CN1123194A - Method for burning regenerated gas CO and recovering energy thereof - Google Patents
Method for burning regenerated gas CO and recovering energy thereof Download PDFInfo
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- CN1123194A CN1123194A CN 95108743 CN95108743A CN1123194A CN 1123194 A CN1123194 A CN 1123194A CN 95108743 CN95108743 CN 95108743 CN 95108743 A CN95108743 A CN 95108743A CN 1123194 A CN1123194 A CN 1123194A
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Abstract
The method for burning regenerative CO fumes from catalytic cracking and recovering the energy of the fumes is characterized by that the CO in the fumes is burned without supplement of fuel, so that fuel is saved; burning and heat-conducting of CO is conducted respectively in CO combustor and heating device of fumes to make CO burn sufficiently; the burning fumes and the second-section regenerative fumes are sent in a fume turbine thus increasing the expanded working medium flow; the temp. at the entrance of the turbine is increased because of the front burning of CO, so that the recovering rate can be increased.
Description
The invention belongs to oil refining and petrochemical industry is energy-conservation and the energy recovery technology.
The coke that adheres on the catalytic cracking process catalyst recovers activity of such catalysts by burning (regeneration).According to having or not CO to be divided into incomplete regen-eration and holomorphosis dual mode in the flue gas.The means that holomorphosis is adopted are high-temperature oxygen-enriched operation mostly, or add CO combustion adjuvant catalytic combustion.But because catalytically cracked material character becomes heavy, the coke yield of device improves, there is excessive heat, must increases heat-obtaining facility, heat removal at regenerator, in addition, main air blower production capacity and regenerator operating linear velocity all are affected, and especially heavy metal pollution is when drawing off a large amount of equilibrium catalyst, the platinum combustion adjuvant also draws off thereupon, has increased operating cost.Adopt the incomplete regen-eration mode with the CO form 20~30% coke transfer of heat in flue gas, not only help reactor---the thermal balance of regenerator system, and can slow down main air blower ability and the high contradiction of regenerator linear speed, save the platinum combustion adjuvant of costliness.Therefore catalytic cracking particularly in the single hop of RFCC or the two-stage regeneration technology incomplete regen-eration mode be one and select preferably, the catalytic cracking unit regenerator is discharged flue gas and is had high temperature, band pressure, contains the CO combustible, and CO chemical energy, sensible heat and kinetic energy are energy-conservation importances of device in the reclaiming flue gas.
At present, contain the recovery of CO regenerated flue gas energy three kinds of flow processs are arranged
1. cigarette machine---CO boiler flow process
The flow process that the many catalytic cracking units of China contain the recovery of CO regenerated flue gas energy is:
Regenerated flue gas enters flue gas expansion turbine recovery power after isolating catalyst dust via one or more levels cyclone separator, and be used to drive main air blower or generating, the cigarette machine is discharged flue gas and is entered the CO boiler, by afterburning fuel, improve fire box temperature, after-flame CO, the combustion product gases heat is used to produce steam, discharge about flue gas cool-down to 150~200 ℃, enter atmosphere.There is following problem in this flow process.
(1) flue gas is behind the cigarette machine, and temperature has been reduced to 400~550 ℃, and what be lower than CO burning opens the combustion temperature, need infeed a large amount of auxiliary fuel afterburnings to improve flue-gas temperature.
(2) in the CO boiler, burning and heat transfer are carried out simultaneously, and the interior water screen tube place of burner hearth temperature generally is lower than CO and opens the combustion temperature, causes to enter to still have a certain amount of CO (mostly more than 500ppm) in the flue gas, is unfavorable for environmental protection.
(3) because energy for factory utilizes level to improve, device by utilizing waste heat generation steam increases, and many enterprises satisfy or satisfy full auxiliary steam needs substantially, increases a large amount of fuel steam that mostly occurs again, certainly will have influence on full factory steam balance, is unfavorable for energy-conservation and economical.
