DE102006039571A1 - Honeycomb body with fluid flow channels, useful in exhaust gas purification and/or regenerative heat recovery, includes receiving channel for process parameter measuring sensor - Google Patents

Abstract

A honeycomb body (1), having external surfaces (10, 12, 15, 17, 20, 21) and fluid channels (4) through which a fluid can flow, includes at least one sensor receiving channel (13), opening into at least one of the external surfaces. An independent claim is included for a honeycomb body arrangement with multiple honeycomb bodies (1), located adjacent to each other and each having at least one sensor receiving channel (13). The sensor channels adjoin each other to provide an overall sensor channel, having a length corresponding to the sum of the lengths of at least some of the individual sensor channels.

Description

The The invention relates to a honeycomb body, in particular for thermal and / or catalytic emission control or regenerative heat recovery, the outer surfaces and has a plurality of fluid channels through which a fluid can flow.

Honeycomb body of mentioned type are known. For example, they are used in the thermal and / or catalytic exhaust gas purification used. This is usually an arrangement of a plurality of honeycomb bodies with a heated fluid, for example hot Air, flows through, around the honeycomb body to a desired To bring operating temperature. When the operating temperature is reached is, the passage of the heated fluid is stopped and a other fluid, namely a cleanable exhaust gas passed through the honeycomb body. It takes that Exhaust from the honeycomb bodies delivered heat energy so that the exhaust gas purification prepares serving chemical reactions become. In addition, you can the surfaces the fluid channels be provided with a catalytic coating, so the chemical reactions faster and / or at a lower Energy use take place. The operating temperature of the honeycomb stones must be kept within narrow limits to prevent damage to the honeycomb. The higher the temperature is, the more heat energy can pick up the honeycomb bodies. Assign the honeycomb bodies too high temperatures, so can the mentioned chemical reactions already in the honeycomb body and not in a honeycombs downstream combustion chamber, causing it to destroy Honeycomb can come. High local temperature differences in the honeycomb bodies are to avoid, as this leads to high thermal stresses and to destruction lead by honeycombs can.

Of the Invention is therefore based on the object to a honeycomb body create a long life. This increases also the life of an entire plant, used in the honeycomb body are.

These Task is inventively characterized solved, that the honeycomb body at least one sensor receiving channel open towards at least one of the outer surfaces having. The sensor pickup channel allows a sensor in the honeycomb body, namely in the sensor receiving channel to place such that there are variables of interest, in particular temperature, Pressure, chemical composition of the passing gas and / or dust content of the gas, can be determined. Becomes in particular the temperature in the honeycomb body is controlled with the sensor and a corresponding litigation carried out, this will be over-temperature avoided. This remains the heat storage element performing honeycombs from destruction protected by its honeycomb. Due to the at least one of the outer surfaces open towards the sensor receiving channel the connected to an electrical data cable sensor in the Sensor receiving channel inserted and / or inserted. This is possible even after completion of a honeycomb assembly, the from several honeycomb bodies consists. Other sizes of interest, by means of the corresponding Sensors are detected, allow a corresponding management, the a longevity guaranteed.

To A development of the invention is provided that the sensor receiving channel to an outer surface with a channel side is open, with another outside surface a channel opening and in another outer surface with a channel end opening empties. This design allows for easy manufacture, since the sensor receiving channel similar a groove in the mentioned Outside surface of the honeycomb is incorporated. Since the two channel ends, namely the channel opening and the channel end opening in corresponding outer surfaces of the honeycomb lead, passes through the sensor-receiving channel completely the honeycomb body, so that several such honeycombs one after the other can be connected in series long sensor channel to create.

It is advantageous if the sensor receiving channel running straight is trained. this makes possible a simple production. He runs preferably at a 90 ° angle to the longitudinal extent the fluid channels the honeycomb body, wherein a certain number of fluid channels in the bottom of the sensor-receiving channel lead, so that in this way the fluid flowing through the honeycomb body also penetrates the sensor-receiving channel. In particular, is at a Honeycomb body configuration provided that the sensor receiving channels are horizontal.

