CN107974269A - A kind of pyrolysis furnace - Google Patents

A kind of pyrolysis furnace Download PDF

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Publication number
CN107974269A
CN107974269A CN201610938057.5A CN201610938057A CN107974269A CN 107974269 A CN107974269 A CN 107974269A CN 201610938057 A CN201610938057 A CN 201610938057A CN 107974269 A CN107974269 A CN 107974269A
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CN
China
Prior art keywords
tube
pyrolysis furnace
furnace
radiating
convection
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Granted
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CN201610938057.5A
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Chinese (zh)
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CN107974269B (en
Inventor
张利军
周丛
王国清
杜志国
张永刚
张兆斌
刘俊杰
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Sinopec Beijing Research Institute of Chemical Industry
China Petroleum and Chemical Corp
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Sinopec Beijing Research Institute of Chemical Industry
China Petroleum and Chemical Corp
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Priority to CN201610938057.5A priority Critical patent/CN107974269B/en
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10GCRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
    • C10G9/00Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils
    • C10G9/14Thermal non-catalytic cracking, in the absence of hydrogen, of hydrocarbon oils in pipes or coils with or without auxiliary means, e.g. digesters, soaking drums, expansion means
    • C10G9/18Apparatus
    • C10G9/20Tube furnaces
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C4/00Preparation of hydrocarbons from hydrocarbons containing a larger number of carbon atoms
    • C07C4/02Preparation of hydrocarbons from hydrocarbons containing a larger number of carbon atoms by cracking a single hydrocarbon or a mixture of individually defined hydrocarbons or a normally gaseous hydrocarbon fraction
    • C07C4/04Thermal processes
    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10GCRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
    • C10G2300/00Aspects relating to hydrocarbon processing covered by groups C10G1/00 - C10G99/00
    • C10G2300/10Feedstock materials
    • C10G2300/1037Hydrocarbon fractions
    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10GCRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
    • C10G2300/00Aspects relating to hydrocarbon processing covered by groups C10G1/00 - C10G99/00
    • C10G2300/10Feedstock materials
    • C10G2300/1081Alkanes
    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10GCRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
    • C10G2400/00Products obtained by processes covered by groups C10G9/00 - C10G69/14
    • C10G2400/20C2-C4 olefins

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
  • Gasification And Melting Of Waste (AREA)

Abstract

The present invention discloses a kind of pyrolysis furnace, it includes:Convection section, the radiant section being connected with convection section, quenching boiler and drum, the convection bank being connected with the feed inlet of pyrolysis furnace is equipped with convection section, drum is arranged on the top of convection section, the furnace roof of pyrolysis furnace is equipped with the wind turbine being connected with pyrolysis furnace, multigroup radiation is equipped with radiant section to restrain, radiation tube bank includes more radiating furnace tubes, more radiating furnace tubes are arranged at intervals along the periphery of radiation tube bank, radiating furnace tube is connected with convection bank, the burner hearth bottom and burner hearth sidewall of radiant section are respectively equipped with multiple burners, the port of export of the radiating furnace tube is connected with the quenching boiler.The pyrolysis furnace of the present invention is simple in structure, by the arrangement mode for improving radiating furnace tube, the arrangement difficulty of radiating furnace tube can be reduced and can ensure that each group of radiating furnace tube in pyrolysis furnace has identical reaction condition as far as possible, while have the advantages that the pyrolysis furnace floor space of specific productivity is small.

Description

A kind of pyrolysis furnace
Technical field
The present invention relates to tube furnace cracking petroleum hydrocarbon vapor technical field, more particularly to a kind of pyrolysis furnace.
Background technology
The low-carbon alkenes such as ethene, propylene and butadiene are the important foundation raw materials of petro chemical industry.At present, low-carbon is produced The method of alkene is based on tube furnace cracking petroleum hydrocarbon vapor technique.According to statistics, about 99% ethene, more than 50% in the world Propylene and more than 90% butadiene pass through the technique productions.
