CN202647700U - Thermal evaporation device - Google Patents

Thermal evaporation device Download PDF

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Publication number
CN202647700U
CN202647700U CN2011204550996U CN201120455099U CN202647700U CN 202647700 U CN202647700 U CN 202647700U CN 2011204550996 U CN2011204550996 U CN 2011204550996U CN 201120455099 U CN201120455099 U CN 201120455099U CN 202647700 U CN202647700 U CN 202647700U
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working fluid
heat
fuel
pipe
assembly
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李勇强
姚伯龙
陈东辉
赵廉
李勇良
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C-Solar New Energy Technology Ltd
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C-Solar New Energy Technology Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/30Technologies for a more efficient combustion or heat usage

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Abstract

The utility model provides a thermal evaporation device which comprises a heat-filter recycling component, a combustible material circulation component, a heat evaporation component, an accumulation shunt compensation component, an intelligent sensing controller and accessories. The heat-filter recycling component is mounted on a shell of the heat evaporation component, the combustible material circulation component is connected with the heat evaporation component through a fuel main pipe and a fuel transition pipe, the accumulation shunt compensation component is connected with a working fluid inlet-outlet port of the heat evaporation component through a working fluid transition pipe, and the intelligent sensing controller and a plurality of sensors in the accessories are arranged at proper positions of the components. A multi-curve special-shaped straight-through metal pipe serves as a heat exchange pipe core, heat exchange capacity is greatly improved, heat use rate is high, the thermal evaporation device has overall heating and single-group heating functions and is convenient to adjust and control, heat in flue gas can be sufficiently reused, operation of each link is closely monitored, allocated and trimmed by intelligent sensing elements, and the working efficiency of the thermal evaporation device is improved.

Description

A kind of thermodynamic evaporator
Technical field
The utility model relates to a kind of vaporising device, and particularly a kind of intellectuality, rapidly and efficiently can use various fuel gas or the fuel oil as main fuel, and the thermodynamic evaporator that is used in combination with solar thermal collector.
Background technology
Along with the problems such as energy shortage, greenhouse effects are day by day serious, energy savings and protection of the environment are the two large key issues that the human kind sustainable development strategy faces.Renewable energy utilization is one of important channel that addresses these problems.
Through investigation, the heat exchange mode that uses is divided into calandria, bucket type, coiled, heat pipe-type, U-shaped tubular type, circular pipe type etc. in the boiler of at present commercially available normal pressure, middle pressure, high pressure or the steam oven.Numerous heat exchanger tubes all exists the problem that heat exchange area is little, the thermal efficiency is low.According to statistics, complete combustion of fuel has the heat about 25%-35% to discharge through flue in the body of heater outlet, take the mini thermoelectric heat cogeneration facility of Elliot energy resource system company as example, regenerator outlet exhaust temperature in its waste-heat recovery device is about 250 ℃, can supply the hot water about 90 ℃ after the recycling.This shows, take full advantage of this part thermal source, can improve the thermal efficiency of whole device, emphasizing that seeming now of energy-conserving and environment-protective is particularly important.Although some boilers, evaporimeter have also used waste-heat recovery device at present, increased the additional investment cost, effect is not fully up to expectations.Commercially available solar boiler also only is that the thermal-arrest of solar energy part and existing commercially available boiler are used in combination, rather than considers from evaporimeter or the innovation of boiler self structure, causes energy-saving effect not obvious.
In order to meet the need of market, the update of the product trend that is inevitable, therefore in the urgent need to developing a kind of various heating sources that uses, particularly for regenerative resource fast, efficient, energy-saving and environmental protection, with using with the vaporising device of opening, this high-grade of new generation, high-quality, intelligentized thermodynamic evaporator will become the leading product on the evaporimeter market.
The utility model content
The utility model purpose is to provide a kind of thermodynamic evaporator for above-mentioned weak point of the prior art, improves heat-exchange capacity and heat utilization efficiency; Can carry out regulation and control and backheat utilization rate intelligent vaporising device high and that can carry out monitor closely, allotment, finishing to adding heat at any time.
