• 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:
    The present invention relates to a product for the depollution of exhaust gas, in particular of an internal combustion engine, said product being a mixture of an additive for the treatment of particles and a reducing agent for the removal of oxides of nitrogen (NOx). According to the invention, the product comprises a mixture of a reducing agent containing ammonia or a decomposition-generating ammonia generating compound, or a hydrocarbon originating from an oxygenated or non-oxygenated hydrocarbon substance, and an additive for catalyze the oxidation of particles.
    公开号:FR3029800A1
    申请号:FR1462228
    申请日:2014-12-11
    公开日:2016-06-17
    发明作者:Stephane Zinola;Stephane Raux
    申请人:IFP Energies Nouvelles IFPEN;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a product for the depollution of exhaust gases, in particular of an internal combustion engine, in particular for a motor vehicle, and an exhaust gas depollution process using this product.
    [0002] It relates more particularly to a process for treating the pollutants contained in the exhaust gases of a diesel-type internal combustion engine, especially for a motor vehicle, but in no way rules out such a process for spark ignition engines, such as those operating with a gaseous fuel or with gasoline, and in particular with a lean mixture. As is known, the exhaust gases of these engines contain many pollutants, such as unburned hydrocarbons (HC), carbon monoxide, nitrogen oxides (NO and NO2) more commonly known as NOx. , and in addition to the particles. It is commonly accepted that NOx is the result of combustion that takes place at high temperatures and in the presence of oxygen. These conditions are generally encountered in all types of combustion, particularly those taking place in lean mixture, such as those with direct injection lean mixture, regardless of the fuel used. However, NOx has a major disadvantage because they have a negative impact directly on the health of humans, particularly NO2, and indirectly by the secondary formation of tropospheric ozone.
    [0003] In order to meet pollutant emission standards and to preserve the environment and human health, it has become necessary to treat these pollutants before releasing the exhaust gases into the atmosphere.
    [0004] As is generally known, this is achieved by a treatment in pollution of the exhaust gas flowing in the exhaust line of the engine.
    [0005] Thus, for treating unburned hydrocarbons and carbon monoxide for lean-burn engines, catalyst means, such as an oxidation catalyst, are placed on the exhaust line.
    [0006] With regard to the exhaust gases, in particular of a diesel engine, a particulate filter is advantageously placed on this line so as to capture and then remove the particles present in the exhaust gases and thus avoid they are released into the atmosphere. This filter, which may also be a catalyzed filter, must be regenerated periodically so that it retains all its filtration capacity by producing a combustion of the particles retained in this filter. These regeneration operations consist mainly of an increase in the temperature of the filter, which can either occur spontaneously when using the high-load engine, or be generated by means of exothermic oxidation on a catalyst placed upstream of the engine. filter of reducing chemical species resulting from the combustion or an injection directly to the exhaust triggered by the engine control. With regard to NOx, the exhaust gases also pass through other means of catalysis, in particular catalytic catalysts SCR (for Selective Catalytic Reduction). This SCR catalyst selectively reduces NOx to nitrogen by the action of a reducing agent. This reducing agent, which is generally injected upstream of the SCR catalyst, may be ammonia or a decomposing ammonia generating compound, such as urea, or a hydrocarbon derived from an oxygenated hydrocarbon substance or no. Currently, the most common technique for the removal of NOx is catalysis RCS by ammonia.
    [0007] This ammonia is obtained indirectly by decomposition of an injected precursor in liquid form, generally 32.5% aqueous urea, better known under the trade name "AdBlue" or "DEF". Thus, the urea solution is injected into the exhaust line upstream of the SCR catalyst. The water contained in this solution is rapidly vaporized 3029800 3 under the effect of the exhaust gas temperature, then each molecule of urea decomposes in two steps into two molecules of ammonia: (NH 2) 2CO (urea) NH3 (ammonia) + HNCO (isocyanic acid) - (1) HNCO + H2O NH3 + CO2 - (2) Alternatively ammonia can be directly injected in the gaseous state into the exhaust line upstream of the SCR catalyst . As better described in EP 2 541 012, the system 10 for cleaning exhaust gases comprises an exhaust line comprising a pollution control means combining a particulate filter and a catalyst with selective catalytic reduction (SCR), this assembly being called catalyzed filter RCS or FRCS filter, a single tank containing a mixture of an additive for the regeneration of the particulate filter and a reducing agent 15 for the removal of NOx present in this depollution means and an injector for introduce this mixture upstream of the FRCS filter. This system, although satisfactory, nevertheless has significant disadvantages.
