CN105987369A - Modular efficient homothermal energy-saving steam engine system - Google Patents

Abstract

The invention provides a modular efficient homothermal energy-saving steam engine system. The modular efficient homothermal energy-saving steam engine system comprises a combustion chamber, a steam generating chamber, a waste heat collector, a preheating chamber, an air suction device, an intelligent controller, a water inlet, a steam outlet, an air inlet, a sewage draining outlet and an exhaust outlet. According to the modular efficient homothermal energy-saving steam engine system, the heat utilization ratio of gas combustion of a gas steam engine is greatly improved; the steam outlet effect is rapid, stable and efficient; homothermal high-pressure steam can be output; the modular design is achieved; system expansion is flexible and convenient; and the steam engine system is savable in energy, efficient, high in temperature and resistant to pressure.

Description

A kind of modularity efficient constant-temperature energy-saving steam engine system

Technical field

The present invention relates to a kind of steam engine, especially relate to a kind of modularity energy-efficient high-temperature steam machine system, belong to Combustion gas is the steam generating device field of the energy, especially by combustion gas on the basis of energy-conservation, produces high temperature efficiently high Setting-out steam.

Background technology

At present, the energy that known steam engine uses has coal, combustion gas, electricity and solar energy, makees the steam boiler of the energy with coal, Owing to produce substantial amounts of exhaust emission environment, Energy Efficiency Ratio is low simultaneously, already at being phased out.Electricity is a kind of clean energy resource, But the Initial energy source producing electricity still uses the coal of firepower in a large number, and the thermal efficiency of electricity and cost all determine to advocate energetically. Solar energy is the energy of a kind of environmental protection, but applies at present in steam engine field, is limited by the skill of current solar energy heat utilization field Art limits, also cannot the application of popularization.

Comparatively speaking, using combustion gas as the energy of steam engine, efficiency of combustion is high, and the tail gas of generation is also few, be one not The selection of two.Using combustion gas using as the steam engine of the energy although having had, also having corresponding patent documentation. But the most preferable, it is primarily present problem below: the first heat exchange efficiency is the highest, the heat of fuel gas buring does not obtain abundant profit With, use " water bag fire " or " fire Bao Shui " all to there is extreme misery contact area little, steam the combustion road time short and cannot Fully heat exchange；Second goes out the speed of steam slowly, and the temperature of steam is unstable；The water content of the 3rd steam is uncontrollable；4th is System dilatation is inconvenient.

Summary of the invention

For the deficiency overcoming existing product to exist, the present invention provides a kind of modularity efficient constant-temperature energy-saving steam engine system, Native system is designed as the most relatively independent functional module each main function components of composition steam engine, and each module can basis System scale flexible organization dilatation is very convenient；The heat exchanging body using novelty original creation increases substantially heat exchange efficiency；By independent What hot collecting function module and Hot swapping heat exchange promoted steam goes out vapour speed, ensures the stable and consistent of vapor (steam) temperature；Utilize up-to-date Sensor technology and Controlled by micro computer technology, arbitrarily set the parameters of steam, system is run according to default parameter.

The technical solution adopted for the present invention to solve the technical problems is: a kind of modularity efficient constant-temperature energy-saving steam engine system, This system includes combustor, steam generation chamber, waste heat collector, preheating chamber, air intake device and the big parts of intelligent controller six, And water inlet, venthole, air inlet, sewage draining exit and air vent；Water inlet is connected with the preheating water tank of preheating chamber, venthole Being connected with the steam box top of steam generation chamber, air inlet is connected with the air inlet pipe of combustor, sewage draining exit and the steaming of steam generation chamber Vapour bottom portion is connected, and air vent communicates with the tuyere tube of air intake device；Described combustor, steam generation chamber, waste heat collector, Preheating chamber, air intake device and smart controller system are installed in frame, this combustor, steam generation chamber, waste heat set Device, preheating chamber and air intake device are arranged in order from the bottom up；Six big parts collectively form a minimum system, each parts It is a separate functional module, constitutes a bigger system by increasing functional module；Outside water enters from water inlet Enter to preheating water tank, preheating water tank carries out heat exchange for the first time, it is achieved heating up the first time of water, the water after intensification is in intelligence Under the control of energy controller, timesharing is injected in the secondary water tank of steam generation chamber step by step, completes second time heat in secondary water tank Displacement, thus realize the second time to water and heat up, replaced high-temperature-hot-water out is flowed in the steam box of steam generation chamber, Third time heat exchange is carried out, it is achieved the third time of water is heated up, forms substantial amounts of height with the heat exchange section of jurisdiction of several pieces high temperature in steam box Temperature high steam is exported by venthole, thus completes the most energy-efficient water vapor process.