For reaching the purpose of this utility model, thermodynamic evaporator of the present utility model comprises: filter recuperation of heat assembly, combustible material circulation assembly, meet the thermal evaporation assembly, accumulate shunt compensation assembly, sensing intelligent controller and accessory;
Described filter recuperation of heat assembly comprises poly-cigarette arch top cover, porous limiting plate, spiral backing pipe, trapezoidal fixed mount, Pneumatic three-way ball valve, working fluid import A, working fluid outlet B, aqueduct, working fluid, flue gas forced-ventilated device and exhanst gas outlet; Described combustible material circulation assembly comprises fuel manifold, fuel transition pipe, fuel, pipe flange and fuel flow rate modulator; Described chance thermal evaporation assembly comprises heat-exchange tube, outer tube, expansion joint, pipe cavity end socket, heat-exchange tube exhanst gas outlet, pallet, protruding core formula high pressure burner, ignition, air intake cover, fuel inlet, working fluid import C and working fluid outlet D; The described shunt compensation assembly that accumulates comprises working fluid storage tank, working fluid transition conduit, gas receiver and discharge; Described sensing intelligent controller and accessory comprise sensing intelligent controller, housing, housing insulation, spacing grid, framework and blowoff valve; Wherein,
The flue gas forced-ventilated device of described filter recuperation of heat assembly and exhanst gas outlet are fixed on the poly-cigarette arch top cover, and poly-cigarette arch top cover, porous limiting plate adopt screw to be fixed on the housing of meeting in the thermal evaporation assembly; Spiral backing pipe adopts the staggered floor stacked system to be fixed as one by trapezoidal fixed mount, and with the return bend docking, forms S shape fluid passage; After working fluid entered from working fluid import A by Pneumatic three-way ball valve, B flowed in the aqueduct from the working fluid outlet; One of aqueduct is connected with working fluid outlet B, and the other end is connected with working fluid storage tank in accumulating the shunt compensation assembly, and working fluid is exported in the B inflow working fluid storage tank from working fluid;
The fuel transition pipe of described combustible material circulation assembly adopts flange or electric welding to be fixed on the fuel manifold; The fuel flow rate modulator is installed in the import of fuel transition pipe; Fuel is filled in the fuel manifold; Fuel manifold, fuel transition pipe are fixed on the spacing grid of meeting in the heat evaporating device; Be provided with the pipe flange that docks with the fuel-feed pipe on the fuel manifold;
The heat-exchange tube concentric locking collar of described chance thermal evaporation assembly is contained in the outer tube, and the pipe dislocation cavity of generation is integral with pipe cavity end socket seal welding; Expansion joint and the welding of heat-exchange tube exhanst gas outlet; The heat-exchange tube exhanst gas outlet is sleeved in the hole of the porous limiting plate in the filter recuperation of heat assembly; Air intake cover, protruding core formula high pressure burner are fixed on the pallet; Ignition, fuel inlet are arranged on the circumferential side of pallet; Be welded with working fluid import C, working fluid outlet D on the outer tube;
The described working fluid storage tank that accumulates the shunt compensation assembly adopts analog bracket to be fixed on the housing; Sealing of working fluid transition conduit, other end and working fluid storage tank adopt flange or electric welding sealing to fix; Have several shunting pores on the working fluid transition conduit, dock with the working fluid import C sealing on the outer tube by isocon; Have several holes on the discharge, be welded and fixed by tube connector and outer tube working fluid outlet D; Sealing of discharge, other end and gas receiver adopt flange or electric welding sealing to fix; Gas receiver adopts fixed mount to be fixed on the housing in the accessory, thereby forms the complete shunt compensation assembly that accumulates; And
The sensing intelligent controller of described sensing intelligent controller and accessory is fixed on the front of evaporator shell, is designed with temperature sensor, pressure sensor, flue gas flow sensor, overheat protector, circuit water alarm device, safety valve and controllable silicon in the sensing intelligent controller; Temperature sensor is arranged in working fluid import A and working fluid outlet B and exhanst gas outlet, the evaporimeter combustion chamber, in addition, is furnished with equally temperature sensor in working fluid storage tank, the gas receiver; Pressure sensor is arranged in discharge, the gas receiver; The flue gas flow sensor setting is at exhanst gas outlet; Overheat protector, circuit water alarm device comprise that controllable silicon is installed in the sensing intelligent controller box; Safety valve is installed on the gas receiver; The housing insulation is fixed on around the inner walls; Spacing grid and housing adopt screw or rivet to be fixed on the framework; Blowoff valve is installed in working fluid storage tank one side.
Preferably, described chance thermal evaporation assembly is one group or is several assembly serial or parallel connections.
Preferred again, have the separately hole of diameter 20mm-100mm independently of 6-60 on the described porous limiting plate.
