CN205115383U - System for oil shale rapid pyrolysis - Google Patents

Abstract

The utility model discloses a system for oil shale rapid pyrolysis, this system includes: fast pyrolysis apparatus , fast pyrolysis apparatus includes: inject reaction space in the reactor noumenon, reactor noumenon, reaction space top -down forms dispersing section, pyrolysis zone and ejection of compact district, dispersing section includes: the distributing device, the oil shale entry, the oil shale entry is located the top of distributing device, cloth gas entry, cloth gas entry with the distributing device is linked together, pyrolysis zone includes: multilayer regenerative radiant tube, multilayer regenerative radiant tube follow reactor noumenon direction of height interval distribution in pyrolysis zone to every layer of regenerative radiant tube includes a plurality of regenerative radiant tube along horizontal direction interval distribution, ejection of compact district includes: semi -coke outlet, the export of a plurality of pyrolysis gas, the export of a plurality of pyrolysis gas set up respectively at dispersing section and/or pyrolysis zone, the spray column, the spray column links to each other with the export of a plurality of pyrolysis gas. This system can realize the rapid pyrolysis of oil shale to gained shale oil productivity is higher.

Description

Resinous shale Rapid Thermal analytical system

Technical field

The utility model belongs to chemical field, and specifically, the utility model relates to a kind of resinous shale Rapid Thermal analytical system.

Background technology

Oil shale pyrolysis system can be divided into direct heat transfer stove and indirect heat transfer stove according to type of heating, and direct heat transfer stove can be divided into solid thermal carriers and gaseous heat-carrier pyrolysis oven according to the thermal barrier difference taked.Because direct heat transfer is faster than indirect heat transfer speed, efficiency is high, so modern retorting technique mainly adopts direct heat transfer stove.Technology at present based on the exploitation of direct heat transfer stove mainly contains Australian ATP stove (solid thermal carriers), Tosco-II oil shale distillation technology (solid thermal carriers) of Estonian Ge Luote (Galoter) stove (solid thermal carriers) and the exploitation of Tosco company of the U.S., the oil shale pyrolysis system of nearly 2 years studies in China mainly contain Dalian University of Technology DG technology (solid thermal carriers) and with the oil shale fluidized bed dry distillation of Shanghai Bo Sheng company development and decarbonization process (gaseous heat-carrier), but take the direct heating technology of thermal barrier to relate to the separation of thermal barrier, reheating etc., complex process, cause the system continuous on time not long.And indirect heat transfer stove mainly comprises rotary kiln, walking-beam furnace and rotary oven etc., but all there is mechanical movement, device structure complexity, maintenance cost are high, and the general thermo-efficiency of indirect heat transfer is not high.

Therefore, existing oil shale pyrolysis technology remains to be further improved.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, an object of the present utility model is to propose a kind of resinous shale Rapid Thermal analytical system, and this system can realize the fast pyrogenation of resinous shale, and gained yield of the product is higher.

In one of the present utility model, the utility model proposes a kind of resinous shale Rapid Thermal analytical system.According to embodiment of the present utility model, this system comprises:

Fast pyrolysis reactor,

Described fast pyrolysis reactor comprises:

Reactor body, limits reaction compartment in described reactor body, and described reaction compartment forms dispersion area, pyrolysis zone and discharge zone from top to bottom;

Multilayer heat accumulation type radiant tube, described multilayer heat accumulation type radiant tube is spaced apart along described reactor body short transverse in described pyrolysis zone, and every layer of described heat accumulation type radiant tube comprises multiple heat accumulation type radiant tube spaced apart in the horizontal direction;

Distributor;

Resinous shale entrance, described resinous shale entrance is positioned at described dispersion area and is positioned at the top of described distributor;

Cloth gas entrance, described cloth gas entrance is positioned at described dispersion area and is connected with described distributor, to adopt cloth gas that the resinous shale blowout in described distributor is entered dispersion area, falls into pyrolysis zone equably;

Multiple pyrolysis gas outlet, described multiple pyrolysis gas outlet is separately positioned on described dispersion area and/or described pyrolysis zone;

Semicoke exports, and described semicoke outlet is arranged on described discharge zone;

Wherein, described fast pyrolysis reactor is suitable for adopting described heat accumulation type radiant tube to carry out fast pyrolysis processes to resinous shale, to obtain semicoke and pyrolysis gas;

Spray column, described spray column is connected with described multiple pyrolysis gas outlet, and is suitable for adopting cooling fluid to carry out spray process, to obtain shale oil and combustion gas to described pyrolysis gas.

In resinous shale fast pyrogenation reactive system of the present utility model, heat accumulation type radiant tube is arranged in the mode of multilayer.Two adjacent heat accumulation type radiant tubes in the horizontal direction with vertical direction on certain spaced apart.

temperature field

According to an embodiment of the present utility model, multilayer heat accumulation type radiant tube is used for providing thermal source, make to form one or more temperature field in pyrolysis zone, and the temperature in each temperature field is uniform, thus, in pyrolysis zone formation temperature gradient.

Such as, in an embodiment of the present utility model, described pyrolysis zone forms preheating section, fast pyrogenation section and complete pyrolysis section from top to bottom.(that is, defining 3 temperature fields)

The number in temperature field and thermograde can be arranged as required.

The temperature in temperature field regulates by various ways, such as, and the number of adjustment heat accumulation type radiant tube in the horizontal direction and/or on vertical direction; The number of plies of heat accumulation type radiant tube; Heat accumulation type radiant tube spacing each other (vertical direction and/or horizontal direction); The temperature of each heat accumulation type radiant tube itself; Etc..

In an embodiment of the present utility model, heat accumulation type radiant tube being provided with gas control valve, for adjusting the flow of the combustion gas passing into heat accumulation type radiant tube, thus accurately can controlling the temperature of heat accumulation type radiant tube.

heat accumulation type radiant tube

Heat accumulation type radiant tube has burner respectively at the two ends of body, and flame formation temperature gradient when spraying of at one end burner combustion generation, that is, reduce gradually from the outside temperature of burner.Similar, in the flame that the other end burner combustion produces also formation temperature gradient when spraying.When the burner at two ends hockets burning, two the thermogrades superpositions formed, make temperature complementary, cause the homogeneous temperature of whole heat accumulation type radiant tube entirety.Such as, the temperature head on single described heat accumulation type radiant tube is not more than 30 DEG C.