2. cigarette machine---CO combustion furnace---waste heat boiler flow process
1992, Luoyang Petrochemical engineering company was provided with the CO incinerator in two-stage regeneration technology, reclaimed one section regenerated gas CO chemical energy behind the cigarette machine, had improved the burner hearth combustion position, and afterburning is than greatly reducing, and combustion product gases advances waste heat boiler and reclaims heat energy generation steam.But existing problems are normal pressure burnings, and the stove volume is bigger, and two sections regenerated flue gas kinetic energy can not reclaim.
3.CO boiler---cigarette machine---waste heat boiler flow process
BP GB2197390 proposition catalytic cracking contains CO regenerated flue gas energy recovery process and is:
Contain CO high temperature, regenerated flue gas with pressure after three-stage cyclone separator is isolated catalyst dust, enter a malleation CO boiler, mend fuel and wind burning carbon monoxide, while heat removal generation steam, enter flue gas turbine expander expansion acting after being cooled to 600~700 ℃, be used to drive main air blower, cigarette machine outlet flue gas further is cooled to 180 ℃ by the waste heat boiler heat-obtaining and drains into atmosphere.
The characteristics of this patent are that the CO boiler is changed into malleation by normal pressure, and its position has increased waste heat boiler before changing the cigarette machine into after by the cigarette machine, is referred to as second heat collector.The CO boiler volume dwindles, but still needs postcombustion, with after-flame CO, carries out simultaneously in CO boiler internal combustion and heat transfer, and CO is unfavorable to after-flame.
The objective of the invention is at the deficiencies in the prior art, propose a kind of not afterburning material, make the regenerated flue gas energy reclaiming method of CO completing combustion.
Burning regenerated gas CO and energy reclaiming method that the present invention proposes may further comprise the steps successively:
1. the single hop regenerated flue gas mixes with pre-burning wind or one, two sections regenerated flue gas mixing of two-stage regeneration, carries out the CO precombustion in flue;
2. the regenerated flue gas after the pre-burning enters the CO burner, simultaneously, injects burning wind in burner, proceeds the CO burning;
3.CO the flue gas that burner is discharged enters flue gas heat collector heat-obtaining, reduces flue-gas temperature;
4. the flue gas of flue gas heat collector discharge enters flue gas turbine expander expansion acting;
5. the flue gas of flue gas turbine expander discharge enters waste heat boiler, discharges behind the recovery waste heat.
Be described in detail content of the present invention below in conjunction with accompanying drawing.
1. single hop regeneration technology (seeing accompanying drawing-1)
From catalytic cracking regenerator 1 discharge high temperature (650~700 ℃), pressure (0.2~0.45MPa), contain CO (2-10%) flue gas and enter flue, the pre-burning wind are injected in appropriate location 2 at the regenerator exhaust pass, and the selection of annotating the wind position should be able to guarantee to annotate that flue-gas temperature behind the wind is not less than the CO burning opens 640 ℃ of combustion temperature.For flue-gas temperature after preventing to annotate wind is low excessively, can take gradation to annotate wind.Pre-burning wind-warm syndrome degree is 150~200 ℃, pressure is 0.22~0.45MPa, the pre-burning air quantity account for CO burning with air quantity 10~40% (v), oxygen concentration is 0.8~1.5% (V) in the flue gas, CO oxidizing fire gradually in pre-burning flue 3 in the flue gas, prespark period 0.8~2.0 second, flue-gas temperature reaches 730~830 ℃, enter CO burner 4, burner pressure 0.2~0.44MPa, mend CO burning wind 5, CO is burned to below the 300PPm, temperature is raised to 850~1150 ℃, enter flue gas heat collector 6, heat removal makes flue gas cool-down to 690~730 ℃, this heat can be used for taking place steam or superheated steam, discharge flue gas and isolate catalyst dust through third level cyclone separator 7,680~710 ℃ of flue-gas temperatures, pressure 0.2~0.41MPa, enter flue gas turbine expander 8 expansion actings, drive main air blower 9 or electric generator/motor 11 (be furnished with steam turbine 10, go into operation and improper operating mode under drive main air blower 9), flue gas is discharged 530~580 ℃ of flue gas turbine expander temperature, pressure is 0.103~0.115MPa, enter flue gas waste heat boiler 12 heat removal generation steam, flue-gas temperature is reduced to 140~240 ℃, enters flue gas processing device or enters atmosphere through chimney.
