FR3126237A1 - METHOD FOR COOLING A UREA DELIVERY DUCT - Google Patents

Abstract

METHOD OF COOLING A UREA DELIVERY CONDUIT One aspect of the invention relates to a method (100) of cooling a urea delivery conduit of a urea line comprising the steps of: activating (101) a pump (18) for creating a vacuum in the urea line;applying (102) an ambient pressure in the urea line;measuring (103) an exhaust gas temperature;measuring (104) an temperature of a urea injector; if the measured exhaust gas temperature is above an exhaust gas temperature threshold and the measured injector temperature is above an injector temperature threshold, the method (100) includes a step of cooling (105) the urea conveying conduit by the introduction, then the withdrawal of urea solution in the urea conveying conduit. Figure to be published with abstract: Figure 3

Description

METHOD FOR COOLING A UREA DELIVERY DUCT

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for cooling a urea delivery conduit of a urea line. The technical field of the invention is thus that of vehicles equipped with an internal combustion engine and a urea line cooperating with an exhaust gas line to limit the polluting emissions of this engine.

TECHNOLOGICAL BACKGROUND OF THE INVENTION

Polluting emissions from combustion engines, in particular from motor vehicle engines, are regulated by standards. The regulated pollutants are, depending on the combustion engine technology considered, carbon monoxide CO, unburned hydrocarbons HC, nitrogen oxides NOx, and particles.

It is known to employ a number of depollution means in the exhaust gas line of combustion engines to limit the emissions of regulated pollutants.

For the treatment of nitrogen oxides NOx, selective catalytic reduction technologies, or “SCR” according to an English acronym for “Selective Catalytic Reduction”, are known, which consist in reducing the NOx by introducing a reducing agent. The reducing agent used may in particular be a urea solution. Mention may be made, for example, of the urea solution known under the reference AUS32. It is a urea solution composed of 32.5% urea and 67.5% deionized water. This urea, transformed into ammonia, is then used in the exhaust gas line to carry out selective catalytic reduction. The ammonia then makes it possible to reduce the NOx type components present in the exhaust gases into nitrogen and water.

To this end, as illustrated in , the vehicles 1 are equipped with an exhaust gas line 2 comprising an exhaust gas catalyst 3 of the SCR type arranged downstream of the internal combustion engine 4 of the vehicle 1. Such vehicles 1 are also equipped with a urea line 5 provided with an injector 6 connected upstream of the exhaust gas catalyst 3 of the SCR type.

The urea line 5 also includes a urea delivery conduit 7 cooperating with a pump 8 and a urea solution reservoir 9 for the introduction, via the injector 6, of a urea solution into the exhaust gas catalyst 3.

When the internal combustion engine 4 is switched off, the urea line 5 is purged by means of the pump 8. This purge prevents a quantity of urea solution from stagnating in the urea line 5. purging, a small amount of urea solution usually remains in urea line 5.

When the internal combustion engine 4 is hot, the urea delivery pipe 7 of the urea line 5 is deformed by the heat of the exhaust gases passing nearby. Thus, when the engine 4 is switched off and the urea delivery conduit 7 cools down, the urea delivery conduit 7 resumes its initial shape. A depression phenomenon then occurs in the urea line 5 facilitating the boiling of the stagnant urea solution in the urea line 5. As the urea solution is composed of 67.5% demineralized water , a urea crystallization phenomenon may occur. Such crystallization is particularly noticeable on the injector 6 and on the part of the urea conveying pipe 7 located upstream of the injector 6. This crystallization obstructs part of the flow section of the solution of urea, generating a decrease in the performance of the pump 8. The efficiency of the pollution control then decreases very rapidly. Complete clogging of injector 6 can also occur in extreme cases.

It is known from EP-B1-2762693 a method for removing foreign matter located in a urea path of a selective reduction catalyst system. This process includes a mode of removal of a foreign matter comprising alternating pressure and depression of the urea line in order to remove foreign bodies from this line.

However, it does not prevent foreign bodies formed by crystallization of urea from being deposited there.

The method of cooling a urea conveying pipe of a urea line according to one aspect of the invention offers a solution to the problems mentioned above by making it possible to avoid the formation of urea crystals in the injector of a urea line, and more generally in the urea line.

• activer la pompe pour créer une dépression dans la ligne d’urée en retirant la solution d’urée contenue dans la ligne d’urée ;
• appliquer une pression ambiante dans la ligne d’urée une première fois ;
• mesurer une température des gaz d’échappement ;
• mesurer une température de l’injecteur ;
• si la température des gaz d’échappement mesurée est supérieure à un seuil de température des gaz d’échappement et la température de l’injecteur mesurée est supérieure à un seuil de température d’injecteur, le procédé comporte une étape de refroidir le conduit d’acheminement d’urée par l’introduction, puis le retrait de solution d’urée dans le conduit d’acheminement d’urée.

