• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Device and method of unburnt management for regenerative burners, burner comprising such a device. An unburnt management device comprising a regenerative tank having one end connected to a combustion chamber (3) and an opposite end connected to a fuel inlet pipe (4) and a smoke exhaust pipe (8), the pipes being provided with valve means (2; 10) for alternating an intake phase and an exhaust phase through the regenerative tank. A purge circuit (1) connected to the regenerative tank (5) purges the latter of the fuel it contains before the exhaust phase. Corresponding unburnt management method. Burner comprising such a device.
    公开号:BE1022130B1
    申请号:E2012/0423
    申请日:2012-06-21
    公开日:2016-02-18
    发明作者:Yves Braud;Ludovic Ferrand;Luc Malpas
    申请人:Cockerill Maintenance & Ingenierie S.A.;
    IPC主号:
    专利说明:

    Device and method for managing unburnt regenerative burners, burner comprising such a device
    The present invention relates to a device and a method for managing unburnt in circuits using a regenerative tank. The device and the method are particularly intended to be used for the regeneration of blast furnace gas. The invention also relates to a regenerative burner comprising such a device.
    Regenerative systems are known which make it possible to preheat a gas with a low calorific value in order to increase the flame temperature.
    By this means, it is possible to reach a temperature sufficient to be able to exploit this gas in an industrial process. These systems make it possible to valorize poor gases, such as blast furnace gases produced incidentally during the operation of iron and steel installations. This operation has the dual advantage of lowering the energy bill of an installation and avoiding having to discharge the gases directly into the atmosphere, these gases often having one. negative environmental impact.
    In a conventional regenerative system, two burners are paired and operate in a cycle that alternates an intake phase and an exhaust phase. For this purpose, each burner is associated with fuel and oxidizer intake ducts and a flue exhaust duct. Valves control the opening of the ducts so that the burner cyclically alternates a combustion function in which a mixture of fuel and oxidant (most often air) is injected into the burner which ignites the latter and a combustion function. exhaust in which the burner, then inactive, is simply traversed by the combustion fumes. Each burner is equipped with a regenerative tank that acts as a heat accumulator by: - preheating the fuel that passes through it by giving up heat during the intake phase; absorbing the heat of the exhaust fumes which pass through it during the exhaust phase.
    Furnaces using regenerative systems on lean gas nevertheless emit relatively polluting discharges so that they are mainly based in Asia, where environmental legislation allows such polluting discharges. Flaring after-combustion systems or flue gas treatment before discharge to the atmosphere can control the level of pollution related to discharges but have a significant impact on the environment as well as operational costs (investment, investment time). immobilization of the entire production unit for the installation and maintenance of such particularly high equipment.
    An object of the invention is to provide a simple and economical way to limit the pollution generated. by installations equipped with regenerative systems.
    However, it has been found that the cyclic operation results in the rejection, with the exhaust fumes, unburned fuel contained in the regenerative tank and that this rejection has a relatively large share in the pollution generated by furnaces equipped with regenerative systems . The invention aims to purge the regenerative tank of the fuel it contains before the exhaust phase and thus prevent the rejection of the latter to the atmosphere.
    This solution is an affordable alternative to expensive afterburner or waste treatment devices. For this purpose, there is provided, according to the invention, an unburnt management device comprising a regenerative tank having an end connected to a combustion chamber and an opposite end connected to a fuel intake pipe and a fuel pipe. exhaust fumes. The pipes are provided with valves for alternating an intake phase and an exhaust phase through the regenerative tank and the device comprises a purge circuit connected to the regenerative tank and arranged to purge the latter of the fuel that it contains before the exhaust phase.
    According to the invention, the purge circuit is arranged to also purge a fuel intake pipe and comprises depressive means.
    Thus, the products released during the exhaust phase do not include the fuel residue contained in the regenerative tank or in the intake pipe following the intake phase that preceded the exhaust phase considered. The purge circuit can be connected directly to the regenerative tank or to any pipe which is connected to this tank and which can be isolated from the network, for example by a system of valves. This flexibility makes the implementation of such. system on an existing facility easy and able to take into account the constructive subjugations of the equipment in place.
    Advantageously, the fuel contained in the regenerative tank is directed towards the combustion chamber in order to be burned.
    This produces a combustion of all the fuel admitted, a short purge circuit, simple and easy installation.
    Ideally, the combustion chamber is that of a reheating furnace participating in the operation.
    The low cost of manufacturing and installing such equipment, its ability to be implemented on an existing installation with a reduced downtime of equipment, and the immediate improvement of energy efficiency and impact environmental burner equipped make this alternative to flares and smoke treatment systems particularly attractive. . The invention also relates to a method for managing unburned by means of a device of the aforementioned type. The invention finally relates to a regenerative burner comprising a device of the aforementioned type. Other features and advantages of the invention will emerge on reading the following description of particular non-limiting embodiments of the invention.