The core equipment of tube furnace cracking petroleum hydrocarbon vapor technique is tube cracking furnace (hereinafter referred to as " pyrolysis furnace "), cracking When raw material such as ethane, propane, naphtha and hydrogenation tail oil are heated to high temperature in pyrolysis furnace, it may occur that carbochain fracture chemistry The purpose of reacting, generating low-carbon alkene such as ethene, propylene and butadiene product.
Since the sixties in last century, tube cracking furnace was succeeded in developing, the patent business of each pyrolysis furnace is in order to reduce construction investment And production cost, research emphasis be placed on the maximization of pyrolysis furnace, the selectivity for improving pyrolysis furnace and product yield, Extend cycle of operation of pyrolysis furnace etc..Especially in terms of the maximization of pyrolysis furnace, separate unit pyrolysis furnace is from initial less than 10,000 Ton/year production capacity development 200,000 tons/year of production capacity by now.
During continuous maximization, traditional cracking furnace pipe arrangement can not reduce specific productivity Floor space, this brings obstacle for the maximization of pyrolysis furnace.
How the boiler tube that the research of pyrolysis furnace is mostly concentrated in pyrolysis furnace radiant section at present arranges to ensure boiler tube in stove More arrangements preferably obtain radiant heat transfer at the same time in thorax so that the material in boiler tube can be quick within the extremely short residence time Heating.But it arranges that pipe row anyway is within some plane or two vertically within interactive planes, boiler tube It is still the phenomenon of linear distribution, import boiler tube and outlet boiler tube there are arranged crosswise.
Boiler tube pipe row be arranged in approximately the same plane, for the widely applied two-way boiler tube in pyrolysis furnace, it is necessary to Its inlet tube and outlet are attached, and each group of boiler tube can be undoubtedly brought (by an inlet tube in same plane arrangement Formed with outlet) cross one another, so as to cause the length of each group of boiler tube or structure inconsistent, formed between boiler tube Minute differences in structure, and then influence the reaction of cracking stock in boiler tube.
To solve the above problems, it is necessary to propose a kind of new pyrolysis furnace.
The content of the invention
The present invention proposes that one kind is simple in structure, and by improving the arrangement mode of radiating furnace tube, realizing reduces production of units energy The difficulty of pyrolysis furnace floor space and the radiating furnace tube arrangement of power and the configuration for enabling to each group of boiler tube to maintain like, So as to ensure that each group of boiler tube possesses same reaction condition as far as possible in pyrolysis furnace.
To achieve the above object, the present invention proposes a kind of pyrolysis furnace, wherein, the pyrolysis furnace includes:Convection section, with it is described Radiant section, quenching boiler and the drum that convection section is connected, wherein:
The convection bank being connected with the feed inlet of the pyrolysis furnace is equipped with the convection section, the drum is arranged on described The top of convection section, the furnace roof of the pyrolysis furnace are equipped with the wind turbine being connected with the pyrolysis furnace;
It is equipped with multigroup radiation in the radiant section to restrain, the radiation tube bank includes more radiating furnace tubes, the more spokes Penetrate boiler tube to be arranged at intervals along the periphery of the radiation tube bank, the radiating furnace tube is connected with the convection bank, the radiation The burner hearth bottom and burner hearth sidewall of section are respectively equipped with multiple burners;
The port of export of the radiating furnace tube is connected with the quenching boiler.
Pyrolysis furnace as described above, wherein, the circular in cross-section or ellipse of the more radiation tube banks.
Pyrolysis furnace as described above, wherein, the radiating furnace tube is one way boiler tube or multi-way boiler tube.
Pyrolysis furnace as described above, wherein, the one way boiler tube is straight tube or the one way boiler tube is that its arrival end is less than The diffuser of the port of export.
Pyrolysis furnace as described above, wherein, tube spacing and the one way pipe between adjacent two one way pipes Internal diameter ratio be 1.2~3.0.
Pyrolysis furnace as described above, wherein, the multi-way pipe is two-way pipe, and the two-way pipe is including an outlet and extremely A few root entry pipe, the arrival end of the inlet tube are connected with the convection bank, the port of export of the inlet tube with it is described The arrival end of outlet is connected, and the port of export of the outlet is connected with the cold boiler.