In this context, the invention thus relates, in its broadest sense, to a method of cooling a urea conveying conduit of a urea line, the urea conveying conduit cooperating with a reservoir containing a urea solution and a pump arranged to cause the urea solution to circulate in the urea delivery conduit, the urea line further comprising an injector arranged to inject the urea solution into a catalyst for the selective reduction of an exhaust gas line of an internal combustion engine, the method comprising the steps executed by a computer, when the internal combustion engine is off,

• activating the pump to create a depression in the urea line by withdrawing the urea solution contained in the urea line;
• apply ambient pressure in the urea line a first time;
• measuring a temperature of the exhaust gases;
• measuring a temperature of the injector;
• if the measured exhaust gas temperature is greater than an exhaust gas temperature threshold and the measured injector temperature is greater than an injector temperature threshold, the method includes a step of cooling the duct d delivery of urea by the introduction, then the withdrawal of urea solution in the urea delivery conduit.

Thanks to the invention, it is possible, when the engine is off, to cool the urea line to prevent crystallization of the urea solution. This cooling is carried out by a heat exchange between the urea delivery conduit and the urea solution introduced into the urea delivery conduit once the internal combustion engine has been switched off. The heated introduced urea solution is then withdrawn from the urea supply pipe.

In addition to the characteristics that have just been mentioned in the previous paragraph, the method for cooling a urea delivery pipe of a urea line according to one aspect of the invention may have one or more additional characteristics among the following, considered individually or in all technically possible combinations.

• activer la pompe pour augmenter la pression dans la ligne d’urée en introduisant la solution d’urée dans le conduit d’acheminement d’urée;
• appliquer une pression ambiante dans la ligne d’urée une deuxième fois;
• échanger la chaleur entre le conduit d’acheminement d’urée et la solution d’urée contenue dans le conduit d’acheminement d’urée ;
• activer la pompe pour créer une dépression dans la ligne d’urée en retirant la solution d’urée contenue dans le conduit d’acheminement d’urée ;
• appliquer une pression ambiante dans la ligne d’urée une troisième fois.

According to a non-limiting aspect of the invention, the step of cooling the urea delivery conduit comprises the steps of:

• activating the pump to increase the pressure in the urea line by introducing the urea solution into the urea delivery line;
• apply ambient pressure to the urea line a second time;
• exchanging heat between the urea delivery conduit and the urea solution contained in the urea delivery conduit;
• activating the pump to create a vacuum in the urea line by withdrawing the urea solution contained in the urea delivery conduit;
• apply ambient pressure to the urea line a third time.

According to a non-limiting aspect of the invention, during the step of activating the pump to increase the pressure in the urea line, the pump is activated over a predetermined period which is a function of the volume of the urea line .

According to a non-limiting aspect of the invention, during the step of activating the pump to create a depression in the urea line, the pump is activated until the pressure measured in the urea line is below a predetermined minimum pressure.

• ouvrir l’injecteur ;
• désactiver la pompe ; et
• fermer l’injecteur.

According to a non-limiting aspect of the invention, the step of applying an ambient pressure in the urea line comprises the sub-steps of:

• open the injector;
• turn off the pump; And
• close the injector.

According to a non-limiting aspect of the invention, during the step of applying an ambient pressure in the urea line a second time, the injector is open for a predetermined period depending on the volume of the urea line.

According to a non-limiting aspect of the invention, during the step of applying an ambient pressure in the urea line a third time, the injector is open over a period depending on a pressure measured in the urea line. urea.

According to a non-limiting aspect of the invention, if the temperature of the urea delivery pipe is greater than a pipe temperature threshold, the method comprises a step of repeating the step of cooling the urea.

According to a non-limiting aspect of the invention, when the temperature of the urea delivery pipe is lower than the pipe temperature threshold, the method includes a step of authorizing the computer to be switched off.

• un catalyseur à réduction sélective relié à une ligne de gaz d’échappement d’un moteur à combustion interne ;
• une ligne d’urée comportant un conduit d’acheminement d’urée et un injecteur agencé pour injecter une solution d’urée dans le catalyseur à réduction sélective ;
• un réservoir contenant une solution d’urée ;
• une pompe agencée pour faire circuler la solution d’urée dans le conduit d’acheminement d’urée ; et
• un calculateur construit et agencé pour piloter la pompe, piloter l’injecteur et exécuter les étapes du procédé de refroidissement d’un conduit d’acheminement d’urée d’une ligne d’urée selon l’un quelconque des aspects de l’invention précités.

Another non-limiting aspect of the invention relates to a selective reduction catalyst system comprising:

• a selective reduction catalyst connected to an exhaust gas line of an internal combustion engine;
• a urea line comprising a conduit for conveying urea and an injector arranged to inject a urea solution into the selective reduction catalyst;
• a reservoir containing a urea solution;
• a pump arranged to circulate the urea solution in the urea delivery conduit; And
• a computer built and arranged to drive the pump, drive the injector and execute the steps of the method for cooling a urea delivery conduit of a urea line according to any one of the aspects of the invention aforementioned.

