JP4022301B2 - Bonus octane number estimation device and gasoline property estimation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gasoline octane number estimation device and a gasoline property estimation device obtained by mixing a plurality of base materials, and more specifically, based on the mixing ratio of these base materials from the octane number of each base material constituting the gasoline. Bonus octane number estimation device for estimating the bonus octane number obtained as a difference between the calculated octane number of the gasoline and the actual octane number of the gasoline obtained by the analysis of the gasoline, and the properties of these base materials and these The present invention relates to a gasoline property estimation device that estimates the property of gasoline from the mixing ratio of base materials.
[0002]
[Background]
Gasoline is obtained by distilling crude oil to obtain a base material fraction, refining the base material fraction by desulfurization, catalytic cracking, catalytic reforming, etc. to obtain a gasoline base material, and the gasoline base material. And a blending step of blending a plurality of types.
In the gasoline production line, gasoline is manufactured by continuously mixing multiple types of base materials with an in-line blender etc. at a predetermined mixing ratio, and the obtained gasoline is sent to product tanks etc. through the product line. .
[0003]
In this product line, an analyzer is installed to control the quality of gasoline in real time. By adjusting the mixing ratio of the base material in real time according to the analysis result of this analyzer, gasoline with the desired properties can be obtained. Trying to get.
In such a production line, each instrument on the line is immediately controlled based on the analysis result of the analyzer, so that the analysis result of the analyzer requires high reliability.
For this reason, from the values indicating the properties of each base material, the properties of the product gasoline are calculated by weighted averages based on their mixing ratios, and the analyzer is checked by comparing this calculated value with the analysis results of the analyzer. The system is checked for correct operation to improve reliability. Such collation between the calculated value and the analysis result is performed for each item indicating the property of gasoline.
[0004]
At this time, the octane number, which is a representative item indicating the properties of gasoline, varies in a complex manner depending on the type of base material, the octane number of each base material, the mixing ratio of the base materials, and the like. When the calculated octane number is large, the difference between the calculated octane number calculated by the analyzer and the actually measured octane number obtained by the analyzer is large, and the calculated octane number cannot be used as it is as a matching value.
For this reason, the difference between the calculated octane number and the measured octane number is defined as the bonus octane number, the average value of the bonus octane number is calculated from past data, and the obtained average value is defined as the representative value of the bonus octane number. In addition, the estimated octane number for verification was calculated.
[0005]
[Problems to be solved by the invention]
However, in this method, since the past bonus octane number is averaged to obtain the representative value of the bonus octane number, the estimated octane number for matching calculated using this representative value is a constant (the average value of the bonus octane number) for the calculated octane number. However, it was not a value that sufficiently corresponds to the actually measured octane number, which fluctuates in a complicated manner.
For this reason, the error range between the estimated octane number and the measured octane number is still large, which is insufficient as a value for collation with the analysis result.
[0006]
An object of the present invention is to provide a bonus octane number estimation device that can accurately estimate a bonus octane number and a gasoline property estimation device that can accurately estimate the properties of gasoline.
[0007]
[Means for Solving the Problems]
The present invention is obtained as a difference between the calculated octane number of gasoline calculated based on the mixing ratio of these base materials from the octane number of each base material constituting the gasoline and the actually measured octane number of the gasoline obtained by analyzing the gasoline. A bonus octane number estimation device for estimating a bonus octane number, comprising a bonus octane number estimating means for inferring a bonus octane number of gasoline to be estimated using a knowledge base storing data of a plurality of types of gasoline, The knowledge base includes the properties of the base materials constituting the multiple types of gasoline, the mixing ratio of the base materials, the calculated octane number of the multiple types of gasoline, the measured octane numbers of the multiple types of gasoline, Includes calculated octane number and bonus octane number calculated from measured octane number Wherein the chromatography data is stored.
[0008]
In the present invention, data of a plurality of types of gasoline obtained in the past, specifically, the properties of each base material constituting the gasoline, the mixing ratio of these base materials, the calculated octane number of each gasoline, the measured octane number The knowledge base of the bonus octane number estimation means is constructed using data including the bonus octane number.
In estimating the bonus octane number, the known data of the gasoline to be estimated, for example, the properties of each base material constituting the gasoline, the mixing ratio of the base materials, and the like are given to the bonus octane number estimation means. Then, the said bonus octane number estimation means infers the bonus octane number of the gasoline to be estimated using the aforementioned knowledge base based on the given information.
[0009]
In the present invention, since the bonus octane number estimation device is configured using such a bonus octane number estimation means, the bonus octane number of gasoline to be estimated can be comprehensively inferred from data over a plurality of items stored in the knowledge base. The bonus octane number can be estimated according to the gasoline to be estimated.