Resinous shale fast pyrogenation reactive system of the present utility model uses the decoration form of heat accumulation type radiant tube of the present utility model, because heat accumulation type radiant tube attribute is inherently (described above, burner at heat accumulation type radiant tube two ends can alternate combustion fast, realize heat storage type combustion), allow to arrange one or more different temperature field at reactor as required, realize thermograde and guarantee that each temperature field has uniform temperature.

In an embodiment of the present utility model, the temperature of each heat accumulation type radiant tube is identical or different, as long as guarantee the homogeneous temperature in temperature field.

In an embodiment of the present utility model, the spacing between adjacent heat accumulation type radiant tube can be identical or different, as long as guarantee the homogeneous temperature in temperature field.Such as, the horizontal throw between adjacent described heat accumulation type radiant tube outer wall and vertically distance are separately 100 ~ 500mm, such as 200 ~ 300mm, such as 200mm, such as 300mm.

Formed from top to bottom in described pyrolysis zone in the embodiment of preheating section, fast pyrogenation section and complete pyrolysis section, the temperature of each heat accumulation type radiant tube in preheating section is identical or different, preferably identical, as long as guarantee the homogeneous temperature of preheating section.

Formed from top to bottom in described pyrolysis zone in the embodiment of preheating section, fast pyrogenation section and complete pyrolysis section, the temperature of each heat accumulation type radiant tube in fast pyrogenation section is identical or different, preferably identical, as long as guarantee the homogeneous temperature of fast pyrogenation section.

Formed from top to bottom in described pyrolysis zone in the embodiment of preheating section, fast pyrogenation section and complete pyrolysis section, the temperature of each heat accumulation type radiant tube in complete pyrolysis section is identical or different, preferably identical, as long as guarantee the homogeneous temperature of complete pyrolysis section.

Although be not limited to theory, but it is believed that, if resinous shale can not thermally equivalent in pyrolysis zone, local temperature is too high, causes resinous shale generation Pintsch process in local in pyrolytic process, the polymer substance making part in pyrolysis product can produce shale oil directly generates combustion gas and semicoke, or local temperature is too low, causes local oil shale pyrolysis in pyrolytic process insufficient, cause the volatile matter in resinous shale not discharge, thus reduce yield of the product.

In the utility model, when heat accumulation type radiant tube is arranged to form one or more temperature field, because temperature field temperature is separately roughly uniform, therefore, resinous shale is thermally equivalent when falling into each temperature field, and the degree reacted is substantially identical.Thus, along and avoid yield of the product to decline.

the quick derivation of pyrolysis gas

Utilize resinous shale fast pyrogenation reactive system of the present utility model, the quick derivation of pyrolysis gas can be realized after oil shale pyrolysis.Specifically, in an embodiment of the present utility model, the reactor of resinous shale fast pyrogenation reactive system is provided with one or more pyrolysis gas outlet on the sidewall of pyrolysis zone and/or the roof of dispersion area.In pyrolytic reaction process, produce pyrolysis gas, the pressure of this inside reactor is raised.The pyrolysis gas produced is derived from pyrolysis gas outlet fast under the ordering about of the pressure raised.

In a preferred embodiment of the present utility model, be provided with in reactor outside the air extractor be communicated with pyrolysis gas outlet, be conducive to pyrolysis gas to be derived fast from this reactor.

The pyrolysis gas produced in pyrolytic process is derived from reactor sidepiece, and the pyrolysis gas be positioned at inside pyrolysis gas outlet place, reactor contacts with the material that top falls, the thin dirt entered in the pyrolysis gas of reactor sidepiece is carried whereabouts under described material gravity effect, make dust content in the pyrolysis gas of deriving low, thus in the shale oil obtained after cooling, dust content is low.

Pyrolysis gas outlet is at least 2, such as 2-100,3-80,5-70,10-50,20-40,30-40.More specifically, pyrolysis gas outlet is 8,15,22 or 28.The utility model is not limited to this.

the quick cooling of pyrolysis gas

The pyrolysis gas of deriving from pyrolysis gas outlet is cooled rapidly by refrigerating unit, is separated by non-condensable gas thus with shale oil.

cloth

The utility model is by using distributor in addition, resinous shale can be made dispersed in pyrolysis zone, and then significantly improve the operation stability of device.

resinous shale

By arrange cloth system make that granule wax shale disperses, enter pyrolysis reactor uniformly, granule wax shale in uniform temperature field through heat exchange, each oil shale particle is heated evenly, and avoids resinous shale reunion and causes the problem that temperature rise rate is uneven and reduce and then cause hydrocarbon yield to decline.Such as resinous shale particle diameter is less than 3mm.

effect

Owing to adopting heat accumulation type radiant tube decoration form of the present utility model, resinous shale can be rapidly heated in pyrolytic process in reactor.The pyrolysis gas simultaneously produced can be derived reactor and is cooled rapidly fast.Thereby reduce contingent secondary reaction (this reaction can reduce yield of the product) in pyrolytic process, derivation process and process of cooling, therefore, the yield of the product of gained is significantly increased.

More traditional use gaseous heat-carrier or solid thermal carriers are compared as the pyrolytic reaction device of pyrolysis thermal source simultaneously, Rapid Thermal analytical system of the present utility model does not need to arrange preheating unit and carrier separating unit, thus greatly can simplify fast pyrogenation reaction process flow process, and then significantly reduce the failure rate of device.

The utility model is by adopting specific heat accumulation type radiant tube decoration form, and can form the homogeneous temperature that each temperature field also can be guaranteed in one or more temperature field in the reactor, the temperature simultaneously allowing each temperature field of reactor is controlled.Thus, make resinous shale in the reactor can thermally equivalent, realize flash baking and pyrolysis more fully, and then improve yield of the product, improve the fast pyrogenation efficiency of resinous shale.