Under improper operating mode, do not carry out the CO burning, can cut off pre-burning wind 2 and pressure combustion wind 5, flue gas by-passing 13 enters three and revolves; If flue gas is paid line 14, under cigarette machine failure condition, flue gas is walked around the cigarette machine and is advanced waste heat boiler 12 and enter chimney via paying line 14 decompressions.
Guaranteeing under the flue pre-burning time of staying situation that third level cyclone separator 7 also can be placed on annotates wind point 2 preceding (not marking in accompanying drawing-1).
2. two-stage regeneration technology (seeing accompanying drawing-2)
Contain CO2~10% (V) from urging cracking cracking first regenerator 2 to discharge, 650~700 ℃ of temperature, pressure 0.2~0.45MPa flue gas, 700 ℃~750 ℃ of second regenerator, 1 flue-gas temperatures, pressure 0.2~0.45MPa, contain oxygen 2~5%, two strands of flue gases are mixed into one flue gas by flue gas blender 3,640-690 ℃ of temperature contain oxygen and are 0.8~1.5% and (v), reached the combustion condition that opens of CO burning, at 4 li oxidizing fires of pre-burning flue, through 0.5~1.8 second the time of staying, the CO heat release of burning was brought up to 730~830 ℃ to flue-gas temperature and is finished the pre-burning process.Enter CO burner 5 then, CO burner pressure 0.2~0.44MPa mends burning wind 6,150~250 ℃ of temperature, and pressure is higher than flue gas pressures.Flue-gas temperature slightly reduces after annotating wind, but very fast response heat release, flue-gas temperature raises.Burning back flue-gas temperature is elevated to 850~1150 ℃, and CO content in smoke enters flue gas heat collector 7 heat removals less than 300ppm, and steam or superheated steam take place, and this heat collector 7 is the malleation waste heat boiler.Temperature is reduced to 690~730 ℃, pressure 0.20~0.41MPa, enter third level cyclone separator 8, further isolate catalyst dust, 680~710 ℃ of temperature, pressure 0.2~0.41MPa, enter flue gas turbine expander 9 expansion actings, and drive main air blower 10 (or drive generator 12 generatings, be furnished with steam turbine 11, go into operation and improper operating mode under drive main air blower 10), provide the regenerator catalyst to burn to burn and use wind with wind and flue gas CO.The cigarette machine is discharged flue-gas temperature at 530~580 ℃, and pressure is reduced to 0.103~0.115MPa and enters waste heat boiler 13, reclaims obvious heat of smoke generation steam, and 140~240 ℃ of flue gases enter flue gas processing device or enter atmosphere through chimney.
Flue gas is set pays line 14, when not needing one, two section regenerated flue gas to collaborate mixed combustion, two sections regenerated flue gas advance 13, one sections regenerated flue gas of waste heat boiler by annotating wind line 15 notes wind after the burning of pre-burning flue pre-burning via paying a line 14, advance burner 5.If flue gas turbine expander is paid line 16, when cigarette machine fault, walk around the cigarette machine.If waste heat boiler is paid line 17, during useless pot of fault, directly enter chimney.
Third level cyclone separator also can at this moment, have two third level cyclone separators (not marking in accompanying drawing-2) between second level cyclone separator outlet and one, two section flue gas mixing point 3.
Use the present invention and can reach following effect:
1. rely on CO autoxidation heat release burning CO,, can save afterburning fuel with the prior art ratio.
2. CO burns to 300ppm in the flue gas, reclaims CO chemical energy and obvious heat of smoke, energy savings, protection environment.
3.CO pressure combustion, equipment volume reduces, and investment reduces.
4. second section regenerated flue gas and CO combustion product gases are introduced flue gas turbine expander, and flue gas turbine expander expansion working medium (flue gas) flow increases by 30~50%.
5. behind employing the present invention, burning CO before the flue gas turbine expander, the flue gas turbine inlet flue-gas temperature improves 40~90 ℃.
6. comprehensive 4,5 effects, flue gas turbine expander Power Recovery rate improves 30~60%.