Pyrolysis furnace as described above, wherein, the diameter ratio of the internal diameter of the outlet and the inlet tube is 1~1.4.
Pyrolysis furnace as described above, wherein, tube spacing and the internal diameter ratio of the outlet between adjacent two outlets It is worth for 1.2~5.0, the internal diameter ratio of the tube spacing between adjacent two root entries pipe and the inlet tube is 1.2~5.0.
Pyrolysis furnace as described above, wherein, the radiating furnace tube is using flight plug-in part, twisted strip plug-in part, intersection saw Tooth form plug-in part, coil core plug-in part, around filigree porous body or the heat transfer element of pellet base plug-in part type.
Pyrolysis furnace as described above, wherein, the heat supply ratio of the combustion bottom burner account for combustion system for 60~ 100%.
The pyrolysis furnace of the present invention is simple in structure, by improving the arrangement mode of radiating furnace tube, can reduce radiating furnace tube Arrange difficulty and can ensure that each group of radiating furnace tube in pyrolysis furnace has identical reaction condition as far as possible, it is anti-to be conducive to cracking There should be identical reaction condition, while have the advantages that the pyrolysis furnace floor space of specific productivity is small.
Brief description of the drawings
Attached drawing described here is only used for task of explanation, and is not intended in any way to limit model disclosed by the invention Enclose.In addition, shape and proportional sizes of each component in figure etc. are only schematical, the understanding of the present invention is used to help, and It is not the specific shape and proportional sizes for limiting each component of the present invention.Those skilled in the art under the teachings of the present invention, can To select various possible shapes and proportional sizes to implement the present invention as the case may be.
Fig. 1 is the structure diagram of the pyrolysis furnace of the present invention;
Fig. 2 is the pyrolysis furnace top view of 1-1 types two-way boiler tube of the present invention;
Fig. 3 is the pyrolysis furnace top view of 2-1 types two-way boiler tube of the present invention;
Fig. 4 is the top view of the pyrolysis furnace of one way boiler tube of the present invention;
Fig. 5 is the top view of the pyrolysis furnace of two radiation tube banks of the present invention;
Fig. 6 is the top view of the pyrolysis furnace of three radiation tube banks of the present invention;
Fig. 7 is the top view of four radiation tube bank pyrolysis furnaces of the present invention;
Fig. 8 is the top view of ellipse radiation tube bank pyrolysis furnace of the invention;
Fig. 9 is the top view of the pyrolysis furnace of traditional boiler tube arrangement.
Embodiment
With reference to the description of attached drawing and the specific embodiment of the invention, details of the invention can be clearly understood.But It is the embodiment of invention described herein, is only used for explaining the purpose of the present invention, and cannot understands in any way Into being limitation of the present invention.Under the teachings of the present invention, technical staff is contemplated that any possible change based on the present invention Shape, these are regarded as belonging to the scope of the present invention, and the present invention will be further described with reference to the accompanying drawings.
Fig. 1 to Fig. 9 is respectively the structure diagram of pyrolysis furnace, pyrolysis furnace top view, the 2-1 types two of 1-1 type two-way boiler tubes The top view for the pyrolysis furnace that the pyrolysis furnace top view of journey boiler tube, the top view of the pyrolysis furnace of one way boiler tube, two radiation are restrained, three The top view for the pyrolysis furnace that a radiation is restrained, four radiation restrain the top views of pyrolysis furnace, pyrolysis furnace is restrained in ellipse radiation The top view for the pyrolysis furnace that top view, traditional boiler tube are arranged.
As shown in Figures 1 to 8, pyrolysis furnace of the invention includes:Convection section 1, the radiant section 2 being connected with convection section 1, urgency Cold boiler 3 and drum (or being HP steam drum, not shown in figure), wherein:The feed inlet phase with pyrolysis furnace is equipped with convection section 1 The convection bank (convection bank not shown in figure) of connection, drum are arranged on the top of convection section 1, the furnace roof of pyrolysis furnace be equipped with The wind turbine 4 that pyrolysis furnace is connected;Multigroup radiation is equipped with radiant section 2 and restrains 21, radiation tube bank 21 includes more radiating furnace tubes 22, More radiating furnace tubes 22 are arranged at intervals along the periphery of radiation tube bank 2, and radiating furnace tube 22 is connected with the convection bank, radiant section 2 Burner hearth bottom and burner hearth sidewall be respectively equipped with multiple burners 5 combustion system of pyrolysis furnace (form), radiating furnace tube 22 goes out Mouth end is connected with quenching boiler 3.