From the water vapor process of the present invention it can be understood that to, the first time heat exchange of the present invention and second time Hot swapping, Being that the water of a kind of zero energy consumption is heated, all of thermal energy recycles both from the waste heat of third time heat exchange；Heat exchange for the third time It is several pieces heat exchange sections of jurisdiction in combustion gas combustion heating steam box in a combustion chamber, the heat exchange section of jurisdiction of high temperature and the height flowed in steam box Warm water carries out the exchange of large area Rapid Thermal and forms substantial amounts of high-temperature steam, and in heat transfer process, the pipeline waste heat in heat exchange section of jurisdiction passes through Waste heat collector enters preheating chamber, is used for heat exchange for the first time, heat exchange section of jurisdiction itself and the waste heat of steam box in preheating chamber It is used for second time Hot swapping.This substep heats up and brings the advantage that especially with Hot swapping vaporization: enter in first invention Entering the water in steam box is a kind of high-temperature-hot-water, is totally different from general high-temperature fuel gas steam engine and taps at the tap water direct of vaporium Enter vaporization, the vaporization being directly entered also different from the warm water utilizing general flue to reclaim.Because in entrance steam box is high-temperature hot Water, has the advantage that out that the fast efficiency of vapor (steam) velocity is high, and the temperature constant of steam, heat utilization efficiency significantly promotes.Simultaneously because Intelligent controller is according to the parameter preset, and comes from the data such as the temperature of sensor, pressure, water content, can accurately control Water heating enters time interval and the water yield of steam generation chamber, thus the most accurately controls the water content of steam and the temperature of steam, with And the quantity of steam of steam.

The secondary water tank of described steam generation chamber is connected by pipeline interlocking with steam box, has several pieces heat exchanger tubes in this steam box Sheet；Described steam generation chamber also includes water inlet and detection mouth, and water inlet is on the top of secondary water tank, by pipeline and serises connecting tube Electromagnetic valve in road is connected with the outlet of preheating water tank, and detection mouth connects at secondary tank top, the cable of sensor and electromagnetic valve On the corresponding interface of intelligent controller.The present invention uses unique secondary water tank to bring the advantage that: first uses secondary water tank Can utilize the related data of the sensor detection steam box of intelligent controller, these data directly detect essence than in steam box True many and reliable and stable many；Second secondary water tank enters the transfer of steam box as water, it is possible to use waste heat reaches temperature Water rises to high-temperature-hot-water, the water temperature in the closely steam box of the temperature of this high-temperature-hot-water, and so each high-temperature-hot-water flows into and steams Vapour case brings the change of vapor (steam) temperature in steam box the most hardly, if not using this technology, such as uses the tap water of outside It is directly entered steam box, then enters steam box due to substantial amounts of water at low temperature, the vapor (steam) temperature in this moment will certainly be greatly lowered, Vapor (steam) temperature would not be stablized, or high or low；Using the pre-heat recovery technology of general flue for another example, water temperature is very limited Rising, such water enter steam box can bring being greatly lowered of vapor (steam) temperature in the same old way.What therefore the present invention brought is a kind of The steam of constant temperature.