The invention and its various applications will be better understood on reading the following description and examining the accompanying figures.

BRIEF DESCRIPTION OF FIGURES

The figures are presented for information only and in no way limit the invention.

illustrates a vehicle equipped in particular with a urea line according to a state of the art.

shows a selective reduction catalyst system according to a non-limiting aspect of the invention.

schematically represents a diagram of steps of an embodiment of a method for cooling a urea delivery pipe of a urea line according to a non-limiting aspect of the invention.

illustrates a non-limiting example of a time diagram of the steps executed by the method according to the invention illustrated in .

shows a filling level of urea solution of a urea line as a function of the execution of the steps of the method according to the invention illustrated in .

Claims (10)

Method (100) of cooling a urea conveying conduit (15) of a urea line (14), said urea conveying conduit (15) cooperating with a reservoir (17) containing a urea solution and a pump (18) arranged to circulate the urea solution in the urea delivery conduit (15), said urea line (14) further comprising an injector (16) arranged to injecting the urea solution into a selective reduction catalyst (11) of an exhaust gas line (12) of an internal combustion engine (13), said method (100) comprising the steps carried out by a computer (19) of, when said internal combustion engine (13) is switched off,

• activating (101) said pump (18) to create a vacuum in said urea line (14) by withdrawing the urea solution contained in said urea line (14);
• applying (102) ambient pressure to said urea line (14) a first time;
• said method (100) being characterized in that it further comprises the steps of:
  • measuring (103) a temperature of the exhaust gases;
  • measuring (104) a temperature of said injector (16);
  • if said measured exhaust gas temperature is above an exhaust gas temperature threshold and said measured temperature of said injector (16) is above an injector temperature threshold, said method (100) includes a step of cooling (105) said urea delivery conduit by introducing and then withdrawing urea solution into said urea delivery conduit (15).

Method (100) according to the preceding claim, characterized in that the step of cooling (105) the urea delivery pipe (15) comprises the steps of:

• activating (105a) the pump (18) to increase the pressure in the urea line (14) by introducing the urea solution into said urea delivery conduit (15);
• applying (105b) ambient pressure to said urea line (14) a second time;
• exchanging (105c) heat between said urea conveying conduit (15) and the urea solution contained in said urea conveying conduit (15);
• activating (105d) said pump (18) to create a vacuum in said urea line (14) by withdrawing the urea solution contained in said urea delivery conduit (15);
• applying (105e) ambient pressure to said urea line (14) a third time.

Method (100) according to Claim 2, characterized in that during the step of activating (105a) the pump (18) to increase the pressure in the urea line (14), the said pump (18) is activated on a predetermined period (t1) which is a function of the volume of said urea line (14). Method (100) according to Claim 2 or 3, characterized in that during the step of activating (105d) the pump (18) to create a depression in the urea line (14), the said pump (18) is activated until the pressure measured in said urea line (14) is below a predetermined minimum pressure. Process (100) according to any one of the preceding claims, characterized in that the step of applying (102, 105b, 105e) an ambient pressure in the urea line (14) comprises the sub-steps of:

• open the injector (16);
• deactivate the pump (18); And
• close the injector (16).

Process (100) according to Claims 2 and 5, characterized in that during the step of applying (105b) an ambient pressure in the urea line (14) a second time, the injector (16) is open on a predetermined period (t2) depending on the volume of said urea line (14). Process (100) according to Claims 2 and 5, characterized in that during the step of applying (105e) an ambient pressure in the urea line (14) a third time, the injector (16) is opened on a period (t6) depending on a pressure measured in said urea line (14). Method (100) according to any one of the preceding claims, characterized in that if the temperature of the urea delivery conduit (15) is greater than a conduit temperature threshold, said method (100) comprises a step of reiterating (106) the step of cooling (105) said urea delivery pipe (15). Method (100) according to the preceding claim, characterized in that when the temperature of the urea delivery conduit (15) is below the conduit temperature threshold, said method (100) comprises a step of authorizing extinction of the computer (19). Selective reduction catalyst system (10) comprising:

• a selective reduction catalyst (11) connected to an exhaust gas line (12) of an internal combustion engine (13);
• a urea line (14) comprising a urea delivery conduit (15) and an injector (16) arranged to inject a urea solution into said selective reduction catalyst (11);
• a tank (17) containing a urea solution;
• a pump (18) arranged to circulate said urea solution in said urea delivery conduit (15); And
• a computer (19) constructed and arranged in particular to control said pump (18) and said injector (16);
• said selective reduction catalyst system (10) being characterized in that said computer (19) is further constructed and arranged to carry out the steps of the method (100) of cooling a urea delivery conduit (15) a urea line (14) according to any preceding claim.