A Development of the invention provides that the sensor receiving channel one forming an outer surface Top or on an outer surface forming Bottom of the honeycomb body is trained. This shows the two side walls and the intermediate channel bottom of the sensor receiving channel before preferably one open U at the top or U at the bottom, each open in the cross-sectional view.

The formation as extruder honeycomb body has the advantage that a simple production in the extruder is possible. The sensor receiving channel is preferably formed after extrusion of the honeycomb body by cutting processing. Subsequently, the honeycomb body is fired. The honeycomb body consists for example of zirconium silicate (ZrSiO ₄ ) or has this substance. As already mentioned, it is advantageous for accurate temperature detection by means of the sensor when the sensor-receiving channel extends transversely to the fluid channels and intersects at least some of the fluid channels.

Further The invention relates to a honeycomb arrangement with several Honeycombs, in particular, as already explained above, wherein the honeycomb body respectively at least one sensor receiving channel are located and adjacent to each other, wherein the sensor-receiving channels such contiguous that created a continuous sensor channel is whose length the sum of the lengths at least some of the individual sensor receiving channels corresponds. The sensor recording channels become therefore connected in series, so that such a sensor channel extends over a plurality of honeycomb bodies, around the sensor as centrally as possible in the honeycomb body assembly to be able to position. On the Recording channel is then the necessary data cable coming from the sensor outward to an appropriate evaluation facility, which is equipped with a and / or control device for operation management, for example, the thermal and / or catalytic emission control, is connected.

It is advantageous if sensor receiving channel-free honeycomb body and / or additional sensor receiving channel free heat storage elements additionally provided are. This means that only where a sensor is placed supposed, honeycomb body with sensor receiving channel be used. In the other areas of the honeycomb body arrangement, which do not require temperature detection, honeycomb or other heat storage elements used, which are channel-free.

The Drawings illustrate the invention with reference to an embodiment, and that shows:

1 a schematic view of a honeycomb body with sensor receiving channel and

2 a honeycomb body assembly having a plurality of honeycomb bodies, some of which form a sensor channel, in which a sensor with data cable inserted / inserted.

The 1 shows a honeycomb body 1 , which is a fluid entry side 2 that is from a fluid 3 is flown. The cross section of the honeycomb body 1 lies in an XY plane. Parallel to a Z-axis of the honeycomb body 1 runs a variety of fluid channels 4 , both at the fluid inlet side 2 as well as on a fluid exit side 5 are open and the entire volume of the honeycomb body 1 fill out. For a better overview are in the 1 only two fluid channels 4 dashed lines. The fluid channels 4 are straight and have substantially the same, in particular square cross-section with each other. The arrangement of the fluid channels 4 is chosen so that at least one side wall 10 at least one fluid channel 4 likewise a side wall 10 an adjacent fluid channel 4 forms. Also the fluid inlet opening 6 and the fluid outlet opening 7 are shown only as examples and extend in reality over the entire fluid inlet side 2 or the fluid outlet side 5 , To the cleaning performance of a honeycomb body 1 through the fluid channels 4 flowing through the exhaust gas can increase the surface 8th each fluid channel 4 with a catalytic coating 9 be provided. Alternatively, it is also possible that the surface 8th not coated.

The fluid inlet side 2 and the fluid exit side 5 form outer surfaces 11 . 12 of the honeycomb body 1 , these outer surfaces 11 . 12 in particular horizontally extending surfaces. In the upper outer surface 12 is a sensor-receiving channel 13 formed, which extends over the entire depth dimension of the honeycomb body 1 extends so that it has a channel opening 14 in a vertical outer surface 15 and with a channel end opening 16 in a vertical outer surface 17 of the honeycomb body 1 empties. At the top, the sensor-receiving channel is open, that is, it lies to the outer surface 12 open. The arrangement is made such that the longitudinal extent (double arrow 18 ) of the sensor receiving channel 13 seen the fluid channels 4 run at right angles. A share of them flows into the ground 19 of the sensor pickup channel 13 , The honeycomb body 1 also has two more outer surfaces 20 and 21 and the sensor receiving channel 13 has two opposing side surfaces 22 and 23 on. The side surfaces 22 and 23 run parallel to each other and are perpendicular to the ground 19 ,