Preferred again, described spiral backing pipe is to adopt carbon junction steel tubing, combine by twining the sheet high-frequency welding, or the spiral backing that is processed into for heavy wall rust-preventing aluminum alloy pipe.
Preferred again, described heat-exchange tube is carbon junction steel or the special pipe with 5-16 curved surface tube wall of stainless steel metal round tube through being processed to form.
Described fuel is to adopt spray that the common natural gas of easily purchasing in market, natural liquefied gas, coal gas or biogas, light oil, diesel oil makes or igniting i.e. chemical industry solutions and other regenerative resources of combustion, can play with using with the purpose of opening.
Described heat-exchange tube adopt carbon junction steel, stainless steel and other corresponding heat conduction soon, the metal circular pipe that not yielding, anti-pressure ability is strong, become to have the special pipe of many curved surfaces by special equipment hydraulic pressure or drawing deformation.As required, tube wall forms 5-16 curved surface, and its heat exchange area is 1.2-1.8 times of similar round tube, thereby improves heat exchange rate.
Described working fluid adopts commercially available 2-2 superconducting fluid, conduction oil and corresponding mineral oil, liquid working fluid or the gas with uniform temperature that also can be produced by solar energy heat collector frostlessly can directly adopt boiler with soft water or clean air without the frozen ground district.
The beneficial effects of the utility model are, thermodynamic evaporator of the present utility model adopts the straight-through metal tube of many Curved surface heterotypes as the heat exchange tube core, its heat exchange area is 1.2-1.8 times of pipe under the equal conditions, significantly improves heat-exchange capacity, and heat utilization efficiency reaches more than 90%; Two of characteristics be the utility model as instant-heating type evaporimeter, possess simultaneously whole heating and single group heating function, can according to the goal task needs, regulate control to adding heat at any time; Three of characteristics are arranged on and in the poly-smoke chamber body spiral backing pipe are set, and can fully the heat in the flue gas be recycled, and the waste heat recovery rate reaches more than 75%; Four of characteristics are to have configured a series of intelligentized sensing elements, and monitor closely, allotment, finishing are carried out in each link operation, and the operating efficiency of this device is reached more than 95%.This device institute producing steam can be supplied the various fields that need hot water or steam such as daily drinking-water, LiBr-Air-conditioner refrigeration, heating, weaving, printing and dyeing, papermaking, rubber, desalinization, also can be used for energy conversion device and generates electricity.
Description of drawings
By the detailed description below in conjunction with accompanying drawing, aforesaid purpose, the feature and advantage with other of the utility model will become apparent.Wherein:
Fig. 1 is the thermodynamic evaporator front view;
Fig. 2 is the thermodynamic evaporator top view;
Fig. 3 is Fig. 1 thermodynamic evaporator A place enlarged drawing;
Fig. 4 is Fig. 1 thermodynamic evaporator B place enlarged drawing;
Figure 5 shows that the schematic cross-section of multiaspect heat-exchange tube of the present utility model;
Figure 6 shows that the schematic cross-section of plain boiler tube;
The sensing intelligent control chart of sensing type thermodynamic evaporative component of the present utility model shown in Figure 7.
The explanation of sensing type thermodynamic evaporator numbering:
Numbering Title Numbering Title Numbering Title
1 Working fluid outlet B 14 The working fluid storage tank 27 Ignition
2 Poly-cigarette arch top cover 15 Aqueduct 28 Pallet
3 Spiral backing pipe 16 The sensing intelligent controller 29 Working fluid import C
4 Exhanst gas outlet 17 Working fluid import A 30 Working fluid outlet D
5 Flue gas forced-ventilated device 18 Pneumatic three-way ball valve 31 Fuel inlet
6 Trapezoidal fixed mount 19 The porous limiting plate 32 Pipe flange
7 Discharge 20 The heat exchange exhanst gas outlet 33 Fuel
8 Gas receiver 21 Pipe cavity end socket 34 Working fluid
9 Protruding core formula high pressure burner 22 Framework 35 Housing
10 The fuel transition pipe 23 Heat-exchange tube 36 The housing insulation
11 Spacing grid 24 Outer tube 37 The fuel flow rate modulator
12 Fuel manifold 25 The working fluid transition conduit 38 Expansion joint
13 Blowoff valve 26 Air intake cover
The specific embodiment
With reference to accompanying drawing 1~4, thermodynamic evaporator of the present utility model comprises: filter recuperation of heat assembly, combustible material circulation assembly, meet the thermal evaporation assembly, accumulate shunt compensation assembly, sensing intelligent controller and accessory.Wherein filter the recuperation of heat assembly and comprise poly-cigarette arch top cover 2, porous limiting plate 19, spiral backing pipe 3, trapezoidal fixed mount 6, Pneumatic three-way ball valve 18, working fluid import A17, working fluid outlet B1, aqueduct 15, working fluid 34, flue gas forced-ventilated device 5 and exhanst gas outlet 4.Flue gas forced-ventilated device 5, exhanst gas outlet 4 are fixed on the poly-cigarette arch top cover 2, and poly-cigarette arch top cover 2, porous limiting plate 19 adopt screw to be fixed on the housing 35 of meeting in the thermal evaporation assembly; Spiral backing pipe 3 adopts the staggered floor stacked system to be fixed as one by trapezoidal fixed mount 6, and with the return bend docking, forms S shape fluid passage; After working fluid 34 entered from working fluid import A17 by Pneumatic three-way ball valve 18, B1 flowed in the aqueduct 15 from the working fluid outlet; 15 1 of aqueducts are connected with working fluid outlet B1, and the other end is connected with working fluid storage tank 14 in accumulating the shunt compensation assembly, and working fluid 34 is exported in the B1 inflow working fluid storage tank 14 from working fluid.