Described heat exchange section of jurisdiction, is that a kind of forging and stamping by two panels metal one-time entirety is constituted, the sheet metal of band bending pipeline, Dog leg piping in sheet constitutes burning gallery, and the whole sheet metal after forging structure becomes again a height having huge heat exchange area simultaneously Effect heat exchanging body, this heat exchange section of jurisdiction has upper and lower two ends, the upper end of heat exchange section of jurisdiction to be exposed at outside the top of steam box and under waste heat collector Portion communicates, and the lower end of heat exchange section of jurisdiction is exposed at outside the bottom of steam box and communicates with combustor.The heat exchange section of jurisdiction of the present invention is neither same as mesh Bending single tube heat exchanging body on front market, also different from adding the heat exchanging body of some wings on swan-neck, either manufacturing process, Or heat transfer effect all cannot be mentioned in the same breath compared with the above two, the tortuous fire tube on market is the single tube heat exchange of a bending, And the heat exchange section of jurisdiction of the present invention is sheet heat exchange, heat exchange area is the decades of times of single tube heat exchange.The raising of the heat exchange efficiency thus brought It is apparent.And manufacturing process is the most different, the former current the author's finding is essentially all employing single tube segmentation welding, uses Life-span does not have comparability with the heat exchange section of jurisdiction of the technique of an excellent suitability for press forming.

Described preheating chamber also includes the heat exchanger tube in preheating water tank and outlet, and described outlet is in preheating water tank top and steaming The water inlet of vapour generating chamber is connected, and described heat exchanger tube is fixed in preheating water tank, is a kind of coil arrangement, described heat exchanger tube upper End is exposed at outside the top of preheating water tank and communicates with air intake device, and the lower end of this heat exchanger tube is connected to waste heat collector.Employing coil pipe is inhaled Receive waste heat, waste heat farthest can be utilized, embody more preferable energy-saving effect.It is more than simple single flue absorbs Heat cannot be compared.

Described waste heat collector is between preheating chamber and steam generation chamber, and this waste heat collector is several heat exchange sections of jurisdiction The waste heat of upper end outlet converges the heat exchanger tube that set enters the preheating water tank of preheating chamber together；Described waste heat collector is a kind of tool There is the device of flat broadening formation.Use waste heat collector can increase substantially the utilization rate of waste heat, it is simple to preheating chamber waste heat return Receive.The present invention is in order to improve heat utilization efficiency as can be seen here, it is achieved energy-conservation purpose, and implementation is distributed combustion, corresponding distribution point Sheet heat exchange, waste heat centralized recovery concentrates heat exchange.

Described intelligent controller includes that MCU mainboard, waterway electromagnetic valve, electromagnetic valve of gas circuit, temperature sensor, water level pass Sensor, pressure transducer, gas leakage detection sensor, multifunction push key, variable connector and display screen, waterway electromagnetic valve string On the pipeline of the outlet being connected on preheating water tank, electromagnetic valve of gas circuit is serially connected in air inlet pipeline, integration temperature, water level, Pressure transducer is placed in sensor interface, and variable connector controls igniting, the quick slow rotation of air intake device, the control of electromagnetic valve The signal cable of cable processed and sensor is all connected on the corresponding port of intelligent controller.Display screen can show each functional part Duty, the data of each sensor, display arrange each parameter.

Described combustor includes into gas header pipe, enters the left arm of combustion gas, enters the right arm of combustion gas, left burner, right burner And gas control valve, described in enter the left arm of combustion gas and enter the right arm of combustion gas and be both connected on gas header pipe, described gas control valve It is arranged on gas header pipe；Described left burner is connected on the left arm of combustion gas, and this left burner is provided with several left combustion Burn nozzle, described each left burner noz(zle) is provided with several left spray orifice；Described right burner is connected on the right arm of combustion gas, It is provided with several right burner noz(zle) on this right burner, described each right burner noz(zle) is provided with several right spray orifice.According to need Ask and entering concatenation electromagnetic valve of gas circuit on fuel gas pipeline, have intelligent controller to control the switch of each way solenoid valve, thus switch burning The quantity of mouth.Described burner noz(zle) uses one to one, or many-to-one form is corresponding with the lower end of heat exchange section of jurisdiction.I.e. one combustion Burning nozzle can the lower end of a corresponding heat exchange section of jurisdiction, it is also possible to the lower end of the corresponding heat exchange section of jurisdiction of multiple burner noz(zle)s.Heat exchanger tube The lower end of sheet is exactly the flare steam inlet port of burner noz(zle).

The outer layer of described steam box, preheating water tank and secondary water tank has the heat-insulation layer of high temperature-proof, wherein steam box Resistant to elevated temperatures thermal insulation coatings can be coated with the interior outside of secondary water tank.

