if a kind of certain products is difficult to dehydration or needs very long dewatering time, when the temperature of the first eddy flow gatherer 52 became too high, this control loop will reduce speed of ignition.As the increase of sending Yin Wendu to of fruit product and when being obstructed, this control loop also can reduce speed of ignition.If this control loop can not suitably reduce speed of ignition the temperature maintenance of eddy flow gatherer under prescribed level, the high temperature switch 562(of flame safety system is shown in Figure 5) just action, make system shutdown.

Also have a control loop to be used for controlling pressure in the instrumentation tubes 32.This pressure must be controlled to guarantee the downstream of pulse burner 28 and accept to keep in the part 12 suitable system pressure.This has guaranteed to pass through the flow velocity of gatherer in desirable system works scope successively.Control loop comprises a pressure indicator 630, and it is placed in discharge section 34 places of instrumentation tubes 32, with the pressure of detection system.Arrive a pressure transmitter 632 from the signal of pressure indicator 630, deliver on the pressure controller 634, controller 634 is set the pressure of keeping instrumentation tubes 32 ends.Controller 634 just send a signal to power device 636, and it drives an import impeller control retaining 638 on the induction ventilation blower 69.

If the pulse-combustion system is used to the occasion that load variations needs the maximal regulated ratio, an additional control loop maintains the steam in the instrumentation tubes 32 system's speed of ignition of attenuating.Control loop has a differential pressure transmitter 640, and its detects the pressure drop by instrumentation tubes, this and reflect suitable speed.Bian SUPER-LEE device 640 is sent a signal and is given a differential pressure controller 642, and the operator can regulate the differential pressure set point according to required instrumentation tubes speed herein.Differential pressure controller 642 is sent a signal to power device 644, and it regulates the setting of the import impeller control retaining 646 on the recirculation blower 76.Under normal ignition speed, the speed in the instrumentation tubes 32 will be high than set point, so import impeller control retaining 646 is normally closed.When speed of ignition is lowered, the speed of instrumentation tubes 32 descends until arriving set point.Controller 642 begins to open import impeller control retaining 646 and enters the recirculation air of instrumentation tubes 32 with increase then, to keep minimum transfer rate.Recirculation flow is made up of vapor water and comburant, and they are than high 10 degree of dew point.This means that recirculation flow can not reduce the thermodynamic efficiency of system, also can not increase oxygen to system, oxygen can make the particle in the instrumentation tubes degenerate or produce the danger of blast because the flammable particle of oxygen and unburned fuel or processing mixes.

Drying apparatus with pulse combustion device starts under the supervision of flame safety system, work and parking.This system has logic device to control igniting-flame-out procedure time, checks the travel switch that all are adjustable, and opens corresponding fuel valve by suitable program when starting in system.When system works, flame safety system checks constantly whether combustion process is working properly, and guarantees all fuel, and combustion air and other required back works are all in the tolerance interval of supporting combustion process.This system also is used for suitably making pulse burner to stop, promptly when meeting accident or operate as normal at the end.

The job initiation of drying apparatus with pulse combustion device is in adding energy at case 257 places to flame safety system.Follow air pump equipment 18, rotary valve 78, induction ventilation blower 69, each motor of other in recirculation blower 76 and the system is all started.All travel switches are just checked and examined to flame safety system, and the work of their display systems is all in the claimed range of setting.Utilize all adjustable settings, before beginning purge engine, flame safety system drives combustion air control retaining 17, and import impeller control retaining 638 and import impeller control retaining 646 arrive fully open position.This moment, the engine purge has begun constantly.The starting of purge timer, the speed of rotary valve 78 is set at suitable frequency and starts function low temperature to light a fire for the first time so that make.Air pumps into device 18 air of outside is pumped into device 18 through air intlet filtering silencer 19 suction air, and its pressure increases to 6 pounds/square inch herein.Air pumps into device 18 from air and flows into burner installation room 24, and it is by the inside of radiation shield 189 herein.Combustion-supporting chamber's gas then enters rotary valve 78, arrives combustion chamber 81 again.At least five thoroughly ventilations are accepted in the combustion chamber in the purge circulation.