    [0008] Indeed, the system described in EP 2 541 012 is limited to using a regeneration additive containing an oxygen storage capacity. Such an additive has little advantage in a medium already rich in oxygen, as is the case for a motor exhaust line operating in a lean mixture. In addition, it is disclosed that the catalytic phase of the SCR catalyst is protected only when it is coated in a particulate filter. This excludes the configurations for which the functions of particle filtration and catalytic reduction of NOx by SCR are carried out on dissociated elements. In addition, the system described only relates to situations for which the temperature of the exhaust gas is high.
    [0009] As a result, the combustion of the particles is likely to further increase the temperature within the FRCS filter, which can lead to a deterioration of the catalytic phase.
    [0010] The present invention proposes to overcome the aforementioned drawbacks by means of a product and a process which make it possible to carry out the exhaust gas depollution in a simple and effective manner. For this purpose, the present invention relates to a product for exhaust gas depollution, in particular an internal combustion engine, said product being a mixture of an additive for the treatment of the particles and a reducing agent for the removal of nitrogen oxides (NOx), characterized in that the product comprises a mixture of a reducing agent containing ammonia or an ammonia generating compound by decomposition, or a hydrocarbon derived from a hydrocarbon substance oxygenated or not, and an additive to catalyze the oxidation of the particles. The product may comprise at least one metal compound.
    [0011] The metal compound may be an organometallic compound. The metal compound may be a metal selected from the elements sodium, potassium, magnesium, calcium, barium, strontium, titanium, cerium, chromium, molybdenum, manganese, iron, rubidium, cobalt, rhodium, nickel, palladium, platinum, copper, money or is a mixture of at least two of these elements. The organometallic compound may include ferrocene. The metal compound may be an inorganic metal compound.
    [0012] The inorganic metal compound may be a compound selected from fluorides, chlorides, bromides, iodides, oxides, nitrates, sulphates, phosphates, hydrides, carbonates, nitrides or a mixture of at least two of these compounds. The invention also relates to a process for the depollution of exhaust gases flowing in an exhaust line, in particular of an internal combustion engine, and using the product as mentioned above, said line comprising a means of catalysis. with selective catalytic reduction of nitrogen oxides (NOx), a means for removing particles, and means for introducing the product into the exhaust line, characterized in that it consists in: - determining the temperature exhaust gas and - as soon as this gas temperature has reached a threshold for starting the treatment of nitrogen oxides by said means, to introduce the product into the exhaust line.
    [0013] The process may consist of regularly introducing the product into the exhaust line. The method may include controlling the flow rate of the injected product as a function of the amount of NOx.
    [0014] The process may consist of combining, in a single element, the selective catalytic reduction catalytic means of the nitrogen oxides and the particulate removal means into a catalyzed SCR filter.
    [0015] The method may include placing the catalytically selective catalytic reduction means of the nitrogen oxides in front of the particulate removal means. The method may include placing the particulate removal means in front of the catalytically selective catalytic reduction means of the nitrogen oxides. The method may include placing at least one additional catalyst in the exhaust line.
    [0016] The other features and advantages of the invention will now appear on reading the description which will follow, given by way of illustration only and without limitation, and to which are appended: FIG. 1 which shows an installation using the product and the process according to the invention; FIG. 2 which illustrates a first variant of FIG. 1 and FIG. 3 which is another variant of FIG.
    [0017] This exhaust gas depollution treatment plant comprises an exhaust line 10 conveying the exhaust gas of an internal combustion engine 12, for example for a motor vehicle. By internal combustion engine is meant a diesel engine, but this in no way rules out all other internal combustion engines, such as engines running on gasoline or gas. As best seen in FIG. 1, the exhaust line 10 comprises, in the direction of flow of the exhaust gases from its inlet 14 to the vicinity of the exhaust manifold 16 of the engine towards its outlet 18 to the air free, at least one means for capturing and removing the particles present in the exhaust gas and a NOx reduction means also contained in these gases. Advantageously but not necessarily, these means are combined into a single element which is better known as RCS catalyzed filter 20 or FRCS filter. Preferably, this FRCS filter 20 is placed downstream of an oxidation catalyst 22 whose function is to treat unburnt hydrocarbons and carbon monoxide contained in the exhaust gases before they pass through the filter. FRCS. This oxidation catalyst 22 also has the function of partially converting nitric oxide to nitrogen dioxide, the ideal case being to have an equimolar distribution between nitric oxide and nitrogen dioxide at room temperature. input of the FRCS filter in order to maximize its efficiency. The exhaust line comprises an introduction means, preferably an injector 24, a mixture of an additive for the regeneration of the particles and a reducing agent for the removal of NOx. This injector is placed upstream of the FRCS filter and in the vicinity of its inlet 26 so that this mixture can combine as homogeneously as possible with the exhaust gases before they are introduced into the FRCS filter. As is generally known, the line comprises a differential pressure determining means 28 between the inlet 26 of the FRCS filter and its outlet 30.