The invention has the beneficial effects as follows, significantly promoting the heat utilization efficiency of the fuel gas buring of gas steam engine, steam is given vent to anger soon Speed stability and high efficiency, can export constant-temperature high-pressure steam, modularized design, and System Expansion is flexible.It is that one is the most energy-conservation, has The steam engine system that Efficient high-temperature is pressure.

Accompanying drawing explanation

The present invention will be further described with embodiment below in conjunction with the accompanying drawings.

Fig. 1 is the configuration diagram of the present invention.

Fig. 2 is the schematic diagram of steam generation chamber.

Fig. 3 is the structural representation of heat exchange section of jurisdiction.

Fig. 4 is preheating chamber schematic diagram.

101. combustor in figure, 102. steam generation chamber, 103. waste heat collectors, 104. preheating chambers, 105. air intake devices, 106. intelligence Controller, 201. air inlets, 202. sewage draining exits, 203. ventholes, 204. water inlets, 205. air vents, 210. steam boxs, 211. Secondary water tank, 212. heat exchange sections of jurisdiction, 213. detection mouths, 214. water inlets, pipeline in 215., 216. metal full wafers, 220. preheating water Case, 221. heat exchange coils, 222. outlets, 230. waterway electromagnetic valves, 231. electromagnetic valve of gas circuit, 232. burners, 233. lines Cable, 234.MCU mainboard.

Detailed description of the invention

In FIG, it is apparent that to the minimum system of the present invention, frame has six functions module, from lower past On install successively combustor (101), steam generation chamber (102), waste heat collector (103), preheating chamber (104), air draught dress Putting (105), intelligent controller (106) controls cable accordingly and is connected in remaining five parts.System external also has five Interface, is the air inlet (201) connected with combustor (101) respectively, the venthole connected with steam generation chamber (102) (203) and sewage draining exit (202), the water inlet (204) connected with preheating chamber (104), connect with air intake device (105) Air vent (205).Air inlet (201) connects combustion gas by pipeline, and water inlet (204) is connected to tap water, venthole (203) being connected to need on the facility of steam, air vent (205) is connected to exhaust emissions.

Show that the inside structure schematic diagram of steam generation chamber (102), a steam generation chamber (102) include in fig. 2 Internal steam box (210), secondary water tank (211) and several pieces heat exchanger tube sheets (212), every heat exchange section of jurisdiction (212) has two Individual port upper port (217) and lower port (218).Fig. 3 is the schematic top plan view of heat exchange section of jurisdiction (212), a piece of heat exchanger tube Sheet (212) has two panels metal forging one-shot forming, heat exchange section of jurisdiction (212) to have a pipe passage bent (215) and gold Belonging to sheet (216), sheet metal (216) and pipe passage (215) are an entirety.Fig. 4 is the preheating chamber (104) of the present invention Internal structure schematic diagram, including a preheating water tank (220), a heat exchange coil (221) and an outlet (222), This outlet (222) is connected with the water inlet (214) of steam generation chamber (102) with waterway electromagnetic valve (230) by pipeline Logical.

The operation principle of the present invention describes: gas pipeline is passed through in combustion gas, enters air inlet (201) and electromagnetic valve of gas circuit (231), air inlet to combustor (101) is lighted a fire, and burns at combustor (101), and combustor (101) has multiple burning Mouth (232), the quantity of the heat exchange section of jurisdiction (212) of the quantity of burner (232) and steam generation chamber (102) can a pair One, it is also possible to many-one, the burner noz(zle) (232) of i.e. one combustor (101) can a corresponding heat exchange section of jurisdiction (212), Can also the corresponding heat exchange section of jurisdiction (212) of multiple burner noz(zle)s (232).Water outside Tong Shi by water inlet (204) Water enters in the preheating water tank (220) of preheating chamber (104), and the water in preheating water tank (220) carries out heat exchange for the first time After intensification, intelligent controller (106), according to the sensing data detected, divides by controlling waterway electromagnetic valve (230) timesharing Step ground is injected into the warm water in preheating water tank (220) in the secondary water tank (211) of vaporium (102), the newest injection Warm water is all in original high-temperature-hot-water displacement press-in steam box (210) in secondary water tank (211), and second time is changed Heat, after high-temperature-hot-water enters steam box (210), carries out heat friendship with several pieces heat exchange sections of jurisdiction (212) in steam box (210) Change, produce substantial amounts of high-temperature steam.During whole, intelligent controller (106) is permissible according to the related data of sensor Adjust the suction air volume of air intake device (105) at any time, thus adjust the burning fire power of combustor (101), bring steaming the most accordingly The quantity of steam of vapour goes out stripping temperature with adjustment steam.Intelligent controller (106) is by controlling the water inlet of waterway electromagnetic valve (230) Amount, it is also possible to adjust the water content of steam at any time.