Specifically, in the present invention, radiation tube bank 21 is arranged in the centre of burner hearth, at the burner hearth bottom of radiation 21 surroundings of tube bank Portion and burner hearth sidewall symmetry arrangement are equipped with burner 5, and in one embodiment, the cross section of the more radiation tube banks 21 is in Circular or ellipse, each group of radiating furnace tube 22 that radiation is restrained in 21 are evenly distributed on centered on radiating 21 centers of restraining On circular or oval contour, in several combustion bottom burners 51 of each radiation 21 center arrangements of tube bank, combustion bottom burner 51 Also it is that the burner 5 being arranged on burner hearth bottom restrains the burner 5 at 21 centers positioned at radiation.
Specifically, in the present invention, radiation tube bank 21 is made of 4-20 groups radiating furnace tube 22, it is preferred that radiation tube bank 21 It is made of 6 to 12 group radiating furnace tubes 22, in an embodiment, radiating furnace tube 22 is restrained apart from radiation in radiation tube bank 21 The scope of 21 centre distances is:350mm to 1500mm.Preferably, radiating furnace tube 22 is apart from the centre distance of radiation tube bank 21 Scope is:400mm to 1200mm.
Further, the radiating furnace tube 22 is one way boiler tube or multi-way boiler tube, wherein, one way boiler tube and multi-way boiler tube It is defined as it is known to those skilled in the art that details are not described herein.
In the present invention, the gradual change of the caliber gradual change of one way boiler tube for straight tube (i.e. not reducer pipe) or from the inlet to the outlet Manage in footpath.In the present embodiment, diffuser is that the arrival end spout diameter of gradually reducer pipe is less than the diffuser of port of export spout diameter, Specifically, in the present invention, the scope of the arrival end spout diameter of the gradually reducer pipe is:25mm to 50mm, preferably entrance Holding the scope of spout diameter is:35mm to 45mm;The scope of the port of export spout diameter of the gradually reducer pipe is:35mm is extremely 65mm, the scope of preferably port of export spout diameter are:45mm to 60mm.Certainly, the caliber of one way pipe also can be according to pyrolysis furnace Size makes corresponding adjustment, i.e. the caliber of one way pipe can also use other sizes, be not particularly limited herein.
Further, in the present invention, one way boiler tube boiler tube spacing and boiler tube when being arranged during radiation is restrained is straight The ratio in footpath is:1.2-3.0, it is preferred that the one way boiler tube boiler tube spacing and boiler tube diameter when being arranged during radiation is restrained Ratio be:1.6-2.2.Inventor has found to be more advantageous to the generation of cracking reaction using the Proportionality design, while helps to prolong The cycle of operation of long pyrolysis furnace.
In one embodiment, the multi-way boiler tube is two-way boiler tube, and the two-way boiler tube includes 8 He of outlet An at least root entry pipe 9, the arrival end of the inlet tube 9 are connected with the convection bank, the port of export of inlet tube 9 and outlet The arrival end of pipe 8 is connected, and the port of export of inlet tube 9 can be connected with the arrival end of outlet 8 using bend pipe, also may be used certainly Connected using other modes, be not particularly limited herein, and the port of export of the outlet 9 is connected with the quenching boiler 3.
In one embodiment, in the two-way boiler tube, the first journey is a vertical inlet tube 9, and the second journey is A piece vertical outlet 8, forms a 1-1 type radiating furnace tube.In another embodiment, or the first journey is flat for two The vertical inlet tube 9 of row, the second journey is a vertical outlet 8, and two parallel vertical inlet tubes 9 are connected with vertical outlet 8 It is logical, a 2-1 type radiating furnace tube is formed, certainly in the two-way boiler tube, the first journey is that (n is positive integer and is not less than n roots 3) vertical inlet tube 9, the second journey is a vertical outlet 8, and the vertical inlet tube 9 of n roots is connected with vertical outlet 8 respectively, A n-1 type radiating furnace tube is formed, wherein, the number of n is not particularly limited herein.
