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Methods and apparatus for measuring NOX gas concentration, for detecting exhaust gas concentration and for calibrating and controlling gas sensor

a technology of nox gas and measurement method, applied in the direction of electrical control, instruments, material electrochemical variables, etc., can solve the problems of difficult to accurately measure the nox gas concentration in the exhaust gas, the nox gas concentration measurement error is not accurate, and the nox gas concentration is difficult to accurately measur

Inactive Publication Date: 2002-02-14
BERKLEY INC +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0013] It is therefore an object of the present invention to provide a method and apparatus for accurately measuring NOx gas concentration in engine exhaust.
[0052] According to the several aspects of the fourth feature of the present invention, the gas sensor correcting method and apparatus is based on an estimate of the amount of the moisture in the exhaust gas based on from the engine operating conditions. The gas concentration detection signal outputted by the gas sensor is corrected depending on the estimated amount of the moisture. From the detected value of the gas concentration, the effect of the amount of moisture in the measurement gas is removed or reduced.

Problems solved by technology

First, the output gain of the NOx gas sensor varies depending on the oxygen concentration upon measuring the NOx gas concentration, which results in an error in the NOx gas concentration measurement.
The present inventors have further found that, if the oxygen concentration in the measurement gas is varied significantly, delay is caused in voltage control for the first oxygen ion pumping cell, thereby making it difficult to measure the NOx gas concentration correctly.
Thus, if the PID control is performed based on the potential of an oxygen partial pressure detection cell, it is difficult to correctly measure the NOx concentration in the exhaust gas if only the method of varying and controlling the pump capability of the first oxygen ion pumping cell is used.
In the above-described current limiting type sensor, one problem is that the detection current flowing in the oxygen ion pumping cell is as small as several .mu.A.
Moreover, since decomposition of harmful gas components (such as NOx) is controlled or suppressed by the catalytic action on the electrode surface, another problem is that, on prolonged use, catalytic activity is changed causing a shift in the zero point (i.e., a detection output of the gas sensor specifying that the concentration of the pre-set component is substantially zero).

Method used

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  • Methods and apparatus for measuring NOX gas concentration, for detecting exhaust gas concentration and for calibrating and controlling gas sensor
  • Methods and apparatus for measuring NOX gas concentration, for detecting exhaust gas concentration and for calibrating and controlling gas sensor
  • Methods and apparatus for measuring NOX gas concentration, for detecting exhaust gas concentration and for calibrating and controlling gas sensor

Examples

Experimental program
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first embodiment

[0141] First Embodiment

[0142] A first embodiment according to the first feature of the present invention is explained in detail. In the present embodiment, the NOx gas concentration was found by the following correcting method, using the NOx gas sensor shown in FIGS. 25 to 28. The common measurement conditions were as follows:

[0143] temperature of the measurement gas: 300.degree. C.

[0144] gas composition: NO (0 to 1500 ppm); O2 (0 to 16%); CO2 10%; balance being N2

[0145] heater power: 18 to 25 W (20 W corresponds to 800.degree. C. in terms of the sensor temperature)

[0146] Preliminarily, the values of the second oxygen ion pump current for the NOx gas concentration at substantially zero and for a pre-set concentration (1500 ppm) were measured at various oxygen concentration values. Using measured values of the second oxygen ion pump current as obtained for various values of the concentration of the injected NO at the pre-set oxygen concentration, gain values for various oxygen concen...

example a2

Correction Method 2

[0152] It is assumed that the relation between the gain and the oxygen concentration is represented by the following polynominal of the least square method of the following equation (4). 1Gain = i = 0 n ( Gaini O2concenti ) ( 4 )

[0153] where i SHOWS DEGREE, IN PARTICULARLY Gaini FOR i=0 SHOWS VALUE OF GAIN FOR O.sub.2=0%