    Reference will be made to the accompanying drawings, among which: FIG. 1 is a view of a system of paired regenerative burners, not equipped with the invention; - Figure 2 is a view of a regenerative burner equipped with the invention. .
    The unburnt management device is here installed on a regenerative burner generally designated BR for preheating blast furnace gas.
    The regenerative burner BR comprises a regenerative tank 5 having one end connected to a fuel supply pipe 4, the opening of which is controlled by an intake valve [2], to an exhaust pipe [8] whose opening is controlled by an exhaust valve [10], and an opposite end opening into a combustion chamber 3. The combustion chamber 3 is supplied with oxidant (here air) via a supply line 6 combustion air controlled by the supply valve 7. An exhaust pipe 8 opens from the regenerative tank 5 to the flue gas discharge circuit 9 whose access is controlled by the exhaust valve 10.
    In its general operating principle, the burner alternates an admission phase. and an escape phase. During an intake phase, the regenerative tank 5 gives heat to the fuel so that the chamber receives combustion air and heated fuel which is burned in the enclosure. During the exhaust phase, after burning the fuel present in the chamber, the regenerative tank 5 passes through the fumes that result from the combustion and which give heat to the regenerative tank 5 before being discharged into the pipe 8. The intake phase can then resume and the cycle continues.
    A purge circuit generally designated 1 is here implanted downstream of the fuel admission valve 2. It consists of the following elements: an inlet valve of the purge circuit 1.1; a pipe 1.2 equipped with a gas ejector. 1.3; a purge end sensor 1.4, here in the form of a temperature sensor.
    The purge circuit 1 connects the combustion chamber 3 and, downstream of the fuel admission valve 2, the intake pipe 4. This arrangement allows, as will be seen later, the purge of the the entire regenerative burner BR (regenerative tank 5 and fuel intake pipe 4) and not the regenerative tank 5 alone.
    The operation of the burner and purge circuit will now be described in more detail.
    The operating cycle of the regenerative burner starts with an intake phase. In the initial state, the intake valves 2, exhaust 10, combustion air supply 7 and inlet of the purge circuit 1.1 are closed. The fuel admission valve 2 is open, filling the intake pipe 4, the regenerative tank 5 and supplying the combustion chamber 3.
    While the combustion chamber 3 is supplied with a determined amount of fuel, the supply valve 7 is open and provides the required volume of combustion air via the combustion air supply line 6. The required quantities air and fuel having been introduced into the combustion chamber 3, the valves 2 and 7 are closed. Thus, all the valves of the system is in a closed state.
    It is important to note that since the combustion takes place in the enclosure 3, the fuel contained in the supply pipe 4 as well as in the regenerative tank 5 is not burned.
    When combustion is complete, the regenerative burner goes through the purge phase. The inlet valve of purge circuit 1.1 is open. The gas ejector 1.3 is operated. The fluids (fuel and fumes) upstream of it are then sucked and directed to the combustion chamber 3 via the pipe 1.2. The fuel present in the regenerative tank 5 and in the intake pipe 4 is sucked up and replaced by combustion fumes coming from the enclosure 3. The fuel admitted into the enclosure 3 ignites during the combustion phase of the burner paired. The combustion air necessary for the combustion of the fuel purged from the circuit can be provided by the pipe 6 or the gas ejector 1.3. Once the temperature sensor 1.4 indicates a permanent rise in temperature testifying to the permanent presence of a flue gas, it means that the regenerative tank 5 and the pipe 4 were purged, fuel they held.
    The exhaust phase can then begin: the inlet valve of the purge circuit 1.1 is closed, the exhaust valve 10 is open. Since the flue gas rejection circuit 9 is under-pressurized, the flue gases present in the supply duct 4, the regenerative tank 5, the combustion chamber 3 and the exhaust duct 8 are sucked outwards. .
    A new admission cycle can then begin.
    Thus, the fuel present in the regenerative tank 5 and the intake pipe 4 at the end of the combustion phase was not rejected to the exhaust.
    Of course, the invention is not limited to the embodiments described but encompasses any variant within the scope of the invention as defined by the claims.
    In particular: the emptying can be carried out using a 1.3 gas ejector, a circulation fan or any other means of depression; . the purge circuit 1 can supply: an independent fuel conveying circuit, another combustion chamber, another regenerative tank; the fuel may be a gas, a liquid in suspension, a combustion effluent; the end of purge sensor 1.4 can be a sensor of temperature, humidity, pressure, resistivity or any other parameter making it possible to distinguish the fuel; the end of purge sensor 1.4 can be implanted directly in the regenerative tank, at any point of the purge circuit, the supply or exhaust pipe; the devices regulating the intake, the exhaust, the connection of the purge circuit, the combustion air inlet may be valves, valves, registers, injectors, drawers or any other means of controlling a flow of fluid; - The purge circuit can be installed at any point of the intake pipe, exhaust or directly connected to the regenerative tank.