Of the 2 can be seen that from a variety of honeycomb bodies 1 a honeycomb body assembly 27 is formed. The individual honeycomb bodies 1 are masonry set to form a total volume, with all fluid channels 4 vertically and parallel to each other. Horizontal runs in some of the honeycomb body 1 one sensor-receiving channel each 13 such that the individual sensor receiving channels 13 adjoin each other lengthwise, so that a continuous sensor channel 24 is created. In this sensor channel 24 is - from the side - a sensor 25 inserted or inserted from above, with its data cable 26 along the sensor channel 24 goes to the outside. The width and height of the sensor channel 24 is designed such that the sensor 25 and his data cable 26 not be crushed. About the sensor channel 24 can now more honeycomb body 1 (In particular without sensor receiving channel 13 ) are stacked, so that a total results in a honeycomb body pack, which serve as a heat storage. There is also the option of using sensor-receiving channel 13 provided honeycomb body 1 to combine with other types of heat storage elements, such as saddles or Hexapack bodies, which are also heat storage components. What is important is that a sensor channel 24 is formed in order to accommodate a sensor without damage.

This results in the following operation: After the honeycomb body assembly 27 was brought to a desired operating temperature by means of a heated fluid, there is a flow through the fluid channels 4 with an exhaust gas to be cleaned. In this case, the exhaust gas heats up and is treated for exhaust gas purification. Because of in the honeycomb body assembly 7 located sensor, which is designed in particular as a temperature sensor, preferably thermocouple, the process can be temperature-controlled so that no excessive temperatures occur in the honeycomb body assembly and thereby damaging the very sensitive fluid channels 4 is prevented. This is the sensor 25 via his data cable 26 communicates with a control device (not shown) that controls the overall process.

Claims (8)

Honeycomb body, in particular for thermal and / or catalytic exhaust gas purification or regenerative heat recovery, which has outer surfaces and a plurality of fluid passages through which a fluid can pass, characterized by at least one of at least one of the outer surfaces ( 10 . 12 . 15 . 17 . 20 . 21 ) open sensor receiving channel ( 13 ). Honeycomb body according to claim 1, characterized in that the sensor receiving channel ( 13 ) to an outer surface ( 10 . 12 . 15 . 17 . 20 . 21 ) is open with a channel longitudinal side, in another outer surface with a channel opening ( 14 ) and in another outer surface ( 10 . 12 . 15 . 17 . 20 . 21 ) with a channel end opening ( 16 ) opens. Honeycomb body according to one of the preceding claims, characterized in that the sensor receiving channel ( 13 ) is designed to extend in a straight line. Honeycomb body according to one of the preceding claims, characterized in that the sensor receiving channel ( 13 ) on an outer surface ( 10 . 12 . 15 . 17 . 20 . 21 ) forming upper side or on an outer surface ( 10 . 12 . 15 . 17 . 20 . 21 ) forming the underside of the honeycomb body ( 1 ) is trained. honeycombs according to one of the preceding claims, characterized by the Training as extruder honeycomb body. Honeycomb body according to one of the preceding claims, characterized in that the sensor receiving channel ( 13 ) transversely to the fluid channels ( 4 ) and at least some fluid channels ( 4 ) cuts. Honeycomb arrangement with several honeycomb bodies ( 1 ), in particular according to one or more of the preceding claims, wherein the honeycomb bodies ( 1 ) at least one sensor receiving channel ( 13 ) and are arranged adjacent to each other, wherein the sensor receiving channels ( 13 ) in such a way that a continuous sensor channel ( 24 ) whose length is equal to the sum of the lengths of at least some of the individual sensor receiving channels ( 13 ) corresponds. Honeycomb body configuration according to claim 7, characterized by sensor receiving channel-free honeycomb body and / or further sensor storage channel-free heat storage elements.