After purge was finished, flame safety system drove combustion air control retaining 17, and import impeller control retaining 638 and import impeller control retaining 646 arrive ignition location.When each baffle plate is proved when arriving ignition location, flame safety system makes this two (or a plurality of) igniters, 187 igniting, and opens gas safe stop valve 528,530 and close impeller valve 532 simultaneously.Combustion gas electromagnet armature valve 540 is yet opened by this system, and this two (or a plurality of) fuel burners 186 are given in valve 540 supply combustion gas, and nozzle 186 is all near these two (or a plurality of) igniters 187.This moment, the igniting timing begins, and safety shutoff valve 528,530 is held open 10 seconds and attempts igniting.

After the air pulse from rotary valve 78 was mixing from the combustion gas of two nozzles 186, and the ignition energy that this mixture is sent by igniter 187 is ignited, the pulse-combustion circulation had just begun.When fuel and air burst, the pressure in the combustion chamber 81 increases, and causes an air towards the rotary valve 78 of closing to reflux in the chamber.When air reflow stream during through air diode 160, the surface 168 in the air diode 160 makes air stream laterally flow to surface 164 along the direction of returning.The rough form of returning momentum and surface 164 of air stream is combined, causes an artificial necked-down section, and it can be placed restrictions on air communication and cross air diode 160 and reduce to act on return pressure on the rotary valve 78 of closing.

If flame safety system detects the normal ignition situation of fuel with flame indicator 570, it allows safety valve open, and allows the operator to open the combustion gas electromagnet armature valve 540 of remaining fuel nozzle.On the other hand, if flame indicator 570 can not be attempted measuring a sure flare up fire between burn period at 10 seconds, safety valve 528,530 all is closed, and the state before the purge in its progress of starting sequence is got back to by system.

When all fuel burners 186 have all carried out work, when flame safety system detected a normal flame, system just gave combustion control system each baffle plate 17,638 and 646, and the pulse-combustion speed of ignition is set in programme-control herein.

Flame safety system also comprises logic device and control device, allows to be changed to another kind of fuel from a kind of fuel.Fuel burner 186 all is designed to spray combustion gas or liquid fuel or dual-purpose.When operate as normal, nozzle all is set in by air atomizing oil and ignites.Air atomizing oil ratio prior art system superior, the prior art system adopts the fuel oil that mechanically sprays of pressure atomization, and air-atomized oil produces littler oil droplet, so gasification is also hurry up.This has also guaranteed the timely blast after the primary combustion, and this blast is to work as the mixture of oil and atomizing air to be discharged in the combustion chamber of heat, produces between oil and atomizing air.

The change of fuel starts from all fuel burners 186 of natural gas igniting.Flame safety system detection oil and atomizing air travel switch are opened combustion chamber draining valve 580 then to guarantee them in prescribed limit.The operator opens stop valve 514, allows oil flow to two (or a plurality of) nozzles 186, and they light natural gas.The natural gas oil that atomized, mixture is lighted a fire immediately.In 10 seconds kinds, combustion chamber draining valve 580 cuts out, and the operator opens atomization air valve 556 and shuts stop valve 540 in the natural gas system.Atomizing air blows out fuel burner 186 to remaining natural gas, and takes over the function of atomized fuel, and the operator repeats this process, and two remaining (or a plurality of) nozzles 186 are changed into a fuel oil.

The same nozzle of this usefulness burns the ability of two kinds of fuel and comes compared with the prior art system, is selecting to give the extra convenience of pulse-combustion system aspect fuel and the ignition mode.It is as follows that new system can be set work:

A) all nozzle is lighted air atomizing oil

B) all nozzle is lighted the combustion gas fogging oil

C) half nozzle is lighted air atomizing oil

Half nozzle is lighted the combustion gas fogging oil

D) half nozzle is lighted air atomizing oil

Half nozzle is lighted combustion gas

E) half nozzle is lighted the combustion gas fogging oil

Half nozzle is lighted combustion gas

F) all nozzle is lighted combustion gas

The fuel that burning is used is gone into combustion chamber 81 with low pressure (being lower than 15 pounds/square inch gauge) feed, so its peak pressure that burns in will burned chamber 81 of flowing hinders.This means the pulse frequency automatically timing of fuel stream by combustion chamber 81, fuel system does not need a valve special and that variable-ratio rotary valve 78 synchronously regularly opens and closes.