Further, the outlet bore of the two-way boiler tube and the scope of the ratio between the entrance bore are 1~1.4 (including 1.4), so as to be more advantageous to the progress of cracking reaction.
In an embodiment, the scope of the entrance bore of the two-way boiler tube is:25mm to 60mm.It is preferred that The scope of entrance bore is:35mm to 55mm;The scope of the outlet bore of the two-way boiler tube is:45mm to 120mm. It is preferred that the scope of port of export spout diameter is:55mm to 95mm.
Further, two-way boiler tube boiler tube spacing and ratio of boiler tube diameter when being arranged during radiation is restrained is: 1.2-5.0, it is preferred that the two-way boiler tube 22 spacing of radiating furnace tube and 22 diameter of radiating furnace tube when being arranged during radiation is restrained Ratio be:1.6-3.0, radiating furnace tube 22 herein include inlet tube 9 and outlet 8.
Certainly, the multi-way boiler tube is alternatively three journey boiler tubes, quadruple pass boiler tube, five journey boiler tubes or more three journey boiler tube of journey.Three The design method of journey boiler tube be between the inlet tube 9 and outlet 8 of two-way boiler tube be equipped with one among boiler tube, middle boiler tube with Inlet tube 9 is parallel with outlet 8, and middle boiler tube connects inlet tube 9 with outlet 8, forms three journey boiler tubes in the present invention, The design method of quadruple pass boiler tube or more journey boiler tube is similar with the design method of three journey boiler tubes, no longer specifically repeats herein.
Further, in the present invention, the combustion system of pyrolysis furnace only have combustion bottom burner or by combustion bottom burner and Radiant wall burner forms, wherein, combustion bottom burner is the burner 5 of burner hearth bottom, and radiant wall burner is the burning of burner hearth sidewall Device 5, the combustion system of pyrolysis furnace are made using methane or methane, hydrogen mixture is included but not limited to as fuel using air For combustion-supporting gas, further, in the present embodiment, the heat supply ratio of combustion bottom burner is 60%~100%, preferably 70~ 85%, so as to contribute to the generation of cracking reaction.
Further, enhanced heat transfer component is used in the radiating furnace tube 22 of the radiant section 2, enhanced heat transfer component can be with It is various known or not known elements, such as flight plug-in part, twisted strip plug-in part, intersects zigzag plug-in part, coil core Plug-in part, around filigree porous body, pellet base plug-in part etc., in favor of heat transfer, wherein, these are so as to being conducive to radiating furnace tube 22 The generation of interior cracking reaction.Different enhanced heat transfer components can also be separately added into the different piece of boiler tube.So as to increase biography The thermal efficiency, advantageously reduces the degree of the difference of crack reacting condition in radiating furnace tube 22.
The cracking process of pyrolysis furnace of the present invention is as follows:The entrance of raw material (such as naphtha) through pyrolysis furnace enters convection section 1 Convection bank, convection bank also include more convection coils, i.e., into convection coil, the corresponding all-radiant furnace of convection coil Pipe is connected, and naphtha into the radiating furnace tube 22 of radiant section 2 crack anti-after convection section 1 is gasified and preheated Should, the combustion system of radiant section 2 is using combustion bottom burner and radiant wall burner combination, the heat supply ratio of combustion bottom burner 80%, burner 5 uses oxygen-enriched combusting, and burner combustion produces high-temperature flue gas, and high-temperature flue gas is to the stone brain in radiating furnace tube 22 Oil carries out radiant heating, naphtha is carried out cracking reaction in radiating furnace tube 22, and naphtha is passed through in 22 cracking of radiating furnace tube Enter afterwards in quenching boiler 3 and be cooled, obtain intermediate products, low-carbon alkene production then is finally obtained to intermediate products separation again Product, wherein, when using one way boiler tube for radiating furnace tube 22, radiating furnace tube 22 uses bottom in and top out, if radiating furnace tube 22 uses During two-way boiler tube, radiating furnace tube 22 uses to be gone out on enterprising, and the burning gases of radiant section 2 radiate the naphtha in radiating furnace tube 22 After heating, into convection section 1, the naphtha in convection bank that is used in convection section 1 in convection section 1 carry out gasification and Preheating, in the portion of convection section, burning gas temperature reduces, and steam condensation, condensate liquid enters HP steam drum, and wind turbine 4 is by low temperature Flue gas is taken away, so that the flue gas of high temperature enters in convection section 1.