    权利要求:
    Claims (13)
    [1]
    An unburnt management device comprising a regenerative tank (5) having an end connected to a combustion chamber (3) and an opposite end connected to a fuel intake pipe (4) and an exhaust pipe (4). fumes (8) ,. the pipes being provided with valves (2; 10) for alternating an intake phase and an exhaust phase through the regenerative tank, the device also comprising a purge circuit (1) connected to the regenerative tank (5) to purge the latter of the fuel that it contains before the exhaust phase, characterized in that said purge circuit (1) is arranged to also purge a fuel intake pipe (4) and that it comprises depressive means.
    [2]
    2. Device according to claim 1, wherein the purge circuit (1) comprises a gas ejector (1.3).
    [3]
    3. Device according to claim 1, wherein the purge circuit (1) comprises a circulation fan.
    [4]
    4. Device according to claim 1, in. which the purge circuit (1) comprises an inlet connected downstream of the fuel admission valve (2).
    [5]
    5. Device according to claim 1, wherein the purge circuit (1) comprises an inlet connected upstream of the exhaust valve (10).
    [6]
    6. Device according to claim 1, wherein the purge circuit (1) is arranged to direct the purged fuel to a combustion chamber (3).
    [7]
    7. Device according to claim 1, comprising a sensor (1.4) arranged to detect the purge of all fuel regenerative tank (5).
    [8]
    8. Device according to claim 7, wherein the sensor (1.4) is a temperature sensor.
    [9]
    9. A method of managing unburnt by means of a device comprising a regenerative tank (5) having an end connected to a combustion chamber (3) and an opposite end connected to a fuel intake pipe (4) and a flue exhaust duct (8), the ducts being provided with valve means (2; 10) for alternating an intake phase and an exhaust phase through the regenerative tank (5), the method comprising step of purging the regenerative tank (5) of the fuel it contains before the exhaust phase.
    [10]
    10. The method of claim 9, wherein the purge of the regenerative tank (5) is by transfer of the fuel to the combustion chamber (3).
    [11]
    11. The method of claim 9, wherein the purge of the regenerative tank (5) is by the transfer of the fuel to another fuel conveying circuit.
    [12]
    The method of claim 9, wherein at least a portion of the fuel intake pipe is also purged.
    [13]
    13. A regenerative burner provided with a device according to any one of claims 1 to 8.
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    同族专利:
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    FR2977004A1|2012-12-28|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4355973A|1981-02-17|1982-10-26|Caterpillar Tractor Co.|Radiant heating apparatus|
    US4604051A|1984-08-16|1986-08-05|Gas Research Institute|Regenerative burner|
    EP0322678A2|1987-12-24|1989-07-05|British Steel plc|Regenerative burner system|
    US4878480A|1988-07-26|1989-11-07|Gas Research Institute|Radiant tube fired with two bidirectional burners|
    US5520534A|1992-12-25|1996-05-28|Kawasaki Seitetsu Kabushiki Kaisha|Heating apparatus including plurality of regenerative burner units and operating method|
    WO2010007547A1|2008-07-15|2010-01-21|Fives Stein|Device for controlling regenerative burners|
    US4909727A|1987-03-04|1990-03-20|Combustion Tec, Inc.|Oxygen enriched continuous combustion in a regenerative furance|
    RU2051285C1|1992-06-09|1995-12-27|Производственное объединение энергетики и электрификации "Брестэнерго"|Gas turbine plant|
    CA2176488C|1994-09-24|2000-06-20|Yoshiki Fujii|Radiant tube burner and combustion method thereof|
    US20110064607A1|1999-05-28|2011-03-17|Thermapure, Inc.|Method for removing or treating harmful biological organisms and chemical substances|
    JP4196872B2|2004-04-09|2008-12-17|いすゞ自動車株式会社|Engine exhaust purification system|
    US20070062496A1|2005-09-19|2007-03-22|Bradley Snower|System and method for operating a motor|
    CN201724217U|2010-08-04|2011-01-26|雷金狮|Premix burner nozzle with air purging device|CN110291352A|2017-02-13|2019-09-27|布卢姆工程公司|Double mode energy storage type buner system and the method for using double mode energy storage type buner system heated crucible|
    CN109443028A|2018-11-06|2019-03-08|重庆赛迪热工环保工程技术有限公司|A kind of regenerative combustion system and operation method|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FR1155701A|FR2977004A1|2011-06-27|2011-06-27|DEVICE AND METHOD FOR MANAGING IMBULES FOR REGENERATIVE BURNERS, BURNER COMPRISING SUCH A DEVICE|
    FR1155701|2011-06-27|
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