Comprehensive foregoing invention effect, use the present invention, without fuel combustion CO, fuel savings oil helps full factory fuel and balance of steam, make catalysis flue gas CO burning technology produce new progress, its suboptimization energy recovery process improves the heat energy and the merit rate of recovery, making plant energy consumption decline 100~180MJ/t, is 600~1,100 ten thousand yuan to the above catalytic unit of 1.0Mt/a year economic benefit.
0.8Mt/a heavy oil catalytically cracking equipment adopts single hop incomplete regen-eration technology, 680 ℃ of regenerated flue gas temperature, and pressure 0.35MPa, wet basis volume flue gas consists of: CO 7%, O
20.2%, CO
210%, N
270%, H
212.8%, exhaust gas volumn is 150nm
3/ min.
Annotate pre-burning wind on the secondary cyclone exhaust pass, 180 ℃ of pre-burning wind-warm syndrome degree, pressure 0.36MPa inject pre-burning wind at twice, annotate 33.3nm for the first time
3/ min annotates 659 ℃ of wind mixing temperatures, after 0.5 second, continues to inject 41nm through pre-burning
3/ min pre-burning wind through 1.0 seconds prespark periods, is finished the pre-burning process, and the whole temperature of flue gas pre-burning is 760 ℃, enters the CO burner.Burner is once annotated wind 116.7nm
3/ min annotates 91.7nm at CO burner middle part for the second time
3/ min, warm 1060 ℃ eventually of burnings are advanced the flue gas heat collector and are cooled to 710 ℃, isolate catalyst dust through three-stage cyclone separator, 700 ℃ of flue-gas temperatures press to be 0.3MPa, advance flue gas turbine expander expansion acting 7200kW, 550 ℃ of exhaust gas temperatures, pressure 0.106MPa advances the waste heat boiler recovery waste heat, together with flue gas heat collector heat-obtaining generation pressure 3.8MPa, 450 ℃ of steam 36.6t/h of temperature, exhaust gas temperature enters atmosphere through chimney for 200 ℃.
Embodiment 2:
1.4Mt/a heavy oil catalytically cracking equipment adopts two-stage regeneration technology, first regenerator is incomplete regen-eration, 678 ℃ of temperature, and pressure 0.35MPa (a), the wet basis flue gas consists of N
2: 69.2% (V) CO:6.92%, CO
2: 9.89%, H
2O:13.83%, O
2: 0.17%; Flue gas flow 2202nm
3/ min, second regenerator are oxygen enrichment holomorphosis, and temperature is 710 ℃, pressure 0.35MPa, and flue gas is formed N
2: 75.31%, CO:0%, O
2: 4.32%, CO
2: 13.95%; H
2O:6.4%, two again flue gas flow be 523nm
3/ min.Reclaim again and again flue gas CO chemical energy and heat energy kinetic energy.Adopt the result of calculation of the present invention and conventional method to list table 1 in, conventional method is one, two section regenerated flue gas shunting, does not reclaim two flue gas kinetic energy again, cigarette machine---CO combustion furnace---waste heat boiler flow process.
By table 1, the result adopts the present invention as can be known, can make plant energy consumption decline 181.5MJ/t, 8,910,000 yuan of Spring Festival holidays energy benefits.