The pyrolysis furnace of the present invention is simple in structure, by improving the arrangement mode of radiating furnace tube, can reduce radiating furnace tube Arrange difficulty and can ensure that each group of radiating furnace tube in pyrolysis furnace has identical reaction condition as far as possible, it is anti-to be conducive to cracking There should be identical reaction condition, while have the advantages that the pyrolysis furnace floor space of specific productivity is small.
A specific embodiment of the present invention in embodiment is contrasted with existing pyrolysis furnace, i.e., hereinafter Embodiment one is contrasted with comparative example one, to verify advantages of the present invention.
Embodiment one
Cracking reaction is carried out using the pyrolysis furnace shown in Fig. 1.Detailed process includes:
60 DEG C of naphtha is subjected to cracking reaction after convection section 2 is gasified and preheated into radiant coil 3, The combustion system of radiant section 5 uses combustion bottom burner and radiant wall burner combination, and the heat supply ratio of combustion bottom burner is 80%;Temperature, that is, pyrolysis furnace that naphtha is preheated in convection section is 590 DEG C across temperature (XOT), and the radiant section of pyrolysis furnace goes out Mouthful temperature (COT) is 830 DEG C, and radiant coil 3 uses one way boiler tube, and the entrance caliber of boiler tube is 41mm, the outlet of boiler tube Footpath is 53mm, and boiler tube pipe range is 12.8m, and boiler tube uses bottom in and top out.Boiler tube arrangement is arranged using new way as shown in Figure 4. Other technological parameters of pyrolysis furnace are as shown in table 1, learnt by carrying out analysis to pyrolysis furnace fuel gas, the group of pyrolysis furnace fuel gas Into as shown in table 2.
Table 1
Run time Embodiment 1 Comparative example 1
Inventory (kg/H) 35000 35000
Dilution steam generation amount (kg/H) 17500 17500
Fuel tolerance (Nm3/h) 7050 7050
XOT(℃) 590 590
COT(℃) 830 830
Radiant section inlet pressure XOP (Mpa, G) 0.0972 0.0972
Radiant section outlet pressure COP (Mpa, G) 0.0783 0.0783
The cycle of operation (day) (1100 DEG C of TMT up to) 33 31
Pyrolysis furnace floor space (100KTA) (m2) 32 63
Table 2
Component Mol%
Hydrogen 3.6
Methane 95.8
Ethane 0.23
Propane 0.08
Other 0.29
It is total 100.00
Comparative example 1
Cracking reaction is carried out using the pyrolysis furnace shown in Fig. 1.Detailed process includes:
60 DEG C of naphtha is subjected to cracking reaction after convection section 2 is gasified and preheated into radiant coil 3, The combustion system of radiant section 5 uses combustion bottom burner and radiant wall burner combination, and the heat supply ratio of combustion bottom burner is 80%;Temperature, that is, pyrolysis furnace that naphtha is preheated in convection section is 590 DEG C across temperature (XOT), and the radiant section of pyrolysis furnace goes out Mouthful temperature (COT) is 830 DEG C, and radiant coil 3 uses one way boiler tube, and the entrance caliber of boiler tube is 41mm, the outlet of boiler tube Footpath is 53mm, and boiler tube pipe range is 12.8m, and boiler tube uses bottom in and top out, and boiler tube arrangement is arranged using traditional approach as shown in Figure 9. Other technological parameters of pyrolysis furnace are as shown in table 1, learnt by carrying out analysis to pyrolysis furnace fuel gas, the group of pyrolysis furnace fuel gas Into as shown in table 2.