Combustible material circulation assembly comprises fuel manifold 12, fuel transition pipe 10, fuel 33, pipe flange 32 and fuel flow rate modulator 37.Fuel transition pipe 10 adopts flange or electric welding to be fixed on the fuel manifold 12; Fuel flow rate modulator 37 is installed in 10 imports of fuel transition pipe; Fuel 33 is filled in the fuel manifold 12; Fuel manifold 12, fuel transition pipe 10 are fixed on the spacing grid 11 of meeting in the heat evaporating device; Be provided with the pipe flange 32 that docks with the fuel-feed pipe on the fuel manifold 12.
Meet the thermal evaporation assembly and comprise heat-exchange tube 23, outer tube 24, expansion joint 38, pipe cavity end socket 21, heat-exchange tube exhanst gas outlet 20, pallet 28, protruding core formula high pressure burner 9, ignition 27, air intake cover 26, fuel inlet 31, working fluid import C29 and working fluid outlet D30.Heat-exchange tube 23 concentric locking collars are contained in the outer tube 24, and the pipe of generation dislocation cavity is integral with pipe cavity end socket 21 seal weldings; Expansion joint 38 and 20 welding of heat-exchange tube exhanst gas outlet are eliminated heat-exchange tube 23 axial expansion amounts; Heat-exchange tube exhanst gas outlet 20 is sleeved in the hole of the porous limiting plate 19 in the filter recuperation of heat assembly; Air intake cover 26, protruding core formula high pressure burner 9 are fixed on the pallet 28; Ignition 27, fuel inlet 31 are arranged on pallet 28 circumferential sides; Be welded with working fluid import C29, working fluid outlet D30 on the outer tube 24, meet the thermal evaporation assembly thereby formed one group, when reality was used, described chance thermal evaporation assembly was one group or is several assembly serial or parallel connections uses.
Accumulate the shunt compensation assembly and comprise working fluid storage tank 14, working fluid transition conduit 25, gas receiver 8 and discharge 7.Working fluid storage tank 14 adopts analog bracket to be fixed on the housing 35; 25 1 sealings of working fluid transition conduit, other end and working fluid storage tank 14 adopt flange or electric welding sealing to fix; Have several shunting pores on the working fluid transition conduit 25, dock with the working fluid import C29 sealing on the outer tube 24 by isocon; Have several holes on the discharge 7, be welded and fixed by tube connector and outer tube 24 working fluids outlet D30; 7 one sealings of discharge, other end and gas receiver 8 adopt flange or electric welding sealing to fix; Gas receiver 8 adopts fixed mounts to be fixed on the housing 35 in the accessory, thereby forms the complete shunt compensation assembly that accumulates.