First blast discharges heat and produces a pressure wave.Heat beginning heating flame chamber cover 80, interior tail pipe 84 and outer tail pipe 86, and pressure wave stops fuel gas flow and send a pressure pulse to interior and outer tail pipe 84 and 86.The momentum of combustion product produces partial vacuum along with ripple enters tail pipe in the combustion chamber, the unlatching of this and rotary valve 78 is synchronous.This just again portion of air and combustion gas from valve with fuel burner 186 sucks out and mix soon.This moment, rotary valve 78 cuts out, and mixture contacts with the combustion product that a last circulation stays, and they cause new fuel ignition on the chamber wall of heat.Pulse burner 28 typically circulates for 100 to 200 times with per second and explodes.A pressure wave is sent in each pulse, and then is a partial vacuum, enters tail pipe 84 and 86.

During when the device starting with when refuel, the also correspondingly conversion of temperature in the burner.This will change operating frequency.Variable-ratio rotary valve 78 on combustion-aid air system can be set in following frequency to be changed.This has improved the security and the adaptability of system.

System is in case after the starting, the mud that may contain 99% humidity is sprayed in the outer tail pipe 86, and it contacts with acoustic energy with heat from the pulse-combustion process at this.Each nozzle 246 is arranged to form the spray pattern of regulation, so that mud is exposed on such state under the gas impulse of heat, that is, the drying efficiency that makes it is for maximum.When the mixture instrumentation tubes 32 of flowing through, sound blaster is mechanically driven the moisture content in the solid particle of sending to out of or is divested, and simultaneously, heat is moisture evaporation, and like this, dry run has just been finished in second part.

Processed particle then enters the first eddy flow gatherer 52, enters dryed product transfer system 64 by star valve 62 thus.Steam, the particle that the carrying sub-fraction is initial is walked out the first eddy flow gatherer 52, by muffler 54, enters the second eddy flow gatherer 56.The second eddy flow gatherer 56 further reduces the dust of carrying in the steam flow.The powder dust particle that major part stays will be fallen the bottom of the second eddy flow gatherer 56, and thus, they are discharged into dryed product transfer system 64 by star valve 63.

The second eddy flow gatherer, 56 tops be bag shape cover 60, it has textile bags 61, bag 61 is designed to remove trickle and minimum particle from steam flow.Steam flow upwards by the second eddy flow gatherer 56, passes textile bags 61.The dust particle is deposited in the outside of textile bags 61, and the steam flow of cleaning is discharged from by chimney 71.In order to keep the porous of textile bags 61, a large amount of low-pressure steams blow adverse current discontinuously by blowback blower fan 66 and pass through textile bags 61 with the opposite direction of filtration.The dust that accumulates on the textile bags 61 is shaken off to the bottom of the second eddy flow gatherer 56, is discharged into dryed product transfer system 64 at this by star valve 63.

When system works, control system is kept suitable valve speed, and product is sent speed to, system point at top speed with steam speed to guarantee optimum Working.

Flame safety system is used for a system shutdown, and this is when combustion flame extinguishes, or when operating temperature during near danger level, or when orderly shutdown needs.Orderly shutdown starts from transporting the mud feeding system all sending material to.Then pulse-combustion engine 28 is set in low ignition point, and safety shutoff valve 510 and/or 528 all is closed.Whole system's motors will be closed except air and pump into device 18, rotary valve 78 and induction ventilation blower 69.If system is a fuel oil, atomizing air system will opened until atomizing air and can be used for till the purge fuel burner 186 by opening valve 556.The pulse-combustion engine that air stream will burn up any fuel that stays and the heat of cooling is part in addition.Through one period short time, flame safety system also will be turned off remaining motor, and system will fully stop.

Although be the complete explanation of preferential embodiment of the present utility model above, soon and the effectively water separation capability of drying apparatus with pulse combustion device also can be used to handle various products, if the structure of this system is retrofited to meet the special requirement of this product.Horizontal junction composition shown in Fig. 1 of the application will be applicable to the sludge-type product that has the small size particle.In this structure, exhaust of coming out from pulse burner and the steam that discharges from dry run are used to transmit particle to pass through system.