In addition, following additional technical characteristic can also be had according to the resinous shale Rapid Thermal analytical system of the utility model above-described embodiment:

In embodiments more of the present utility model, described resinous shale Rapid Thermal analytical system comprises further: vapourizing furnace, described vapourizing furnace exports with described semicoke respectively and is connected with described heat accumulation type radiant tube, and be suitable for carrying out gasification process to described semicoke, to produce combustible gas, and described combustible gas is supplied to described heat accumulation type radiant tube.Thus, utilize pyrolysis product semicoke to gasify, the shortcoming of oil shale pyrolysis gas productive rate deficiency can be made up, thus significantly can reduce the fast pyrolysis processes cost of resinous shale.

In embodiments more of the present utility model, described resinous shale Rapid Thermal analytical system comprises further: resinous shale hopper, and described resinous shale hopper is suitable for storing resinous shale; Dry riser tube, described oven dry riser tube is connected with described resinous shale entrance with described resinous shale hopper respectively, and is suitable for adopting heat smoke to dry described resinous shale and promote, and is supplied in described fast pyrolysis reactor by the dry resinous shale obtained; And first blower fan, described first blower fan is connected with described oven dry riser tube with described heat accumulation type radiant tube respectively, and is suitable for the high-temperature flue gas that described heat accumulation type radiant tube produces being supplied to described oven dry riser tube and uses as described heat smoke.Thus, when making resinous shale enter stove, moisture is little, and heat dissipation is few, thus realizes the rapid heating of resinous shale, can improve the pyrolysis efficiency of resinous shale further.

In embodiments more of the present utility model, described resinous shale Rapid Thermal analytical system comprises further: oil pump, and described oil pump is connected with described spray column, and is suitable for that a part for described shale oil is back to described spray column and uses as described cooling fluid; Storage tank, described storage tank is connected with described oil pump, and is suitable for storing shale oil described in another part; Combustion gas storage tank, described combustion gas storage tank is connected with described spray column, and is suitable for storing described combustion gas; Second blower fan, described second blower fan is connected with described heat accumulation type radiant tube with described combustion gas storage tank respectively, and is suitable for a part for described combustion gas to be supplied to described heat accumulation type radiant tube; And the 3rd blower fan, described 3rd blower fan is connected with described cloth gas entrance with described combustion gas storage tank respectively, and is suitable for another part of described combustion gas being supplied to described cloth gas entrance and uses as cloth gas.Thus, the recycle of cooling fluid and fuel can be realized, thus significantly reduce costs.

In embodiments more of the present utility model, every layer of described heat accumulation type radiant tube comprises multiple parallel and equally distributed heat accumulation type radiant tube and each described heat accumulation type radiant tube is parallel with each heat accumulation type radiant tube in adjacent upper and lower two-layer heat accumulation type radiant tube and be in staggered distribution along reactor body short transverse.Thus, material enters reactor, and can to carry out material by radiator tube uniform, ensured the homogeneous heating of material at reactor, thus improved the fast pyrogenation efficiency of resinous shale further.

In embodiments more of the present utility model, the height of described reactor body is 2 ~ 20m, the caliber of described heat accumulation type radiant tube is 100 ~ 500mm, and the horizontal throw between adjacent described heat accumulation type radiant tube outer wall and vertically distance are separately 100 ~ 500mm.Thus, the resinous shale fast pyrogenation residence time can be ensured, thus improve the fast pyrogenation efficiency of resinous shale further.

In embodiments more of the present utility model, heat accumulation type radiant tube is regenerative gas radiator tube, and the heat namely produced by combustion gas by radiator tube body carries out heat supply in the mode of radiation.

In embodiments more of the present utility model, described heat accumulation type radiant tube is provided with gas control valve, use multilayer heat accumulation type radiant tube provides the thermal source needed for pyrolytic process, can adjust the flow of the combustion gas passing into heat accumulation type radiant tube, thus accurately can control the temperature of pyrolytic process.

In an embodiment of utility model, the number of plies of multilayer heat accumulation type radiant tube can be 6-30 layer.Contriver finds, this kind of structural arrangement can make uniform distribution of temperature field in pyrolysis zone, thus can significantly improve the fast pyrogenation efficiency of resinous shale, and then improves the productive rate of shale oil.

In embodiments more of the present utility model, temperature head on single described heat accumulation type radiant tube is not more than 30 DEG C, described pyrolysis zone forms preheating section, fast pyrogenation section and complete pyrolysis section from top to bottom, the heat accumulation type radiant tube temperature of described preheating section is 550 ~ 900 DEG C, the heat accumulation type radiant tube temperature of described fast pyrogenation section is 500 ~ 800 DEG C, and the heat accumulation type radiant tube temperature of described complete pyrolysis section is 500 ~ 800 DEG C.Thus, can realization response device regional homogeneous temperature, and regulate reactor regional temperature, realize the flash baking of resinous shale and complete pyrolysis, improve the fast pyrogenation efficiency of resinous shale further.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the system architecture schematic diagram of the resinous shale fast pyrogenation according to the utility model embodiment;

Fig. 2 is the structural representation according to the fast pyrolysis reactor in the resinous shale Rapid Thermal analytical system of the utility model embodiment;

Fig. 3 is the system architecture schematic diagram of the resinous shale fast pyrogenation according to another embodiment of the utility model;

Fig. 4 is the system architecture schematic diagram of the resinous shale fast pyrogenation according to another embodiment of the utility model;

Fig. 5 is the system architecture schematic diagram of the resinous shale fast pyrogenation according to another embodiment of the utility model;

Fig. 6 is the system architecture schematic diagram of the resinous shale fast pyrogenation according to another embodiment of the utility model;

Fig. 7 is the method flow schematic diagram of the system implementation resinous shale fast pyrogenation of resinous shale fast pyrogenation according to the utility model embodiment;

Fig. 8 is the method flow schematic diagram stream of the system implementation resinous shale fast pyrogenation of resinous shale fast pyrogenation according to another embodiment of the utility model;

Fig. 9 is the method flow schematic diagram of the system implementation resinous shale fast pyrogenation of resinous shale fast pyrogenation according to another embodiment of the utility model;

Figure 10 is the method flow schematic diagram of the system implementation resinous shale fast pyrogenation of resinous shale fast pyrogenation according to another embodiment of the utility model;

Figure 11 is the method flow schematic diagram of the system implementation resinous shale fast pyrogenation of resinous shale fast pyrogenation according to another embodiment of the utility model.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary indirect contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In one of the present utility model, the utility model proposes a kind of resinous shale Rapid Thermal analytical system.Resinous shale Rapid Thermal analytical system below with reference to Fig. 1-5 pairs of the utility model embodiments is described in detail.According to embodiment of the present utility model, this system comprises:

Fast pyrolysis reactor 100: according to embodiment of the present utility model, with reference to figure 2, fast pyrolysis reactor 100 comprises reactor body 10, reaction compartment 11 is limited in reactor body 10, according to specific embodiment of the utility model, reaction compartment 11 forms dispersion area 12, pyrolysis zone 13 and discharge zone 14 from top to bottom.