Sensing intelligent controller and accessory comprise that sensing intelligent controller 16, housing 35, housing insulation 36, spacing grid 11, framework 22, blowoff valve 13 and other elements form.Sensing intelligent controller 16 is fixed on the positive appropriate location of evaporator shell 35, is designed with in the sensing intelligent controller 16: temperature sensor, pressure sensor, flue gas flow sensor, overheat protector, circuit water alarm device, safety valve, controllable silicon and other electronic components; Temperature sensor is arranged in working fluid import A17 and working fluid outlet B1 and exhanst gas outlet 4, the evaporimeter combustion chamber, in addition, and working fluid storage tank 14, the gas receiver 8 interior temperature sensors that are furnished with equally; Pressure sensor is arranged in discharge 7, the gas receiver 8; The flue gas flow sensor setting is at exhanst gas outlet 4; Overheat protector, circuit water alarm device and other electronic components comprise that controllable silicon is installed in the sensing intelligent controller box; Safety valve is installed on the gas receiver 8; Simultaneously, the fuel flow rate modulator 37 in 16 pairs of combustible material circulations of sensing intelligent controller assembly, the flue gas forced-ventilated device 5 in the filter recuperation of heat assembly play regulating and controlling effect equally.By real-time tracking under 16 pairs of this device busy states of sensing intelligent controller, gather Various types of data, thereby regulating and controlling temperature, pressure, charging, grouping igniting or whole igniting, air draft, smoke evacuation and management work fluid and fuel, the flow of output steam, hot water and flow velocity etc.Housing insulation 36 is fixed on around housing 35 inwalls; Spacing grid 11 adopt screw or rivet to be fixed on the framework 22 with housing 35; Blowoff valve 13 is installed in working fluid storage tank 14 1 sides.
Described porous limiting plate 19 be adopt carbon junction steel, stainless steel and corresponding high temperature resistant, not yielding, fast sheet metal conducts heat, preferably, have the separately hole of diameter 20mm-100mm independently of 6-60 at porous limiting plate 19, the spacing and flue gas of being convenient to heat-exchange tube 23 tube heads is discharged.
Described spiral backing pipe 3 is to adopt carbon junction steel tubing, combines by twining the sheet high-frequency welding, or the spiral backing that is processed into for heavy wall rust-preventing aluminum alloy pipe.It is to use heavy wall rust-preventing aluminum alloy pipe, directly is processed into the spiral backing by professional lathe on pipe.Because the existence of spiral backing has enlarged heat exchange area, has improved the fuel recovery utilization rate.
Described fuel 33 is to adopt spray that the common natural gas of easily purchasing in market, natural liquefied gas, coal gas or biogas, light oil, diesel oil makes or igniting i.e. chemical industry solutions and other regenerative resources of combustion, can play with using with the purpose of opening.
Described heat-exchange tube 23 is the special pipe with 5-16 curved surface tube wall through being processed to form for carbon junction steel or stainless steel metal round tube.It is adopt carbon junction steel, stainless steel or other corresponding heat conduction soon, the metal circular pipe that not yielding, anti-pressure ability is strong, become to have the special pipe of many curved surfaces by special equipment hydraulic pressure or drawing deformation.As required, tube wall forms 5-16 curved surface, and its heat exchange area is 1.2-1.8 times of similar round tube, thereby improves heat exchange rate.
Described working fluid 34 adopts commercially available 2-2 superconducting fluid, conduction oil and corresponding mineral oil, liquid working fluid or the gas with uniform temperature that also can be produced by solar energy heat collector frostlessly can directly adopt boiler with soft water or clean air without the frozen ground district.
The course of work of thermodynamic evaporator of the present utility model is as follows, working fluid by Pneumatic three-way ball valve from working fluid import A, enter the spiral backing pipe in the filter heat reclamation device, flow to aqueduct by working fluid outlet B again, enter the working fluid storage tank and store.Under the effect of pressure, the working fluid in the working fluid storage tank is delivered to the working fluid transition conduit, takes advantage of a situation and injects in the cavity that forms between chance thermal evaporation assembly outer tube and the heat-exchange tube by isocon, and is to be heated.
Simultaneously, fuel flows to protruding core formula high pressure burner through the fuel transition pipe rapidly by fuel manifold, after the fresh air of air intake cover inflow fully mixes, under the effect of ignition, rapidly detonation is at heat exchange tube inner wall moment generation high temperature, a large amount of heat energy of cavity combustion chamber pass to the working fluid in the cavity fast in the heat-exchange tube, make it rapid gasification, and converge to gas receiver via discharge, be used for " cryogenic-fluid energy conversion device " and generate electricity or absorption LiBr-Air-conditioner refrigeration.High-temperature flue gas in the heat-exchange tube is collected to the filter heat reclamation device by the heat exchange exhanst gas outlet, owing to being provided with spiral backing pipe in the filter heat reclamation device, a large amount of heat exchanges occured with spiral backing pipe in the flue gas of high temperature before flowing to exhanst gas outlet, promoted the temperature of the working fluid in the spiral backing pipe of flowing through, by absorbing flue gas heat, improve fuel availability, the working fluid that has had uniform temperature flows to aqueduct by working fluid outlet B, enter the working fluid storage tank, enter in order next flow process.