If, yet when need handling big particle, it just can not be transmitted by the exhaust of pulse burner pass through instrumentation tubes, so can adopt vertical and system adverse current type.This system is shown among Fig. 7.In this occasion, send upper end introducing to by the vertical component of instrumentation tubes 32, instrumentation tubes 32 is facing to pulse burner 28.Sending to by gravity of product dragged to pulse burner, and acoustic energy and heat are upwards led to the top of instrumentation tubes 32.

When product passes sound wave and Re Shi, moisture just becomes air-flow, and this has just increased the combustion gas speed in the instrumentation tubes.This speed changes does not influence big particle, and they continue to fall the bottom of instrumentation tubes, and at this, they are reclaimed by bulky grain recovery system 300, and system 300 comprises star valve 304 and bulky grain transfer system 308.Dust or littler particle, or they are from sending thing to, or split away off from bulky grain in dry run, are deflated and air-flow holds up, and are transmitted through abatement device 46, arrive and accept above the part 12 in order to reclaiming.

Vertical stratification also can be used as the PARALLEL FLOW device, if with extending the nozzle that penetrates outer tail pipe 86 mud is imported the pulse burner discharge portion, shown in the horizontal structure of Fig. 1.

Vertical stratification also has a recycle sections of selecting for use 72, and it is theoretical similar with the recycle sections of structure and horizontal device, and a control loop, and similar with shown in Fig. 6 is to set up exhaust and air velocity in instrumentation tubes.This speed can change so that set up the distribution of particle, promptly or the bottom of falling instrumentation tubes, or is taken to and accepts part 12, that is, this control loop is as an initial separator.This control loop also determines product to stay in the time in the instrumentation tubes, the aridity of these decision final products.

The remainder of perpendicular system is identical with the function of the horizontal structure of native system.

Drying apparatus with pulse combustion device can be used for multiple different occasion, burning boiler for example, calcined ore, distillage, and other chemical processes.In these occasions, pulse burner can be used liquid oxidizer work, and to replace gaseous oxidant, for example air flows into rotary valve 78.In fact, use any oxidant all to belong within the scope of the present utility model with rotary valve 78 and pulse burner 28, that is to say, its oxidation of any material is to be heat and pressure by obtaining electronics to form new molecule and the form that releases energy during the course.According to the application, pulse burner can work in oxygen enrichment, and oxygen just in time meets chemical equation, or the pattern that reduces, by change the setting of combustion air control retaining 17 corresponding to fuel gas analysis device (not shown), analyzer is sampled from the combustion products of outer tail pipe 86 ejections.

Here each system of being narrated all is used for dewatering, so each gathering system that shows all is the equipment of specialized designs in dehydration.If drying apparatus with pulse combustion device is used to other operation, the equipment in downstream will correspondingly be selected for use so.Therefore, the explanation of front should not be used to limit scope of the present utility model, and scope of the present utility model is ad hoc set in claims.

Claims (12)

1, one is used for it is characterized in that at the valve of downstream direction generation high frequency fluid stream pulse

First and second valve members of installing with one heart, tightly close, can do relative rotation each other, each part has a Kong Yirang fluid to flow through, and two holes are to arrange like this, and promptly when doing rotation relatively for two, they can be moved to aims at and misalignment,

There is device to be used on a side of one of two, forming a liquid chamber;

Fluid flow diode device, it is done the fluid connection and forms a fluid issuing at this place with the chamber, passes through in the outlet inflow chamber through exporting outflow and prevention fluid from the chamber with helping fluid,

Therefore when two holes are overlapped, just set up a fluid flow pulse, and the fluid backflow by the outlet inlet chamber just is prevented from when two holes are not in the lap position by valve.

2,, it is characterized in that also comprising as the valve in the claim 1:

Be used for detecting device by the fluid flow pulse frequency of valve;

Be used for stipulating device by the fluid flow pulse frequency of valve;

Reply the device of checkout gear and device specifies, be used for regulating the relative rotational of each valve member, the frequency that makes detected frequency be substantially equal to stipulate.