According to embodiment of the present utility model, there is in reaction compartment 11 multilayer heat accumulation type radiant tube 15 and distributor 16.

According to embodiment of the present utility model, reactor body 10 has resinous shale entrance 101, cloth gas entrance 102, multiple pyrolysis gas outlet 103 and semicoke outlet 104.

According to embodiment of the present utility model, resinous shale entrance 101 is positioned at dispersion area 12 and is positioned at the top of distributor 16, and to be suitable for resinous shale to be supplied in reaction compartment 11 and to be dispersed in pyrolysis zone after distributor.Concrete, resinous shale entrance 101 can be positioned on the sidewall of dispersion area 12.

According to embodiment of the present utility model, cloth gas entrance 102 is positioned at inside, dispersion area 12 and is connected with distributor 16, and be suitable in distributor 16, supply cloth gas (nitrogen etc.), the resinous shale blowout in distributor 16 is entered dispersion area 12, thus resinous shale is uniformly distributed in pyrolysis zone, and then improve the fast pyrogenation efficiency of resinous shale further.Concrete, cloth gas entrance 102 can be positioned on the sidewall of dispersion area 12.

According to embodiment of the present utility model, multilayer heat accumulation type radiant tube 15 is spaced apart along reactor body 10 short transverse in pyrolysis zone 13, and every layer of heat accumulation type radiant tube comprises multiple heat accumulation type radiant tube spaced apart in the horizontal direction, according to specific embodiment of the utility model, every layer of heat accumulation type radiant tube comprises multiple parallel and equally distributed heat accumulation type radiant tube and each heat accumulation type radiant tube is parallel with each heat accumulation type radiant tube in adjacent upper and lower two-layer heat accumulation type radiant tube and be in staggered distribution along reactor body short transverse.According to concrete example of the present utility model, the caliber of heat accumulation type radiant tube can be 100 ~ 500mm.Thus, the fast pyrogenation efficiency of resinous shale can be significantly improved, and then improve the productive rate of shale oil.

According to embodiment of the present utility model, the horizontal throw between adjacent heat accumulation type radiant tube outer wall and vertically distance are separately 100 ~ 500mm.It should be explained that, horizontal throw between adjacent heat accumulation type radiant tube outer wall can be understood as the distance on same layer between heat accumulation type radiant tube outer wall, and the vertical distance between adjacent heat accumulation type radiant tube outer wall can be understood as adjacent upper and lower two interlayers adjacent heat accumulation type radiant tube outer wall between distance.

According to embodiment of the present utility model, the number of plies of multilayer heat accumulation type radiant tube can be 6-30 layer.Contriver finds, this kind of structural arrangement can make uniform distribution of temperature field in pyrolysis zone, thus can significantly improve the fast pyrogenation efficiency of resinous shale, and then improves the productive rate of shale oil.

According to embodiment of the present utility model, heat accumulation type radiant tube can be regenerative gas radiator tube, namely carries out heat supply by combustion gas in radiator tube body in thermal-radiating mode.According to specific embodiment of the utility model, heat accumulation type radiant tube can be provided with gas control valve (not shown).Thus, the flow passing into the combustion gas of heat accumulation type radiant tube can be regulated to wait the accurate temperature controlling realized pyrolytic process by adjustment gas control valve, thus the fast pyrogenation efficiency of resinous shale can be significantly improved, and then improve the productive rate of shale oil.

Concrete, the accurate temperature controlling of the realizations such as the flow of the combustion gas of heat accumulation type radiant tube to pyrolytic process can be passed into by adjustment, and adopt rapid switching valve, the temperature field of single radiator tube is more or less the same in 30 DEG C, thus ensures the homogeneity in temperature field in reaction compartment.

According to embodiment of the present utility model, pyrolysis zone forms preheating section, fast pyrogenation section and complete pyrolysis section from top to bottom, the heat accumulation type radiant tube temperature of preheating section is 550 ~ 900 DEG C, the heat accumulation type radiant tube temperature of fast pyrogenation section is 500 ~ 800 DEG C, and the heat accumulation type radiant tube temperature of complete pyrolysis section is 500 ~ 800 DEG C.Thus, the pyrolysis efficiency of resinous shale can be improved further.

According to embodiment of the present utility model, it is inner that distributor 16 can be positioned at dispersion area 12, and be suitable for adopting the rare gas elementes such as nitrogen that the resinous shale blowout in distributor 16 is entered dispersion area, falls into pyrolysis zone equably, thus make it evenly be scattered in pyrolysis zone.Thus, comparatively conventional rapid thermal solution technique is compared, and the utility model can save rotation (stirring) unit by adopting distributor, and then significantly reduces the failure rate of device.It should be noted that, " distributor " herein can for any device adopting gas to be dispelled by resinous shale in prior art.Concrete, distributor 16 can be positioned on the sidewall of dispersion area 12.

According to embodiment of the present utility model, multiple pyrolysis gas outlet 103 can be separately positioned on dispersion area 12 and/or pyrolysis zone 13.According to specific embodiment of the utility model, multiple pyrolysis gas outlet 103 can be separately positioned on the top of dispersion area 12 and/or the sidewall of pyrolysis zone 13.Contriver finds, gives vent to anger and/or sidewall is given vent to anger the mode combined by adopting top, the semicoke in pyrolysis gas can be made settlement separate, thus significantly reduce the dust content of pyrolysis gas.From the angle of technological design, the mode of giving vent to anger from the sidewall of pyrolysis zone is preferred.