The utility model use that can match with solar-electricity, hot combined production device or other solar thermal collectors, working fluid and the soft water of use after the preliminary heating of solar energy complements each other, increase work efficiency, reduce firing rate, thereby reach the purpose of energy-conserving and environment-protective.
The sensing intelligent controller is being controlled whole equipment safety and is being moved in an orderly manner, and show that in real time working fluid import A, working fluid export the important informations such as the temperature of B, exhanst gas outlet, working fluid storage tank, gas receiver, discharge, exhanst gas outlet, pressure, flow, when detecting fume emission when smooth, the sensing intelligent controller is then opened flue gas forced-ventilated device automatically, guarantee the injection of fresh air, make full combustion of fuel; Cut off the water supply when detecting, during the dangerous phenomenon such as overheated, hypertonia, system can take corresponding automatic Protection.Control system is being controlled the flow of working fluid and augmenting of fuel.When goal task requires tolerance or the water yield less, the unnecessary heat-exchange tube of autoshutdown; When goal task requires tolerance or the water yield sufficient, automatically open all heat-exchange tubes, until reach the design peak power.
Thermodynamic evaporator of the present utility model has following obvious technology and economic advantages:
1, chance thermal evaporation assembly heat transfer rate is fast, and heat exchange area is large, efficient is high;
Because special many Curved surface metals pipe heat exchange structure, make 1.2-1.8 that heat exchange area surpasses the same specification pipe doubly.According to Fourier (Fourier) heat conduction law, the conduction velocity in the object (also claiming rate of heat flow) is that the sectional area of crossing with thermograde and type of thermal communication is proportional.Shown in boundary's schematic cross-section of multiaspect heat-exchange tube as shown in Figure 5 and plain boiler tube shown in Figure 6, same diameter is that 70mm, length are the heat-exchange tube of 1m, because the utility model heat-exchange tube adopts the straight-through metal tube of many Curved surface heterotypes as tube core, endotherm area is 1.45 times of former plain boiler tube; The straight-through metal tube of many Curved surface heterotypes is sleeved in the pipe, forms the cavity of heated working fluid between the two, and cavity volume only is 0.83 times of plain boiler tube.Under the same conditions, owing to having increased endotherm area and having reduced the pipe internal volume, make the faster steam raising of working fluid, rate of heat exchange has improved 0.74 times on the basis of original plain boiler tube.
2, in case of necessity outer tube is incubated, effect is better like this, special is used in conjunction with solar thermal collector, can energy savings, the reduction CO2 emissions, more can embody the hot advantage of speed of the present utility model.2, combustible material circulation assembly, fast pneumatic, controlled, thermal source is selected various in order;
Fuel is delivered to the igniter of each heat-exchange tube bottom by fuel manifold, for ignition.As people's main artery is mobile to each capillary of human body, though flow is little, act on very large.Fuel is under certain pressure, and flux tube is by diminishing greatly step by step, and pressure changes from small to big, and when entering combustion chambers burn, the stage casing heat forms the heat engine reason general layout of stage casing burning, epimere evaporation, hypomere preheating greater than hypomere and epimere.Take full advantage of less fuel, make the heat utilization maximization, thereby reach energy-conservation purpose.In addition, the utility model can freely be selected optimum fuel for the characteristics of fuel according to the area, in vast rural area, and the area that the biogas development foundation is good, first-selected biogas acts as a fuel.
This shows, the utility model is compared with traditional direct-combustion furnace, has an obvious fuel combustion resistance little, and consumption is few, and the heat utilization efficiency advantages of higher is for renewable energy utilization provides a splendid corollary equipment.
3, filter recuperation of heat modular construction is rationally distributed, and the waste heat recovery rate is high;
Spiral backing pipe in the filter recuperation of heat modular construction, spiral backing and circular pipe are by high-frequency welding or adopt heavy wall aluminium-alloy pipe machine-shaping one, more have excellent connection tight ness rating, difficult drop-off, crack than the heat-exchange tube that adopts the expand tube mode to process behind traditional fin sleeve pipe.Adopt in addition the dislocation stacked, can take full advantage of the hot-fluid of rising flue gas, working fluid in the heating tube, the recovery waste heat utilization rate reaches more than 75%; And thermal resistance is little, can not produce the fume emission difficult problem.This design and manufacture craft meet the law of thermodynamics fully, therefore will become the leading work in following evaporimeter, the direct-combustion boiler industry.