    [0018] By way of example, this means comprises an upstream pressure sensor 32 placed at the inlet 26 of the FRCS filter and measuring the pressure of the exhaust gases at this inlet, another sensor 34, called a downstream sensor, placed at the outlet 30 of this FRCS filter and measuring the exhaust gas pressure at this outlet, and a calculator 36 for determining the pressure difference between the inlet and the outlet of the FRCS filter. This makes it possible to know the rate of clogging by the particles of the FRCS filter. In a manner known per se, the exhaust line carries a temperature sensor (not shown) placed on the exhaust line, and more particularly at the inlet of the FRCS filter, to know at any time the temperature of the exhaust gases. exhaust that flow in this line. Alternatively, it may be provided to use logic and / or computer means that can estimate at any time the temperature of the exhaust gas flowing in the line.
    [0019] This line may also carry a NOx sensor (not shown) placed at the output of the FRCS filter 20 to know at any time the amount of NOx coming out of the FRCS filter.
    [0020] Similarly, it may also be planned to use logical and / or computer means that make it possible to estimate this quantity of NOx at any time. The mixture introduced into the exhaust line by the injector 24 is fed through a conduit 38 connecting this injector to a reservoir 40 containing this mixture. This mixture is circulated between the reservoir and the injector under the effect of a pumping means, such as a metering pump 42. The mixture contained in the reservoir comprises a reducing agent for NOx, which may be ammonia or a compound generating ammonia by decomposition, such as urea, or which may be a hydrocarbon from an oxygenated or non-oxygenated hydrocarbon substance, and a catalytic type additive for the treatment of particles and more particularly a additive to catalyze the oxidation of these particles.
    [0021] The catalytic type additive for treating the particles may be a metal compound. This metal compound may be an organometallic compound, such as, for example, ferrocene. The metal of this organometallic compound may be sodium, potassium, magnesium, calcium, barium, strontium, titanium, cerium, chromium, molybdenum, manganese, iron, rubidium, cobalt , rhodium, nickel, palladium, platinum, copper, silver or a mixture of at least two of these elements. This metal compound may be an inorganic metal compound, such as, for example, nickel chloride. More generally, this inorganic metal compound may be part of the family of fluorides, chlorides, bromides, iodides, oxides, nitrates, sulphates, phosphates, hydrides, carbonates, nitrides or mixture of these compounds.
    [0022] For operation, the engine computer usually included in any engine knows at any time the exhaust gas temperature and the amount of NOx at the outlet of the FRCS filter.
    [0023] As soon as the exhaust gas temperature has reached a threshold allowing the start of the NOx treatment function of the FRCS 20 filter, the mixture contained in the tank 30 is introduced regularly into the exhaust line through the exhaust gas. injector 24 upstream of the FRCS filter.
    [0024] Advantageously, the amount of the mixture injected into the exhaust line is substantially proportional to the formation of NOx and is determined by the engine calculator.
    [0025] The injection of this mixture upstream of the FRCS filter throughout the loading phase of the particulate filter allows an intimate mixture between the catalytic regeneration additive and the particles inside the FRCS filter. The combination of the catalytic activity of the additive and the intimate contact between the particles and this catalytic additive makes it possible to lower the temperature at which the combustion of the particles starts, in order to make it compatible with the temperatures usually encountered in the exhaust. engines, if necessary after adding a post-injection which will oxidize on the oxidation catalyst 22 and produce a release of heat at the inlet 26 of the FRCS filter.
    [0026] The variant of FIG. 2 differs from FIG. 1 in that the FRCS filter of FIG. 1, which is in a single element, is replaced by at least two exhaust gas treatment means. One of the means is a catalyst of the SCR catalyst type 44 which is followed by another means which is a particulate filter 46.
    [0027] In this configuration, the injector 24 is placed upstream of the RCS catalyst. Conversely, as illustrated in the variant of FIG. 3, one of the means is a particulate filter 46 which is followed by another means which is a catalyst of the SCR 44 catalyst type. In this alternative configuration, the injector 24 is upstream of the particulate filter 464.