According to embodiment of the present utility model, semicoke outlet 104 can be arranged on discharge zone 14, and is suitable for pyrogenous origin semicoke to discharge discharge zone.Concrete, semicoke outlet 104 can be arranged on the bottom of discharge zone 14.

According to embodiment of the present utility model, the inner-wall surface of dispersion area 12 can spherically type or taper.Thus, the resinous shale broken up through distributor can be made evenly to trickle down in pyrolysis zone behind dispersion area, thus improve the pyrolysis efficiency of resinous shale further.

According to embodiment of the present utility model, discharge zone 14 can be back taper.Thus, pyrogenous origin semicoke can be made to discharge discharge zone smoothly.

According to embodiment of the present utility model, the height of reactor body 10 can be 2 ~ 20m.Thus, the complete pyrolysis to resinous shale can be realized.

According to embodiment of the present utility model, fast pyrolysis reactor is suitable for adopting heat accumulation type radiant tube to carry out fast pyrolysis processes to resinous shale, to obtain semicoke and pyrolysis gas.Thus, costly shale oil can be prepared.According to an embodiment of the present utility model, the granularity of resinous shale is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, the granularity of resinous shale can lower than 3mm.Thus, the unserviceable difficult problem of powdery resinous shale in prior art can be solved.According to another embodiment of the present utility model, the fast pyrogenation time of resinous shale is 2 ~ 30 seconds.Thus, effectively can reduce secondary pyrolytic reaction and the crosslinking reaction degree of pyrolysis product, thus significantly improve the productive rate of shale oil.

Spray column 200: according to embodiment of the present utility model, spray column 200 is connected with multiple pyrolysis gas outlet 103, and is suitable for adopting cooling fluid to carry out spray process to pyrolysis gas, thus can obtain shale oil and combustion gas.According to specific embodiment of the utility model, spray column 200 inside can be provided with multilayer nozzle 21, and the below that spray column 200 inside is positioned at every layer of nozzle is provided with filler 22.Thus, seizure and the purification of combustion gas can be realized, thus significantly improve the separation efficiency of combustion gas and shale oil.Concrete, spray column inside can be provided with two-layer nozzle.It should be noted that, in every layer of nozzle, multiple nozzle can be comprised.According to an embodiment of the present utility model, the particular type of cooling fluid is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, cooling fluid can adopt shale oil.According to another embodiment of the present utility model, pyrolysis gas was down to less than 60 degrees Celsius from 450 ~ 500 degrees Celsius in spray column in 1 ~ 2 second.Thus, the separation efficiency of combustion gas and shale oil can be improved further.

Thermal source is provided by using multilayer heat accumulation type radiant tube for pyrolytic process according to the resinous shale fast pyrogenation reactive system of the utility model embodiment, the flow that can pass into the combustion gas of heat accumulation type radiant tube by adjustment realizes the accurate temperature controlling to pyrolytic process, and heat accumulation type radiant tube passes through quick commutation and the heat storage type combustion at two ends, ensure that the homogeneity in temperature field, thus the fast pyrogenation efficiency of resinous shale can be significantly improved, and then improve the productive rate of shale oil, more traditional use gaseous heat-carrier or solid thermal carriers are compared as the pyrolytic reaction device of pyrolysis thermal source simultaneously, Rapid Thermal analytical system of the present utility model does not need to arrange preheating unit and carrier separating unit, thus greatly can simplify fast pyrogenation reaction process flow process, and then significantly reduce device failure rate and in gained resinous shale dust content lower, the utility model is by using distributor in addition, resinous shale can be made dispersed in pyrolysis zone, and resinous shale can be prevented the wearing and tearing of radiator tube, and then significantly improve the operation stability of device.

With reference to figure 3, the resinous shale Rapid Thermal analytical system according to the utility model embodiment comprises further:

Vapourizing furnace 300: according to embodiment of the present utility model, vapourizing furnace 300 exports 104 with semicoke respectively and is connected with heat accumulation type radiant tube 15, and be suitable for carrying out gasification process to semicoke, thus can combustible gas be produced, and this combustible gas is supplied in heat accumulation type radiant tube.Thus, carry out gasification generation combustible gas by the semicoke using internal system to produce, can remarkable conservation cost, and do not need additionally to arrange combustible gas feedway, thus significantly reduce processing cost.

With reference to figure 4, the resinous shale Rapid Thermal analytical system according to the utility model embodiment comprises further:

Resinous shale hopper 400: according to embodiment of the present utility model, resinous shale hopper 400 is suitable for storing resinous shale.It should be noted that, " resinous shale hopper " herein can for any device that may be used for oil in reserve shale existed in prior art.

Dry riser tube 500: according to embodiment of the present utility model, dry riser tube 500 to be connected with resinous shale entrance 101 with resinous shale hopper 400 respectively, and be suitable for before resinous shale is carried out fast pyrogenation reaction, adopt heat smoke to carry out drying and lifting to resinous shale, and the resinous shale of the drying obtained is supplied in fast pyrolysis reactor 100.According to an embodiment of the present utility model, the temperature of heat smoke is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, the temperature of heat smoke can be 200 ~ 250 DEG C.Thus, not only can make full use of the waste heat of flue gas, system energy consumption is significantly reduced, and effectively can avoid the too high fire safety hidden danger brought of resinous shale temperature.Concrete, those skilled in the art also can adopt cyclonic separator to carry out gas solid separation to the resinous shale mixture through super-dry, and the dry resinous shale of gained is stored in dry resinous shale hopper, then in fast pyrolysis reactor, supply dry resinous shale by dry resinous shale hopper and carry out fast pyrogenation reaction, discharge again after carrying out purifying treatment through the flue gas of cyclonic separator gained simultaneously.

First blower fan 600: according to embodiment of the present utility model, the first blower fan 600 respectively with heat accumulation type radiant tube 15 with dry riser tube 500 and be connected, and the high-temperature flue gas being suitable for being obtained by heat accumulation type radiant tube is supplied to and dries riser tube and use as heat smoke.Thus, the waste heat of flue gas can be made full use of, thus reduce production cost further.