[0154] In the above equation (4), the gain value for the pre-set oxygen concentration shown in Table 1 for i=2 was substituted and, using the least square method, the above coefficients (GAINi: i=0 to 2) were determined. Subsequently, the NOx gas concentration was found in the same way as in the correction method 1. Table 3 shows the above measured values, calculated values, difference between the true values of the NOx gas concentration (injected NO concentration (A)) and the calculated values (B) and the results of the Comparative Example (same as that shown in Table 2). It is seen from Table 3 that the NOx gas concentration can be found more acc...

example a3

Correction Method 3

[0155] The oxygen partial pressure was set to 10.sup.-3, 0.01, 0.07 and to 0.16 and the injected NO concentration was set to 0, approximately 500, approximately 1000 and approximately 1500. For each combination of these conditions, the second oxygen ion pump current was measured, respectively. Meanwhile, the oxygen partial pressure corresponds to the concentration of the above correction methods 1 and 2, expressed in terms of the partial pressure, while measured values of the injected NO concentration and the second oxygen ion pump current and the comparative example are the same as those shown in the above correction methods 1 and 2. It was assumed that the relation between the gain and the logarithm of the oxygen partial pressure was represented by a polynominal as shown by the following equation (5):

Gain=Gain0+Gainc.times.log(p02) (5)

Gain0:VALUE OF GAIN FOR OXYGEN PARTICIAL PRESSURE=1

Gainc:GRADIENT

[0156] The NOx gas concentration was found by the equation (2) b...

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Abstract

A nitrogen oxide concentration detector has a first measurement chamber 2 into which is introduced a measurement gas via a first diffusion resistance 1; an oxygen concentration detection electrode 7a for measuring the oxygen concentration in the measurement gas in said first measurement chamber 1; a first oxygen ion pump cell 6 for pumping out oxygen in the measurement gas from said first measurement chamber 2 based on the potential of said oxygen concentration detection electrode 7a; a second measurement chamber 8 into which the gas is introduced from said first measurement chamber 2 via a second diffusion resistance 3; and a second oxygen ion pump cell 8 having a pair of electrodes 8a,8b across which a voltage is applied to decompose NOx in the second measurement chamber 4 to pump out dissociated oxygen to cause a current Ip2 corresponding to the NOx concentration to flow in the second oxygen ion pump cell 8. Variation of NOx concentration is a function of variation of Ip2. The concentration obtained based on the Ip2 is corrected responsive to the oxygen concentration in the measurement gas. Particularly, a coefficient of the variation of the Ip2, gain, in said function is corrected responsive to the oxygen concentration in the measurement gas.

Description

[0001] This invention relates to a gas sensor and, more particularly, to a NOx gas sensor and a method and apparatus therefor, used for detecting the NOx gas concentration in exhaust gases of an internal combustion engine intended for industrial use and for driving an automobile, vessel or aircraft, or in combustion gases of a boiler or the like.[0002] This invention also relates to a method and apparatus for measuring the composition of exhaust gases of a combustion device or an internal combustion engine, in particular the NOx gas concentration.[0003] This invention also relates to a method and apparatus for controlling a NOx gas sensor used for measuring the NOx gas concentration in an ambient atmosphere in which the oxygen concentration in a measurement gas is changed acutely.[0004] This invention also relates to a method and apparatus for detecting the exhaust gas concentration for measuring the concentration of harmful gas components contained in the exhaust gas from the inter...

Claims

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Application Information

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IPC IPC(8): F01N3/08F01N3/20F01N11/00F02D41/14F02D41/24G01N27/417G01N27/419G01N33/00
CPCF01N3/0842F01N3/0871F01N3/2066F01N11/00F01N2550/02F01N2550/03F01N2560/026F01N2570/14F01N2610/03F02D41/146F02D41/2474F02D41/28G01N27/4175G01N27/419G01N33/0037Y02T10/47Y02T10/24Y02A50/20Y02T10/12Y02T10/40
Inventor ANDO, MASASHIISHIDA, NOBORUSUGAYA, SATOSHIOSHIMA, TAKAFUMINADANAMI, NORIHIKOOTSUKA, TAKAKISATO, YOSHIKUNIOKUMURA, TATSUOKUZUYA, YASUHISA
Owner BERKLEY INC
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