    [0028] The exhaust line comprises, for the variant of FIG. 2 as well as that of FIG. 3, an injector 24 of the mixture described above comprising an additive for the regeneration of particles of the particulate filter and a reducing agent for This injector is placed upstream of the exhaust gas treatment means (RCS 44 catalyst or a particle filter 46) closest to the oxidation catalyst 22. Of course, this without departing from the scope of the invention, the exhaust line comprising the FRCS filter 20 or the exhaust line comprising a SCR catalyst 44 and a particulate filter 46 may comprise additional catalysts, for example an SCR catalyst in plus the FRCS filter, and / or a clean-up catalyst, etc. 15
    权利要求:
    Claims (14)
    [0001]
    CLAIMS1) Product for the depollution of exhaust gas, especially an internal combustion engine, said product being a mixture of an additive for the treatment of particles and a reducing agent for the removal of nitrogen oxides (NOx ), characterized in that the product comprises a mixture of a reducing agent containing ammonia or a compound generating ammonia by decomposition, or a hydrocarbon from an oxygenated hydrocarbon substance or not, and an additive to catalyze the oxidation of particles.
    [0002]
    2) A product for the purifying of exhaust gas according to claim 1, characterized in that it comprises at least one metal compound.
    [0003]
    3) The exhaust gas depollution product according to claim 2, wherein the metal compound is an organometallic compound.
    [0004]
    4) A product for the purifying of exhaust gas according to claim 2, characterized in that the metal compound is a metal selected from the elements sodium, potassium, magnesium, calcium, barium, strontium, titanium, cerium, chromium, molybdenum, manganese, iron, rubidium, cobalt, rhodium, nickel, palladium, platinum, copper, silver or is a mixture of at least two of these elements.
    [0005]
    5) A product for the exhaust gas depollution according to claim 3, characterized in that the organometallic compound comprises ferrocene.
    [0006]
    6) The exhaust gas depollution product according to claim 2, characterized in that the metal compound is an inorganic metal compound.
    [0007]
    7) A product for the purifying of exhaust gas according to claim 6, characterized in that the inorganic metal compound is a compound chosen from fluorides, chlorides, bromides, iodides, oxides, nitrates, nitrates and the like. sulfates, phosphates, hydrides, carbonates, nitrides or a mixture of at least two of these compounds.
    [0008]
    8) Process for the depollution of the exhaust gases flowing in an exhaust line (10), in particular of an internal combustion engine, and using the product according to one of the preceding claims, said line comprising a catalyst means with selective catalytic reduction of nitrogen oxides (NOx), a means for removing particles, and means for introducing (24, 38, 40) the product into the exhaust line, characterized in that it consists To determine the temperature of the exhaust gases and - as soon as this gas temperature has reached a threshold allowing the starting of the treatment of the nitrogen oxides by said means, to introduce the product into the exhaust line. 15
    [0009]
    9) The exhaust gas depollution process according to claim 8, characterized in that it consists in regularly introducing the product into the exhaust line.
    [0010]
    10) The exhaust gas depollution process according to claim 8 or 9, characterized in that it consists in controlling the flow rate of the injected product as a function of the amount of NOx.
    [0011]
    11) A process for the depollution of exhaust gas according to one of claims 8 to 10, characterized in that it consists in combining, in a single element, the selective catalytic reduction catalytic reduction means of nitrogen oxides and the means for removing particles in a catalyzed RCS filter (20).
    [0012]
    12) A process for the depollution of exhaust gas according to one of claims 8 or 10, characterized in that it consists in placing the selective catalytic reduction catalytic reduction means nitrogen oxides (44) in front of the means of removing particles (46).
    [0013]
    13) A method of exhaust gas pollution control according to one of claims 8 to 10, characterized in that it consists in placing the particle removal means (46) ahead of the catalytic reduction catalytic means selective nitrogen oxides (44).
    [0014]
    14) A process for the pollution of exhaust gas according to one of claims 8 to 10, characterized in that it consists in placing at least additional catalyst in the exhaust line.