Table 1 CO burning and energy reclaim result of calculation
| Project | Conventional method | The present invention | |
| Two sections flue gases mix | Exhaust gas volumn nm 3/h | ????/ | ????163579 |
| Flue gas mixing temperature ℃ | ????/ | ????674 | |
| Warm eventually ℃ of pre-burning | ????/ | ????786.58 | |
| Flue gas is formed CO% | ????/ | ????3.98 | |
| ????????CO 2% | ????/ | ????12.41 | |
| ????????O 2% | ????/ | ????0.15 | |
| Pre-burning exhaust gas volumn nm 3/h | ????/ | ????162237.6 | |
| Prespark period S | ????/ | ????1.05 | |
| The CO combustion furnace | CO furnace pressure power MPa | Often | ????0.34 |
| Charging temperature ℃ | ????533.6 | ????786.6 | |
| CO% | ????5.62 | ????3.98 | |
| O 2% | ????0.98 | ????0.15 | |
| Afterburning air capacity nm 3/h | ????56396 | ????22018 | |
| Air pressure MPa | Often | ????0.35 | |
| Afterburning material kg/h | ????1810 | ????0 | |
| Ignition temperature ℃ | ????998.7 | ????1035 | |
| Flue gas total amount nm 3/h | ????219876 | ????181023 | |
| The flue gas heat collector | Inlet temperature ℃ | ????/ | ????1035 |
| Outlet temperature ℃ | ????/ | ????700 | |
| Flue gas flow nm 3/h | ????/ | ????181023 | |
| Reclaim heat kW | ????/ | ????24685 | |
| Purposes | ????/ | Send out vapour and overheated | |
| Flue gas turbine expander | Inlet temperature ℃ | ????640 | ????700 |
| Inlet pressure MPa | ????0.31 | ????0.30 | |
| Outlet pressure MPa | ????0.106 | ????0.106 | |
| Outlet temperature ℃ | ????499 | ????550 | |
| Flue gas flow nm 3/min | ????1990 | ????2866 | |
| The molten kJ/kg that falls of flue gas | ????261.75 | ????260.2 | |
| Acting kW expands | ????8419 | ????12592 | |
| Project | Conventional method | The present invention | |
| Waste heat boiler | Inlet temperature ℃ | ????998.7 | ????550 |
| Exhaust gas temperature ℃ | ????200 | ????200 | |
| Flue gas flow nm 3/h | ????219876 | ????181023 | |
| Reclaim heat kW | ????67910 | ????25421 | |
| Total heat that reclaims | ????67910 | 50106 (comprising heat collector) | |
| Pressure MPa steams | ????3.8 | ????3.8 | |
| Vapor (steam) temperature ℃ | ????450 | ????450 | |
| Feed temperature ℃ | ????103 | ????103 | |
| Steam production | ????84.2 | ????59 | |
| Overall merit | Main air blower power consumption kW | ????9588 | ????10985 |
| Air blast power consumption kW | ????110 | ????0 | |
| Afterburning imitation frosted glass kg/h | ????1810 | ????0 | |
| Deaerated water t/h | ????90.1 | ????63.1 | |
| Generating (acting) kW | ????8419 | ????12592 | |
| Steam t/h takes place | ????84.2 | ????59 | |
| Energy consumption reduces MJ/t | ????/ | ????181.5 | |
| Power Recovery rate % | ????86.8 | ????114.6 | |
| Ten thousand yuan of Spring Festival holidays energy benefits | ????/ | ????891.1 | |
* annotate: economic benefit, press following calculation of price: 0.32 yuan/kwh of electricity, 900 yuan/t of fuel, 70 yuan of middle pressure vapour
/ t removes O
210 yuan/t of water.
Claims (6)
1. burning regenerated gas CO and energy reclaiming method is characterized in that:
(1) the single hop regenerated flue gas mixes with pre-burning wind, carries out the CO precombustion in flue;
(2) regenerated flue gas after the pre-burning enters the CO burner, simultaneously, injects burning wind in burner, proceeds the CO burning;
(3) flue gas of CO burner discharge enters flue gas heat collector heat-obtaining, reduces flue-gas temperature;
(4) flue gas of flue gas heat collector discharge enters flue gas turbine expander, the acting of expanding;
(5) flue gas of flue gas turbine expander discharge enters waste heat boiler, discharges behind the recovery waste heat.
2. burning regenerated gas CO according to claim 1 and energy reclaiming method, it is characterized in that: third level cyclone separator is set before the flue gas turbine expander, remove dust in the flue gas, its position second level cyclone separator be exported to CO pre-burning annotate between the wind point or the flue gas heat collector between the flue gas turbine expander.