With reference to figure 5, the resinous shale Rapid Thermal analytical system according to the utility model embodiment comprises further:

Oil pump 700: according to embodiment of the present utility model, oil pump 700 is connected with spray column 200, and is suitable for that a part for shale oil is back to spray column 200 and uses as cooling fluid.Thus, by using the isolated shale oil of internal system to use as cooling fluid, extra cooling fluid device for supplying can be saved, thus save the investment of equipment cost.

Storage tank 800: according to embodiment of the present utility model, storage tank 800 is connected with oil pump 700, and is suitable for storing another part shale oil.

With reference to figure 6, the resinous shale Rapid Thermal analytical system according to the utility model embodiment comprises further:

Combustion gas storage tank 900: according to embodiment of the present utility model, combustion gas storage tank 900 is connected with spray column 200, and is suitable for storing combustion gas.

Second blower fan 1000: according to embodiment of the present utility model, the second blower fan 1000 is connected with heat accumulation type radiant tube 15 with combustion gas storage tank 900 respectively, and is suitable for a part for combustion gas to be supplied to heat accumulation type radiant tube 15.Thus, the recycle of the energy in system can be realized, thus significantly reduce processing cost.

3rd blower fan 1100: according to embodiment of the present utility model, the 3rd blower fan 1100 is connected with cloth gas entrance 102 with combustion gas storage tank 900 respectively, and is suitable for another part of combustion gas being supplied to cloth gas entrance and uses as cloth gas.Thus, combustion gas can be adopted to be broken up by the resinous shale entered from resinous shale entrance, thus make it evenly be scattered in pyrolysis zone.

Conveniently understand, below the technique of the resinous shale fast pyrolysis systems adopting the utility model embodiment is described in detail.

Concrete, resinous shale (granularity is lower than 3mm) enters oven dry riser tube through the discharge opening of resinous shale feed hopper bottom, under the effect of heat smoke (200 ~ 250 DEG C), resinous shale dried and promote, obtain the mixture (80 ~ 100 DEG C) containing cooling flue gas and dry resinous shale, then the mixture containing lower the temperature flue gas and dry resinous shale obtained is supplied to cyclonic separator and carries out gas solid separation process, obtain dry resinous shale and cooling flue gas, the dry resinous shale obtained is stored in dry resinous shale hopper, then the dry resinous shale be stored in dry resinous shale hopper to be supplied in fast pyrolysis reactor in reaction compartment through worm conveyor, the accurate temperature controlling of the realization such as the combustion gas of heat accumulation type radiant tube and the flow of air to pyrolytic process is passed into by adjustment, the heat accumulation type radiant tube temperature of preheating section is made to be 550 ~ 900 DEG C, the heat accumulation type radiant tube temperature of described fast pyrogenation section is 500 ~ 800 DEG C, the heat accumulation type radiant tube temperature of described complete pyrolysis section is 500 ~ 800 DEG C, the resinous shale entered is broken up by the distributor be arranged in below resinous shale entrance and is scatter at through part, resinous shale is made to be dispersed in pyrolysis zone, the pyrolysis gas generated is discharged from the pyrolysis gas outlet on reactor body sidewall and/or top, and the semicoke produced in pyrolytic process discharges reactor body through semicoke outlet, the pyrolysis gas of discharging from pyrolysis gas outlet is supplied in cyclonic separator and carries out gas solid separation process, be separated the pyrolysis gas obtaining semicoke particle and purification, the semicoke particle obtained is stored in semicoke hopper, then the semicoke of gained and semicoke particle are supplied in vapourizing furnace by transfer roller and carry out gasification process, to produce combustible gas, and gained combustible gas is supplied in heat accumulation type radiant tube, the high-temperature flue gas produced in radiator tube is supplied to dry in riser tube by the first blower fan and uses as heat smoke, and the pyrolysis gas be purified is supplied in spray column carry out spray process, pyrolysis gas dropped to less than 60 DEG C from 450 ~ 500 DEG C in 1 ~ 2 second, wherein oil vapour is captured formation shale oil, thus be separated with combustion gas, a part for the shale oil obtained is supplied in spray column by oil pump and uses as cooling fluid, another part pyrolysis is driven in storage tank through oil pump and stores, simultaneously, gas storage separation obtained is in combustion gas storage tank, then a part of combustion gas be stored in combustion gas storage tank is supplied in heat accumulation type radiant tube through the second blower fan, another combustion gas in combustion gas storage tank is supplied to cloth gas entrance through the 3rd blower fan as cloth gas, the resinous shale entered from resinous shale entrance is broken up, it is made evenly to be scattered in reaction compartment.

As mentioned above, can have according to the resinous shale Rapid Thermal analytical system of the utility model embodiment and be selected from following advantage one of at least:

Resinous shale Rapid Thermal analytical system according to the utility model embodiment can process powdery resinous shale, and nearly 90% of gained yield of the product Da Gejin experiment, because shale oil is worth high, therefore the economy benefit of this system is very high, is conducive to its marketing;

Resinous shale Rapid Thermal analytical system according to the utility model embodiment takes heat accumulation type radiant tube technology, for indirect heating technology, work simplification, the occupation area of equipment of same treatment amount and cost decline close to half, and can extend the trouble free continuous operating time of system.

In order to further understanding, below with reference to Fig. 7-11, the method for the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation according to the utility model embodiment is described in detail.According to embodiment of the present utility model, the method comprises:

S100: resinous shale is carried out fast pyrolysis processes in fast pyrolysis reactor

According to embodiment of the present utility model, resinous shale is supplied to reaction compartment from resinous shale entrance, combustible gas and air are supplied in heat accumulation type radiant tube respectively, combustible gas is burnt in heat accumulation type radiant tube produce heat to carry out fast pyrolysis processes to resinous shale, thus pyrolysis gas and semicoke can be obtained.

According to an embodiment of the present utility model, the granularity of resinous shale is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, the granularity of resinous shale can lower than 3mm.Thus, the unserviceable difficult problem of powdery resinous shale in prior art can be solved.According to another embodiment of the present utility model, the fast pyrogenation time of resinous shale is 2 ~ 30 seconds.Thus, effectively can reduce secondary pyrolytic reaction and the crosslinking reaction degree of pyrolysis product, thus significantly improve the productive rate of shale oil.