4, accumulate the shunt compensation component design reasonable, flow resistance is little;
For direct-fired evaporimeter and various boiler, steam oven, water system is a relatively stubborn problem, accidentally cuts off the water supply with regard to having, the problem such as booster occurs.As water system of the present utility model, accumulate the shunt compensation assembly and have more intrinsic advantage.At first, can directly be communicated with the low-temperature heat source that solar thermal collector produces by Pneumatic three-way valve; Secondly, can utilize again the Pneumatic three-way valve interface to dock with special-purpose work fluid hose, but rational allocation play with lacking with the effect of mending.The working fluid transition conduit that arranges makes working fluid enter smoothly each by solenoid electric valve and meets in the thermal evaporation assembly fluid cavity, the working fluid storage tank of depositing sufficient working fluid has played the effect in similar supply station, a whole set of supply pipe fitting thermal resistance is little, and anti-pressure ability is strong.
5, the sensing intelligent controller is safe and reliable, and is simple to operation;
If chance thermal evaporation assembly is the heart of evaporimeter, so, the sensing intelligent controller is exactly the brain of whole evaporimeter.The sensing intelligent control chart of sensing type thermodynamic evaporative component of the present utility model as shown in Figure 7.After the igniting start, move to the flow velocity control of fuel from the working fluid circulation, arrive again gas, complete monitoring is carried out in the collection of steam or hot water, and to issuablely cut off the water supply, overheated, superpressure, negative pressure exhaust, emptying take early warning and open up the benefit Intelligent treatment, guarantees the operation that whole equipment safety is orderly.Conventional boiler and direct-combustion furnace are to add computer monitoring with mechanically actuated, are sensor-type intelligent control and the utility model is carried out, and the people that only need have basic operating technical ability can operation on duty by the real examination a bit of time of training.
This shows, so complicated system is to just having become simply all the more in the intelligent sensing controler hand, and every operation is all finished in " gesticulating ".
The above only is preferred embodiment of the present utility model; the utility model is not limited to described embodiment; those skilled in the art is not breaking away from spirit of the present utility model namely openly in the scope; still can do some corrections or change, therefore rights protection scope of the present utility model is as the criterion with claims restricted portion.

Claims (5)

1. a thermodynamic evaporator is characterized in that, described thermodynamic evaporator comprises: filter recuperation of heat assembly, combustible material circulation assembly, meet the thermal evaporation assembly, accumulate shunt compensation assembly, sensing intelligent controller and accessory;
Described filter recuperation of heat assembly comprises poly-cigarette arch top cover, porous limiting plate, spiral backing pipe, trapezoidal fixed mount, Pneumatic three-way ball valve, working fluid import A, working fluid outlet B, aqueduct, working fluid, flue gas forced-ventilated device and exhanst gas outlet; Described combustible material circulation assembly comprises fuel manifold, fuel transition pipe, fuel, pipe flange and fuel flow rate modulator; Described chance thermal evaporation assembly comprises heat-exchange tube, outer tube, expansion joint, pipe cavity end socket, heat-exchange tube exhanst gas outlet, pallet, protruding core formula high pressure burner, ignition, air intake cover, fuel inlet, working fluid import C and working fluid outlet D; The described shunt compensation assembly that accumulates comprises working fluid storage tank, working fluid transition conduit, gas receiver and discharge; Described sensing intelligent controller and accessory comprise sensing intelligent controller, housing, housing insulation, spacing grid, framework and blowoff valve; Wherein,
The flue gas forced-ventilated device of described filter recuperation of heat assembly and exhanst gas outlet are fixed on the poly-cigarette arch top cover, and poly-cigarette arch top cover, porous limiting plate adopt screw to be fixed on the housing of meeting in the thermal evaporation assembly; Spiral backing pipe adopts the staggered floor stacked system to be fixed as one by trapezoidal fixed mount, and with the return bend docking, forms S shape fluid passage; After working fluid entered from working fluid import A by Pneumatic three-way ball valve, B flowed in the aqueduct from the working fluid outlet; One of aqueduct is connected with working fluid outlet B, and the other end is connected with working fluid storage tank in accumulating the shunt compensation assembly, and working fluid is exported in the B inflow working fluid storage tank from working fluid;