3, a pulse burner is characterized in that

First barrel portion that forms the combustion chamber;

Make fuel and oxidant with relatively high frequency, flow into the device in the combustion chamber pulsedly;

Make fuel combustion to produce the device of high frequency heat gas pulse;

Make second barrel portion that fluid is communicated with in downstream, combustion chamber and combustion chamber, the hot gas pulse is propagated by it;

The device that first and second barrel portions are connected, they force together with whole length basically when longitudinally is pressed them.

4, as the pulse burner in the claim 3, it is characterized in that comprising device in order to the contact force between the connection end face of restriction barrel portion, make it less than the coarctate each other power of two parts.

5, a drying device is characterized in that

6,, it is characterized in that also comprising that device is used for modulating the flow velocity of processed material in instrumentation tubes as the drying device in the claim 5.

7,, it is characterized in that also comprising as the drying device in the claim 5:

There is device to be used for fuel stream is sent into the combustion chamber;

There is device to be used for oxidant stream is sent into the combustion chamber;

There is device to be used for detecting the gas impulse of the heat of sending from pulse burner;

There is device to be used for detecting the temperature of the regulation in receiving device;

There is device to be connected to fuel stream and send device, be used for detecting the pressure of the regulation that fuel stream send;

There is device to be connected to oxidant stream and send device, be used for detecting the pressure of the regulation that oxidant stream send;

Device transponder pulse checkout gear is arranged, temperature-detecting device, fuel pressure detection device, with the oxidant stress checkout gear, be used for when the gas impulse that does not have heat is detected, when in receiving device, detecting the temperature of regulation, when when fuel stream send the fuel pressure that detects regulation in the device, or when sending the pressure that detects regulation in the device at oxidant stream, this device just prevents fuel from flowing into fuel chambers.

8, a drying device comprises and it is characterized in that

A microscler combustion tube has a upstream extremity and a downstream;

Oxidant enters valve and is positioned at upstream extremity and this pipe and makes fluid and be communicated with, and is used for oxidant is supplied to pipe with the form of single oxidant pulse, and this valve comprises:

First and second valve members of installing with one heart, tightly close, and can do relative rotation, and each part has a hole to flow through for oxidant, and two holes are to arrange like this, and promptly when doing rotation relatively for two, two holes enter aims at and withdraws from aligning;

There is device on a side of one of two, to form a chamber;

Fluid flow diode device and this chamber are done the fluid connection and are formed a fluid issuing at this, pass through the outlet outflow with the fluid of helping in the chamber, and are used for stoping fluid through in the outlet inflow chamber;

Have device to be used near the upstream extremity of this pipe fuel being added the oxidant pulse, so fuel can be burned and produce the gas impulse of heat, this hot gas impulse is propagated by this pipe, and goes out from the downstream of this pipe;

An instrumentation tubes is sent processed material with incoming flow, and this instrumentation tubes has upstream extremity and downstream, but this upstream extremity is connected to the downstream of this combustion tube by place of working, is used for the gas impulse of the heat accepting to send thus;

There is device to be used for processed material stream is sent into the upstream extremity of instrumentation tubes;

There is device to be connected to the downstream of instrumentation tubes, is used for the material accepting to flow out thus.

9,, it is characterized in that also comprising that device is used for modulating the pulse of sending from pulse burner as the drying device in the claim 15.

10,, it is characterized in that oxidant stream rate modulation device wherein comprises that device is used for changing the relative rotational of valve member as the drying device in the claim 16.

11, as the pulse burner in the claim 3, fuel wherein and oxidant stream send device to comprise device, are used for the fuel of rich oxidant and oxidant stream of pulses are sent into the combustion chamber.

12, a kind of fuel system is characterized in that

A nozzle;

There is device to be used for nozzle is crossed in the warp let-off of fuel stream;

There is device to be connected to stream and send device, be used for selectively nozzle being crossed in the gaseous fuel flow warp let-off;

Have device to be used for selectively using the combustion gas atomized liquid fuel, combustion gas also can change air into;

There is device to be connected to stream and send device, be used for selectively the liquid fuel stream of combustion gas atomizing being sent passing through nozzle;

Therefore, selectively stream send the fuel by nozzle to comprise gaseous fuel, the liquid fuel of gaseous fuel atomizing, or air-atomized liquid fuel.

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