Concrete, the accurate temperature controlling of the realizations such as the flow of the combustion gas of heat accumulation type radiant tube to pyrolytic process can be passed into by adjustment, and adopt rapid switching valve, the temperature field of single radiator tube is made to be more or less the same in 30 DEG C, thus the homogeneity in temperature field in guarantee reaction compartment, and make the heat accumulation type radiant tube temperature of preheating section be 550 ~ 900 DEG C by adjustment, the heat accumulation type radiant tube temperature of described fast pyrogenation section is 500 ~ 800 DEG C, and the heat accumulation type radiant tube temperature of described complete pyrolysis section is 500 ~ 800 DEG C.

S200: pyrolysis gas is carried out in spray column spray process

According to embodiment of the present utility model, in spray column, adopt cooling fluid to be supplied in spray column the pyrolysis gas of discharging through pyrolysis gas outlet and carry out spray process, thus shale oil and combustion gas can be obtained.According to an embodiment of the present utility model, the particular type of cooling fluid is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, cooling fluid can adopt shale oil.According to another embodiment of the present utility model, pyrolysis gas was down to less than 60 degrees Celsius from 450 ~ 500 degrees Celsius in spray column in 1 ~ 2 second.Thus, the separation efficiency of combustion gas and shale oil can be improved further.

Thermal source is provided by using multilayer heat accumulation type radiant tube for pyrolytic process according to the method for the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation of the utility model embodiment, the flow that can pass into the combustion gas of heat accumulation type radiant tube by adjustment realizes the accurate temperature controlling to pyrolytic process, and heat accumulation type radiant tube passes through quick commutation and the heat storage type combustion at two ends, ensure that the homogeneity in temperature field, thus the fast pyrogenation efficiency of resinous shale can be significantly improved, and then improve the productive rate of shale oil, more traditional use gaseous heat-carrier or solid thermal carriers are compared as the pyrolytic reaction device of pyrolysis thermal source simultaneously, Rapid Thermal analytical system of the present utility model does not need to arrange preheating unit and carrier separating unit, thus greatly can simplify fast pyrogenation reaction process flow process, and then significantly reduce device failure rate and in gained resinous shale dust content lower, the utility model is by using distributor in addition, resinous shale can be made dispersed in pyrolysis zone, and resinous shale can be prevented the wearing and tearing of radiator tube, and then significantly improve the operation stability of device.

With reference to figure 8, the method according to the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation of the utility model embodiment comprises further:

S300: adopt vapourizing furnace to carry out gasification process to semicoke, and obtained combustible gas is supplied to heat accumulation type radiant tube

According to embodiment of the present utility model, adopt vapourizing furnace to export to semicoke the semicoke obtained and carry out gasification process, thus can combustible gas be produced, and this combustible gas is supplied in heat accumulation type radiant tube.Thus, carry out gasification generation combustible gas by the semicoke using internal system to produce, can remarkable conservation cost, and do not need additionally to arrange combustible gas feedway, thus significantly reduce processing cost.

With reference to figure 9, the method according to the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation of the utility model embodiment comprises further:

S400: adopt heat smoke to carry out drying and lifting to resinous shale in oven dry riser tube in advance

According to embodiment of the present utility model, before resinous shale is supplied to reaction compartment, in oven dry riser tube, adopt heat smoke to carry out drying and lifting to resinous shale in advance, thus the mixture containing cooling flue gas and dry resinous shale can be obtained.According to an embodiment of the present utility model, the temperature of heat smoke is also not particularly limited, and those skilled in the art can select according to actual needs, and according to specific embodiment of the utility model, the temperature of heat smoke can be 200 ~ 250 DEG C.Thus, not only can make full use of the waste heat of flue gas, system energy consumption is significantly reduced, and effectively can avoid the too high fire safety hidden danger brought of resinous shale temperature.Concrete, those skilled in the art also can adopt cyclonic separator to carry out gas solid separation to the resinous shale mixture through super-dry, and the dry resinous shale of gained is stored in dry resinous shale hopper, then in fast pyrolysis reactor, supply dry resinous shale by dry resinous shale hopper and carry out fast pyrogenation reaction, discharge again after carrying out purifying treatment through the flue gas of cyclonic separator gained simultaneously.

S500: adopt the first blower fan to be supplied to by high-temperature flue gas and dry in riser tube

According to embodiment of the present utility model, adopt the first blower fan to be supplied in oven dry riser tube through exhanst gas outlet by high-temperature flue gas and use as heat smoke.Thus, the waste heat of flue gas can be made full use of, thus reduce production cost further.

With reference to Figure 10, the method according to the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation of the utility model embodiment comprises further:

S600: adopt oil pump that a part for shale oil is supplied to spray column

According to embodiment of the present utility model, adopt oil pump that a part for shale oil is back to spray column and use as cooling fluid.Thus, by using the isolated shale oil of internal system to use as cooling fluid, extra cooling fluid device for supplying can be saved, thus save the investment of equipment cost.

S700: another part of shale oil is stored in storage tank

According to embodiment of the present utility model, another part spray column being separated the shale oil obtained is stored in storage tank.

With reference to Figure 11, the method according to the system implementation resinous shale fast pyrogenation of the resinous shale fast pyrogenation of the utility model embodiment comprises further:

S800: by gas storage in combustion gas storage tank

According to embodiment of the present utility model, according to embodiment of the present utility model, the gas storage that obtains will be separated in spray column in combustion gas storage tank.

S900: adopt the second blower fan that a part for combustion gas is supplied to heat accumulation type radiant tube as fuel

According to embodiment of the present utility model, adopt the second blower fan by and be suitable for a part for combustion gas to be supplied to heat accumulation type radiant tube as fuel.Thus, the recycle of the energy in system can be realized, thus significantly reduce processing cost.

S1000: adopt the 3rd blower fan that another part of combustion gas is supplied to cloth gas entrance

According to embodiment of the present utility model, adopt the 3rd blower fan another part of combustion gas to be supplied to cloth gas entrance and use as cloth gas.Thus, combustion gas can be adopted to be broken up by the resinous shale entered from resinous shale entrance, thus make it evenly be scattered in pyrolysis zone.