As it can be seen from table 1 after being arranged using new boiler tube, due to the preferred arrangement of boiler tube, the floor space of pyrolysis furnace From the 63m of comparative example2It is reduced to the 32m of embodiment2;Simultaneously as the preferred arrangement of boiler tube, diabatic process is more uniformly reasonable, The cycle of operation of pyrolysis furnace also extended to 33 days from the 31 of comparative example days, and the pyrolysis furnace cycle of operation has extended.
It was found from above-mentioned contrast, pyrolysis furnace of the invention is simple in structure, can by improving the arrangement mode of radiating furnace tube Reduce the arrangement difficulty of radiating furnace tube and can ensure that each group of radiating furnace tube in pyrolysis furnace has identical reaction bar as far as possible Part, being conducive to cracking reaction has identical reaction condition, while has the pyrolysis furnace floor space of specific productivity small Advantage.
Although by reference to preferred embodiment, invention has been described, is not departing from the situation of the scope of the present invention Under, various improvement can be carried out to it and component therein can be replaced with equivalent.Especially, to be rushed as long as there is no structure Prominent, items technical characteristic mentioned in the various embodiments can be combined in any way.The invention is not limited in text Disclosed in specific embodiment, but all technical solutions including falling within the scope of the appended claims.

Claims (10)

1. a kind of pyrolysis furnace, it is characterised in that the pyrolysis furnace includes:Convection section, the radiant section being connected with the convection section, Quenching boiler and drum, wherein:
The convection bank being connected with the feed inlet of the pyrolysis furnace is equipped with the convection section, the drum is arranged on the convection current The top of section, the furnace roof of the pyrolysis furnace are equipped with the wind turbine being connected with the pyrolysis furnace;
It is equipped with multigroup radiation in the radiant section to restrain, the radiation tube bank includes more radiating furnace tubes, the more all-radiant furnaces Pipe is arranged at intervals along the periphery of the radiation tube bank, and the radiating furnace tube is connected with the convection bank, the radiant section Burner hearth bottom and burner hearth sidewall are respectively equipped with multiple burners;
The port of export of the radiating furnace tube is connected with the quenching boiler.
2. pyrolysis furnace as claimed in claim 1, it is characterised in that the circular in cross-section or ellipse of the more radiation tube banks Shape.
3. pyrolysis furnace as claimed in claim 1, it is characterised in that the radiating furnace tube is one way boiler tube or multi-way boiler tube.
4. pyrolysis furnace as claimed in claim 3, it is characterised in that the one way boiler tube is straight tube or the one way boiler tube is it Arrival end is less than the diffuser of the port of export.
5. pyrolysis furnace as claimed in claim 3, it is characterised in that tube spacing between adjacent two one way pipes with it is described The internal diameter ratio of the one way pipe is 1.2~3.0.
6. pyrolysis furnace as claimed in claim 3, it is characterised in that the multi-way pipe is two-way pipe, and the two-way pipe includes one Root outlet and at least a root entry pipe, the arrival end of the inlet tube are connected with the convection bank, the inlet tube The port of export is connected with the arrival end of the outlet, and the port of export of the outlet is connected with the cold boiler.
7. pyrolysis furnace as claimed in claim 6, it is characterised in that the diameter ratio of the internal diameter of the outlet and the inlet tube It is worth for 1~1.4.
8. pyrolysis furnace as claimed in claims 6 or 7, it is characterised in that tube spacing between adjacent two outlets with it is described The internal diameter ratio of outlet is 1.2~5.0, and the tube spacing and the internal diameter ratio of the inlet tube between adjacent two root entries pipe are 1.2~5.0.
9. the pyrolysis furnace as any one of claim 1 to 7, it is characterised in that the radiating furnace tube is using in flight Plug-in unit, twisted strip plug-in part, intersect zigzag plug-in part, coil core plug-in part, around filigree porous body or pellet base plug-in part The heat transfer element of type.
10. the pyrolysis furnace as any one of claim 1 to 7, it is characterised in that the heat supply ratio of the combustion bottom burner Account for combustion system for 60~100%.
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