3. burning regenerated gas CO according to claim 1 and 2 and energy reclaiming method, it is characterized in that: regenerated flue gas prespark period 0.8~2.0 second, the pre-burning final temperature is that oxygen concentration is 0.8~1.5% (v) in 730~830 ℃, flue gas, CO burner pressure 0.2~0.44MPa, 850~1150 ℃ of exhaust gas temperatures, 690~730 ℃ of flue gas heat collector exhaust gas temperatures, 530~580 ℃ of flue gas turbine expander exhaust gas temperatures, 140~240 ℃ of flue gas waste heat boiler exhaust gas temperatures
4. burning regenerated gas CO and energy reclaiming method is characterized in that:
(1) one, two sections regenerated flue gas of two-stage regeneration mix, and carry out the CO precombustion in flue;
(2) regenerated flue gas after the pre-burning enters the CO burner, simultaneously, injects burning wind in burner, proceeds the CO burning;
(3) flue gas of CO burner discharge enters flue gas heat collector heat-obtaining, reduces flue-gas temperature;
(4) flue gas of flue gas heat collector discharge enters flue gas turbine expander expansion acting;
(5) flue gas of flue gas turbine expander discharge enters waste heat boiler, discharges behind the recovery waste heat.
5. burning regenerated gas CO according to claim 4 and energy reclaiming method, it is characterized in that: third level cyclone separator is set before the flue gas turbine expander, remove dust, its position is between second level cyclone separator outlet and one, two section flue gas mixing point or between flue gas heat collector and the flue gas turbine expander.
6. according to claim 4 or 5 described burning regenerated gas CO and energy reclaiming methods, it is characterized in that: regenerated flue gas prespark period 0.5~1.8 second, 730~830 ℃ of pre-burning final temperatures, CO burner pressure 0.2~0.41MPa, 850~1150 ℃ of exhaust gas temperatures, 690~730 ℃ of flue gas heat collector exhaust gas temperatures, 530~580 ℃ of flue gas turbine expander exhaust gas temperatures, 140~240 ℃ of flue gas waste heat boiler exhaust gas temperatures.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN95108743A CN1048915C (en) | 1995-08-11 | 1995-08-11 | Method for burning regenerated gas CO and recovering energy thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN95108743A CN1048915C (en) | 1995-08-11 | 1995-08-11 | Method for burning regenerated gas CO and recovering energy thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1123194A true CN1123194A (en) | 1996-05-29 |
| CN1048915C CN1048915C (en) | 2000-02-02 |
Family
ID=5076863
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN95108743A Expired - Lifetime CN1048915C (en) | 1995-08-11 | 1995-08-11 | Method for burning regenerated gas CO and recovering energy thereof |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN1048915C (en) |
Cited By (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1089624C (en) * | 1998-06-09 | 2002-08-28 | 中国石油化工集团公司 | Mixed combustion technique by catalytic cracking of fume to regenerate it |
| CN1323757C (en) * | 2003-09-26 | 2007-07-04 | 中国石油化工集团公司 | Regeneration technique for fumes and gas flue in imperfect combustion |
| CN102188884A (en) * | 2010-03-03 | 2011-09-21 | 中国石油化工股份有限公司 | Method for recovering energy of incompletely regenerated flue gas generated in process of preparing olefin from methanol |
| CN102256685A (en) * | 2008-12-16 | 2011-11-23 | Ifp新能源公司 | Novel method for recovering co2 from the regeneration fumes of a catalytic cracking unit |
| CN101372631B (en) * | 2007-08-01 | 2013-02-13 | 环球油品公司 | Process and apparatus for heating regeneration gas |
| CN103121888A (en) * | 2011-11-18 | 2013-05-29 | 中国石油化工股份有限公司 | Regeneration flue gas recovery method for preparing low-carbon olefin though conversion of oxygenated chemicals |
| CN104114948A (en) * | 2011-12-15 | 2014-10-22 | 哈茨有限公司 | Systems for and methods of handling an off-gas containing carbon monoxide |