It should be noted that, the above-mentioned method being suitable for this resinous shale fast pyrogenation for the feature and advantage described by resinous shale Rapid Thermal analytical system equally, repeats no more herein.

Below with reference to specific embodiment, be described the utility model, it should be noted that, these embodiments are only descriptive, and limit the utility model never in any form.

Embodiment 1

The present embodiment 1 adopts the system of the biomass fast pyrogenation of Fig. 1-6, wherein, 30 layers of heat accumulation type radiant tube 15 are spaced apart along reactor body 10 short transverse in pyrolysis zone 13, and adjacent heat accumulation type radiant tube separates and parallel distribution straggly with uniform distances in level and reactor body height both direction.Heat accumulation type radiant tube adopts caliber to be the round tube of 100mm, and in level, the outer wall distance of adjacent radiation pipe is 100mm, and the outer wall spacing of levels adjacent radiation pipe is 100mm.

Utilize resinous shale fast pyrogenation reactive system of the present utility model to process resinous shale, particle diameter is at the model of below 3mm

Enclose, its resinous shale analytical data, process operation parameter and material balance in Table 1-3, fast pyrogenation time 30s.

Table 1 resinous shale analytical data

Table 2 process operation parameter

Sequence number	Parameter name	Parameter value
			1	Preheating section radiator tube temperature	550℃
2	Reactor preheating section temperature	424℃
			3	Fast pyrogenation section radiator tube temperature	500℃
4	Reactor fast pyrogenation section temperature	455℃
			5	Complete pyrolysis section radiator tube temperature	500℃
6	The complete pyrolysis section temperature of reactor	485℃

Note: the reactor in table 2 refers to fast pyrolysis reactor.

Table 3 material balance table

Embodiment 2

The present embodiment 2 adopts the resinous shale Rapid Thermal analytical system of Fig. 1-2, wherein, 6 layers of heat accumulation type radiant tube 15 are spaced apart along reactor body 10 short transverse in pyrolysis zone 13, and adjacent heat accumulation type radiant tube separates and parallel distribution straggly with uniform distances in level and reactor body height both direction.Heat accumulation type radiant tube adopts caliber to be the round tube of 500mm, and in level, the outer wall distance of adjacent radiation pipe is 500mm, and the outer wall spacing of levels adjacent radiation pipe is 500mm.

Utilize resinous shale fast pyrogenation reactive system of the present utility model to process resinous shale, particle diameter, in the scope of below 2mm, treats that pyrolysis oil shale raw material is with embodiment 1, process operation parameter and material balance in Table 4-5, fast pyrogenation time 2s.

Table 4 process operation parameter

Sequence number	Parameter name	Parameter value
			1	Preheating section radiator tube temperature	900℃
2	Reactor preheating section temperature	487℃

3	Fast pyrogenation section radiator tube temperature	800℃
			4	Reactor fast pyrogenation section temperature	526℃
5	Complete pyrolysis section radiator tube temperature	800℃
			6	The complete pyrolysis section temperature of reactor	572℃

Note: the reactor in table 4 refers to fast pyrolysis reactor.

Table 5 material balance table

In the description of this specification sheets, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this specification sheets or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (7)

1. a resinous shale Rapid Thermal analytical system, is characterized in that, comprising:

Fast pyrolysis reactor,

Described fast pyrolysis reactor comprises:

Reactor body, limits reaction compartment in described reactor body, and described reaction compartment forms dispersion area, pyrolysis zone and discharge zone from top to bottom;

Described dispersion area comprises:

Distributor;

Resinous shale entrance, described resinous shale entrance is positioned at the top of described distributor;

Cloth gas entrance, described cloth gas entrance is connected with described distributor;

Described pyrolysis zone comprises:

Multilayer heat accumulation type radiant tube, described multilayer heat accumulation type radiant tube is spaced apart along described reactor body short transverse in described pyrolysis zone, and every layer of described heat accumulation type radiant tube comprises multiple heat accumulation type radiant tube spaced apart in the horizontal direction;

Described discharge zone comprises: semicoke exports;

Multiple pyrolysis gas outlet, described multiple pyrolysis gas outlet is separately positioned on described dispersion area and/or described pyrolysis zone; Spray column, described spray column is connected with described multiple pyrolysis gas outlet.

2. resinous shale Rapid Thermal analytical system according to claim 1, is characterized in that, comprise further:

Vapourizing furnace, described vapourizing furnace exports with described semicoke respectively and is connected with described heat accumulation type radiant tube.

3. resinous shale Rapid Thermal analytical system according to claim 1, is characterized in that, comprise further:

Resinous shale hopper, described resinous shale hopper is suitable for storing resinous shale;

Dry riser tube, described oven dry riser tube is connected with described resinous shale entrance with described resinous shale hopper respectively; And

First blower fan, described first blower fan is connected with described oven dry riser tube with described heat accumulation type radiant tube respectively.

4. resinous shale Rapid Thermal analytical system according to claim 1, is characterized in that, comprise further:

Oil pump, described oil pump is connected with described spray column;

Storage tank, described storage tank is connected with described oil pump;

Combustion gas storage tank, described combustion gas storage tank is connected with described spray column;

Second blower fan, described second blower fan is connected with described heat accumulation type radiant tube with described combustion gas storage tank respectively; And

3rd blower fan, described 3rd blower fan is connected with described cloth gas entrance with described combustion gas storage tank respectively.

5. resinous shale Rapid Thermal analytical system according to claim 1, it is characterized in that, every layer of described heat accumulation type radiant tube comprises multiple parallel and equally distributed heat accumulation type radiant tube and each described heat accumulation type radiant tube is parallel with each heat accumulation type radiant tube in adjacent upper and lower two-layer heat accumulation type radiant tube and be in staggered distribution along reactor body short transverse.

6. resinous shale Rapid Thermal analytical system according to claim 1, it is characterized in that, the height of described reactor body is 2 ~ 20m, the caliber of described heat accumulation type radiant tube is 100 ~ 500mm, and the horizontal throw between adjacent described heat accumulation type radiant tube outer wall and vertically distance are separately 100 ~ 500mm.

7. resinous shale Rapid Thermal analytical system according to claim 1, is characterized in that, described heat accumulation type radiant tube is provided with gas control valve.