    类似技术:
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    同族专利:
    公开号 | 公开日
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    EP3229941A1|2017-10-18|
    US20170350288A1|2017-12-07|
    WO2016091657A1|2016-06-16|
    FR3029800B1|2016-12-16|
    US10167758B2|2019-01-01|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5535708A|1993-08-30|1996-07-16|Platinum Plus, Inc.|Reduction of nitrogen oxides emissions from diesel engines|
    US5809774A|1996-11-19|1998-09-22|Clean Diesel Technologies, Inc.|System for fueling and feeding chemicals to internal combustion engines for NOx reduction|
    EP1378560A2|2002-06-07|2004-01-07|Ethyl Corporation|Aqueous additives in hydrocarbonaceous fuel combustion systems|
    US20140165888A1|2011-05-10|2014-06-19|Fluor Technologies Corporation|SIMULTANEOUS TREATMENT OF FLUE GAS WITH SOx ABSORBENT REAGENT AND NOx REDUCING AGENT|
    EP2541012A2|2011-07-01|2013-01-02|Hyundai Motor Company|System for purifying exhaust gas and corresponding exhaust system|WO2018036712A1|2016-08-26|2018-03-01|IFP Energies Nouvelles|Installation for depolluting exhaust gases, particularly of an internal combustion engine, and method for using such an installation|US5482692A|1994-07-07|1996-01-09|Mobil Oil Corporation|Selective catalytic reduction of nitrogen oxides using a ferrocene impregnated zeolite catalyst|
    AT362041T|2003-06-18|2007-06-15|Johnson Matthey Plc|PROCESS FOR CONTROLLING THE REDUCTION ADDITIVE|
    JP4438828B2|2007-06-08|2010-03-24|トヨタ自動車株式会社|Exhaust gas purification device for internal combustion engine|
    JP5534602B2|2009-11-06|2014-07-02|ボッシュ株式会社|Abnormality detection device and abnormality detection method for reducing agent injection valve|
    GB2478132A|2010-02-25|2011-08-31|Gm Global Tech Operations Inc|Device to reduce NOx for all driving profiles at both low and high exhaust temperatures.|
    US9784157B2|2010-03-25|2017-10-10|General Electric Company|System and method for exhaust treatment|
    WO2013127473A1|2012-03-02|2013-09-06|Haldor Topsøe A/S|Method and system for the removal of noxious compounds from engine exhaust gas|
    US20130333351A1|2012-06-18|2013-12-19|Ashwin Vyas|Filter regeneration using filter temperature modulation|FR3059566A1|2016-12-07|2018-06-08|IFP Energies Nouvelles|EXHAUST GAS DEPOLLUTION FLUID COMPRISING SOLUBLE BASIC METAL CARBONATE, PROCESS FOR PREPARING THE SAME, AND USE THEREOF FOR INTERNAL COMBUSTION ENGINES|
    US20190234283A1|2018-01-31|2019-08-01|International Engine Intellectual Property Company, Llc|ENGINE OUT NOx REDUCTION USING ENHANCED DEF|
    FR3108527A1|2020-03-30|2021-10-01|Total Marketing Services|Use of a composition comprising a reducing agent and a metal compound to prevent deposits in the exhaust lines comprising an SCR catalyst|
    法律状态:
    2015-12-11| PLFP| Fee payment|Year of fee payment: 2 |
    2016-06-17| PLSC| Publication of the preliminary search report|Effective date: 20160617 |
    2016-12-12| PLFP| Fee payment|Year of fee payment: 3 |
    2017-12-14| PLFP| Fee payment|Year of fee payment: 4 |
    2019-12-24| PLFP| Fee payment|Year of fee payment: 6 |
    2020-12-29| PLFP| Fee payment|Year of fee payment: 7 |
    2021-12-27| PLFP| Fee payment|Year of fee payment: 8 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1462228A|FR3029800B1|2014-12-11|2014-12-11|PRODUCT FOR THE DEPOLLUTION OF EXHAUST GASES, IN PARTICULAR INTERNAL COMBUSTION ENGINE, AND EXHAUST GAS CLEANING METHOD USING THE SAME.|FR1462228A| FR3029800B1|2014-12-11|2014-12-11|PRODUCT FOR THE DEPOLLUTION OF EXHAUST GASES, IN PARTICULAR INTERNAL COMBUSTION ENGINE, AND EXHAUST GAS CLEANING METHOD USING THE SAME.|
    US15/534,974| US10167758B2|2014-12-11|2015-12-01|Product for the depollution of exhaust gases, especially from an internal combustion engine, and method for the depollution of exhaust gases using said product|
    CN201580067240.6A| CN107002529A|2014-12-11|2015-12-01|The product contaminated for waste gas decontamination, the product particularly contaminated for the decontamination of the waste gas from internal combustion engine, and use the waste gas decontamination dyeing method of the product|
    PCT/EP2015/078199| WO2016091657A1|2014-12-11|2015-12-01|Product for the depollution of exhaust gases, especially from an internal combustion engine, and method for the depollution of exhaust gases using said product|
    EP15802125.3A| EP3229941A1|2014-12-11|2015-12-01|Product for the depollution of exhaust gases, especially from an internal combustion engine, and method for the depollution of exhaust gases using said product|
    CN202110789433.XA| CN113356972A|2014-12-11|2015-12-01|Product for depolluting exhaust gases, in particular from internal combustion engines, and exhaust gas depolluting method using said product|
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