Here it is the most complete water vapor process of a present invention.It can thus be seen that present invention difference and existing market On the difference of steam engine: the first preheating mechanism is different, and the preheating of the first time heat exchange of the present invention is by more than one The pipeline waste heat from vaporium (102) is converged in hot collector (103) set, carries out centralized preheating, and second time uses and is The heat exchange mode of Hot swapping, is all for twice zero energy consumption preheating, i.e. need not additionally consuming the energy, utilizes waste heat.Entirely different In the reverse mechanism repeatedly preheated using flue.Second heat exchanging body in vaporium (102) is entirely different, and the present invention adopts With the heat exchange section of jurisdiction (212) of original creation, its heat exchange area is the decades of times of common heat exchanger tube, and the thermal efficiency thus brought improves, effect Benefit is also obviously.The vaporization mode of the 3rd water is different, uses substep intensification, Rapid replacement heat exchange, and reach a high temperature heat Water vapor, thus a kind of constant temp. steam is provided.4th overall architecture is different, component function modularity, the connection between module Different, simultaneously because intelligent controller (106) controls each functional module, thus easily realize can adjusting steam at any time Amount, vapor (steam) temperature, steam water content, constant temp. steam etc..

In sum, a kind of modularity efficient constant-temperature steam engine system, use modularized design, utilize changing of novelty original creation Heat pipe sheet is as the heat exchanging body of vaporium, and heat exchange efficiency is high.Use waste heat centralized recovery technology and displacement heat transfer technology, fully carry The utilization rate of heats of combustion energy, energy-saving effect is obvious.Use high-temperature-hot-water vaporisation techniques, not only go out vapour speed fast, and vaporize After temperature stabilization, water content is constant.Using intelligent controller technology, whole system is done accurately control, Automatic Control saves Shi Shengli is the most energy-conservation.

Furthermore, it is necessary to explanation, the specific embodiment described in this specification, the shape of its parts and components, taken Titles etc. can be different, and the diagram in legend is also schematic, and the above content described in this specification is only to this Bright structure example explanation.Equivalence change that all structure, feature and principles according to described in inventional idea of the present invention are done or Person's simple change, is all included in the protection domain of patent of the present invention.Those skilled in the art can be to institute The specific embodiment described makes various amendment or supplements or use similar mode to substitute, without departing from the knot of the present invention Structure or surmount scope defined in the claims, all should belong to protection scope of the present invention.

Claims (9)

1. a modularity efficient constant-temperature energy-saving steam engine system, including frame, it is characterised in that: this system also include combustor, Steam generation chamber, waste heat collector, preheating chamber, air intake device and the big parts of intelligent controller six, and water inlet, venthole, Air inlet, sewage draining exit and air vent；Water inlet is connected with the preheating water tank of preheating chamber, venthole and the steam box of steam generation chamber Top is connected, and air inlet is connected with the air inlet pipe of combustor, and sewage draining exit is connected with bottom the steam box of steam generation chamber, air vent Communicate with the tuyere tube of air intake device；Described combustor, steam generation chamber, waste heat collector, preheating chamber, air intake device and Smart controller system is installed in frame, this combustor, steam generation chamber, waste heat collector, preheating chamber and air intake device It is arranged in order from the bottom up；Six big parts collectively form a minimum system, and each parts are separate functions Module, constitutes a bigger system by increasing functional module；Outside water enters into preheating water tank from water inlet, in preheating Carrying out heat exchange for the first time in water tank, it is achieved heat up the first time of water, the water after intensification, under the control of intelligent controller, divides Time be injected into step by step in the secondary water tank of steam generation chamber, secondary water tank completes second time Hot swapping, thus realizes water Second time heats up, and replaced high-temperature-hot-water out is flowed in the steam box of steam generation chamber, with several pieces high temperature in steam box Heat exchange section of jurisdiction carries out third time heat exchange, it is achieved heats up the third time of water, forms substantial amounts of high temperature and high pressure steam and pass through venthole Output, thus complete the most energy-efficient water vapor process.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described steam The secondary water tank of generating chamber is connected by pipeline interlocking with steam box, has several pieces heat exchange sections of jurisdiction in described steam box；Described steam produces Raw room also includes water inlet and detection mouth, and water inlet is on the top of secondary water tank, by the water route electromagnetism in pipeline and concatenation pipeline Valve is connected with the outlet of preheating water tank, and detection mouth is in secondary tank top, and the cable of sensor and electromagnetic valve is connected to Based Intelligent Control On the corresponding interface of device.