The fuel transition pipe of described combustible material circulation assembly adopts flange or electric welding to be fixed on the fuel manifold; The fuel flow rate modulator is installed in the import of fuel transition pipe; Fuel is filled in the fuel manifold; Fuel manifold, fuel transition pipe are fixed on the spacing grid of meeting in the heat evaporating device; Be provided with the pipe flange that docks with the fuel-feed pipe on the fuel manifold;
The heat-exchange tube concentric locking collar of described chance thermal evaporation assembly is contained in the outer tube, and the pipe dislocation cavity of generation is integral with pipe cavity end socket seal welding; Expansion joint and the welding of heat-exchange tube exhanst gas outlet; The heat-exchange tube exhanst gas outlet is sleeved in the hole of the porous limiting plate in the filter recuperation of heat assembly; Air intake cover, protruding core formula high pressure burner are fixed on the pallet; Ignition, fuel inlet are arranged on the circumferential side of pallet; Be welded with working fluid import C, working fluid outlet D on the outer tube;
The described working fluid storage tank that accumulates the shunt compensation assembly adopts analog bracket to be fixed on the housing; Sealing of working fluid transition conduit, other end and working fluid storage tank adopt flange or electric welding sealing to fix; Have several shunting pores on the working fluid transition conduit, dock with the working fluid import C sealing on the outer tube by isocon; Have several holes on the discharge, be welded and fixed by tube connector and outer tube working fluid outlet D; Sealing of discharge, other end and gas receiver adopt flange or electric welding sealing to fix; Gas receiver adopts fixed mount to be fixed on the housing in the accessory, thereby forms the complete shunt compensation assembly that accumulates; And
The sensing intelligent controller of described sensing intelligent controller and accessory is fixed on the front of evaporator shell, is designed with temperature sensor, pressure sensor, flue gas flow sensor, overheat protector, circuit water alarm device, safety valve and controllable silicon in the sensing intelligent controller; Temperature sensor is arranged in working fluid import A and working fluid outlet B and exhanst gas outlet, the evaporimeter combustion chamber, in addition, is furnished with equally temperature sensor in working fluid storage tank, the gas receiver; Pressure sensor is arranged in discharge, the gas receiver; The flue gas flow sensor setting is at exhanst gas outlet; Overheat protector, circuit water alarm device comprise that controllable silicon is installed in the sensing intelligent controller box; Safety valve is installed on the gas receiver; The housing insulation is fixed on around the inner walls; Spacing grid and housing adopt screw or rivet to be fixed on the framework; Blowoff valve is installed in working fluid storage tank one side.
2. thermodynamic evaporator according to claim 1 is characterized in that, described chance thermal evaporation assembly is one group or is several assembly serial or parallel connections.
3. thermodynamic evaporator according to claim 1 is characterized in that, has the separately hole of diameter 20mm-100mm independently of 6-60 on the described porous limiting plate.
4. thermodynamic evaporator according to claim 1 is characterized in that, described spiral backing pipe is to adopt carbon junction steel tubing, combine by twining the sheet high-frequency welding, or the spiral backing that is processed into for heavy wall rust-preventing aluminum alloy pipe.
5. thermodynamic evaporator according to claim 1 is characterized in that, described heat-exchange tube is carbon junction steel or the shape tube with 5-16 curved surface tube wall of stainless steel metal round tube through being processed to form.
CN2011204550996U 2011-11-14 2011-11-14 Thermal evaporation device Expired - Fee Related CN202647700U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102322626A (en) * 2010-08-16 2012-01-18 无锡中阳新能源科技有限公司 Sensing type thermodynamic evaporator
CN104501472A (en) * 2014-12-02 2015-04-08 北京空间飞行器总体设计部 Flow self-matching nuclear heat source irregular-shaped evaporator adapting to thermal shock

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102322626A (en) * 2010-08-16 2012-01-18 无锡中阳新能源科技有限公司 Sensing type thermodynamic evaporator
CN102322626B (en) * 2010-08-16 2014-03-12 无锡中阳新能源科技有限公司 Sensing type thermodynamic evaporator
CN104501472A (en) * 2014-12-02 2015-04-08 北京空间飞行器总体设计部 Flow self-matching nuclear heat source irregular-shaped evaporator adapting to thermal shock
CN104501472B (en) * 2014-12-02 2016-05-04 北京空间飞行器总体设计部 Adapt to the flow of thermal shock from the special-shaped evaporimeter of coupling nuclear heat source

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