| CN110307555A (en) * | 2019-08-12 | 2019-10-08 | 胜帮科技股份有限公司 | A kind of processing pulverized coal pyrolysis burns the device and method of tail gas |
| CN110375314A (en) * | 2019-08-06 | 2019-10-25 | 西安陕鼓动力股份有限公司 | The method of flue gas energy recovery |
| CN110575796A (en) * | 2018-06-11 | 2019-12-17 | 中国石油天然气集团有限公司 | flue gas control system |
| CN113877397A (en) * | 2021-11-10 | 2022-01-04 | 中国石油大学(北京) | Carbon dioxide zero-emission catalytic cracking incomplete regeneration method |
Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE2829799C2 (en) * | 1978-07-06 | 1982-06-09 | Fritz Rathgeber | Flue gas control device for gas-heated devices |
| EP0172009A3 (en) * | 1984-08-13 | 1988-04-20 | Amoco Corporation | Sulfur oxide and particulate removal process and apparatus |
| DE3635269A1 (en) * | 1985-10-17 | 1987-04-23 | Inst Francais Du Petrole | METHOD AND TURBINE FOR RECOVERING ENERGY IN A METHOD FOR CATALYTIC CRACKING IN THE FLUID STATE, ESPECIALLY OF HEAVY BATCHES |
| GB2197390A (en) * | 1986-10-30 | 1988-05-18 | Shell Int Research | Process and apparatus for the recovery of energy from flue gases |
-
1995
- 1995-08-11 CN CN95108743A patent/CN1048915C/en not_active Expired - Lifetime
Cited By (15)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1089624C (en) * | 1998-06-09 | 2002-08-28 | 中国石油化工集团公司 | Mixed combustion technique by catalytic cracking of fume to regenerate it |
| CN1323757C (en) * | 2003-09-26 | 2007-07-04 | 中国石油化工集团公司 | Regeneration technique for fumes and gas flue in imperfect combustion |
| CN101372631B (en) * | 2007-08-01 | 2013-02-13 | 环球油品公司 | Process and apparatus for heating regeneration gas |
| CN102256685B (en) * | 2008-12-16 | 2013-12-25 | Ifp新能源公司 | Novel method for recovering CO2 from regeneration fumes of catalytic cracking unit |
| CN102256685A (en) * | 2008-12-16 | 2011-11-23 | Ifp新能源公司 | Novel method for recovering co2 from the regeneration fumes of a catalytic cracking unit |
| CN102188884A (en) * | 2010-03-03 | 2011-09-21 | 中国石油化工股份有限公司 | Method for recovering energy of incompletely regenerated flue gas generated in process of preparing olefin from methanol |
| CN102188884B (en) * | 2010-03-03 | 2013-04-03 | 中国石油化工股份有限公司 | Method for recovering energy of incompletely regenerated flue gas generated in process of preparing olefin from methanol |
| CN103121888A (en) * | 2011-11-18 | 2013-05-29 | 中国石油化工股份有限公司 | Regeneration flue gas recovery method for preparing low-carbon olefin though conversion of oxygenated chemicals |
| CN103121888B (en) * | 2011-11-18 | 2015-02-11 | 中国石油化工股份有限公司 | Regeneration flue gas recovery method for preparing low-carbon olefin though conversion of oxygenated chemicals |
| CN104114948A (en) * | 2011-12-15 | 2014-10-22 | 哈茨有限公司 | Systems for and methods of handling an off-gas containing carbon monoxide |
| CN110575796A (en) * | 2018-06-11 | 2019-12-17 | 中国石油天然气集团有限公司 | flue gas control system |
| CN110375314A (en) * | 2019-08-06 | 2019-10-25 | 西安陕鼓动力股份有限公司 | The method of flue gas energy recovery |
| CN110307555A (en) * | 2019-08-12 | 2019-10-08 | 胜帮科技股份有限公司 | A kind of processing pulverized coal pyrolysis burns the device and method of tail gas |
| CN113877397A (en) * | 2021-11-10 | 2022-01-04 | 中国石油大学(北京) | Carbon dioxide zero-emission catalytic cracking incomplete regeneration method |
| CN113877397B (en) * | 2021-11-10 | 2023-04-25 | 中国石油大学(北京) | Non-complete regeneration method for carbon dioxide zero-emission catalytic cracking |
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Assignee: Shanghai Roparker Energy Engineering Technology Development Co., Ltd. Assignor: Luoyang Petrochemical Engineering Co., China Petrochemical Group Contract fulfillment period: 2009.8.5 to 2015.8.5 contract change Contract record no.: 2009310000171 Denomination of invention: Method for burning regenerated gas CO and recovering energy thereof Granted publication date: 20000101 License type: Exclusive license Record date: 2009.8.19 |
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