3. according to a kind of modularity efficient constant-temperature energy-saving steam engine system described in claim 1 or claim 2, it is characterised in that: Described heat exchange section of jurisdiction, is a kind of by two panels metal one-time entirety forging and stamping composition, and the sheet metal of band bending pipeline, in sheet Dog leg piping constitutes burning gallery, and the whole sheet metal after forging structure becomes again a high efficient heat exchanging having huge heat exchange area simultaneously Body, the bottom that this heat exchange section of jurisdiction has upper and lower two ends, the upper end of heat exchange section of jurisdiction to be exposed at outside the top of steam box with waste heat collector communicates, The lower end of heat exchange section of jurisdiction is exposed at outside the bottom of steam box and communicates with combustor.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described preheating chamber Also including the heat exchanger tube in preheating water tank and outlet, described outlet is in the water inlet phase on preheating water tank top with steam generation chamber Even, described heat exchanger tube is fixed in preheating water tank, is a kind of coil arrangement, and the upper end of described heat exchanger tube is exposed at the top of preheating water tank Communicating with air intake device outside portion, the lower end of this heat exchanger tube is connected to waste heat collector.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described waste heat Collector is between preheating chamber and steam generation chamber, and this waste heat collector converges collection the waste heat of the upper end outlet of several heat exchange sections of jurisdiction Unify the heat exchanger tube of the preheating water tank of entrance preheating chamber；Described waste heat collector is a kind of device with flat broadening formation.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described intelligence Controller include MCU mainboard, waterway electromagnetic valve, electromagnetic valve of gas circuit, temperature sensor, level sensor, pressure transducer, Gas leakage detection sensor, multifunction push key, variable connector and display screen, waterway electromagnetic valve is serially connected in the water outlet of preheating water tank On the pipeline of mouth, electromagnetic valve of gas circuit is serially connected in air inlet pipeline, and the temperature of integration, water level, pressure transducer are placed in biography Sensor interface, variable connector controls igniting, the quick slow rotation of air intake device, the control cable of electromagnetic valve and the letter of sensor Number cable is all connected on the corresponding port of intelligent controller.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described combustor Including entering gas header pipe, entering the left arm of combustion gas, enter the right arm of combustion gas, left burner, right burner and gas control valve, described Entering the left arm of combustion gas and enter the right arm of combustion gas and be both connected on gas header pipe, described gas control valve is arranged on gas header pipe； Described left burner is connected on the left arm of combustion gas, and this left burner is provided with several left burner noz(zle), described each left combustion Burn and be provided with several left spray orifice on nozzle；Described right burner is connected on the right arm of combustion gas, and this right burner is provided with Several right burner noz(zle)s, described each right burner noz(zle) is provided with several right spray orifice.

A kind of modularity efficient constant-temperature energy-saving steam engine system the most according to claim 1, it is characterised in that: described steam The outer layer of case, preheating water tank and secondary water tank has the heat-insulation layer of high temperature-proof, and the interior outside of steam box and secondary water tank can It is coated with resistant to elevated temperatures thermal insulation coatings.

9. according to a kind of modularity efficient constant-temperature energy-saving steam engine system described in claim 3 and claim 7, it is characterised in that: Described burner noz(zle) uses one to one, or many-to-one form is done corresponding with the lower end of heat exchange section of jurisdiction.