Therefore, irrespective of the gasoline to be estimated, the bonus octane number can be estimated with higher accuracy than the conventional method in which a constant obtained by averaging past bonus octane numbers is the estimated bonus octane number (representative value).
[0010]
In this case, there is provided a bonus octane number preliminary estimation means for estimating the bonus octane number of the gasoline to be estimated by regression analysis from the data of the plurality of types of gasoline, and the gasoline to be estimated is within the range of the knowledge base of the bonus octane number estimation means. In the case of an external one, it is desirable that the bonus octane number is estimated by the bonus octane number preliminary estimation means.
[0011]
In other words, when the gasoline to be estimated is out of the knowledge base range of the bonus octane number estimating means, the estimation accuracy of the bonus octane number estimating means may be lowered.
Therefore, in this case, since the estimation of the bonus octane number is performed by the bonus octane number preliminary estimation means using regression analysis, a more reliable estimation result can be obtained than when the bonus octane number estimation means is adopted as it is. The estimation accuracy of the bonus octane number can be improved.
[0012]
On the other hand, the present invention is a gasoline property estimation device that estimates the properties of gasoline from the properties of each substrate constituting the gasoline and the mixing ratio of these substrates, and has the above-described bonus octane number estimation device. It is characterized by estimating the octane number of gasoline to be estimated using the bonus octane number estimated by the bonus octane number estimating device.
[0013]
In the present invention, since the octane number of the gasoline to be estimated is estimated from the bonus octane number and the calculated octane number using the highly accurate bonus octane number estimated by the bonus octane number estimating device, the octane number can be accurately estimated. The reliability of the estimation result can be improved.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a gasoline production apparatus 1 that produces gasoline by mixing a plurality of gasoline base materials.
The production apparatus 1 includes a plurality of purification apparatuses 11 for refining raw oil (base fraction) such as heavy gasoline that is a raw material of gasoline, and each gasoline obtained by refining by these purification apparatuses 11. A plurality of base material tanks 12 for storing the base materials A to C, an inline blending device (inline blender) 13 for mixing the base materials A to C, and a base material from each base material tank 12 to the inline blending device 13 And a base material pump 14 for feeding out A to C.
On the downstream side of the in-line blending device 13 (outlet of the blending device 13), a product tank 2 for storing the product gasoline obtained by the blending device 13, a product shipping facility (not shown), and the like are provided.
[0015]
Between the refinement | purification apparatus 11 and the base material tank 12, the base material property measurement means 15 which measures the property of the base materials AC using the base material analyzer 151 arrange | positioned at the flow path of each base material AC. And a flow meter 16 for measuring the flow rate of the base materials A to C received by the base material tank 12 is provided.
The base material property measuring means 15 and the flow meter 16 are connected to a base material property estimating means 17 for estimating the properties of the base materials A to C in each base material tank 12.
[0016]
The base material property estimating means 17 is configured to obtain the properties and quantities of the base materials A to C in the base material tank 12 using the data of the base material property measuring means 15 and the flow meter 16. .
Specifically, the base material property estimating means 17 includes the properties and quantities of the base materials A to C sent out from the refining device 11, and the initial stock in each base material tank 12 before receiving them (from before receiving). The properties of the base materials A to C in the base material tank 12 are estimated in real time from the properties and quantities of the base materials A to C) in the base material tank 12.
[0017]
That is, since the base materials A to C are temporarily stored in the base material tank 12, when the properties of the base materials A to C sent out from the refining device 11 fluctuate, those having different properties are mixed in the base material tank 12. Will be.
Accordingly, the properties of the base materials A to C immediately after the purification and the properties of the base materials A to C in the base material tank 12 do not coincide with each other. By estimating the properties of the substrates A to C, the properties of the substrates A to C to be blended in the subsequent blending process are accurately managed.
[0018]
Between the base material tank 12 and the inline blending device 13, a flow meter 18 for measuring the flow rate of each base material A to C fed to the blending device 13, and a control for opening and closing the flow path of each base material A to C. A valve 19 is provided.
The control valve 19 is connected to blend control means 20 for controlling the mixing ratio of the base materials A to C to be blended by controlling the opening degree of the control valve 19.
[0019]
The blend control means 20 is connected to a quality management system 3 that manages the quality of the product gasoline.
The blend control means 20 adjusts the mixing ratio of the base materials A to C so that a product of the set quality (target product property) is obtained based on the property of the product gasoline obtained from the quality management system 3 in real time. It is configured as follows. Such control of the mixing ratio is performed while confirming the flow rates (mixing ratios) of the base materials A to C obtained by the flow meter 18.
Further, the mixing ratio of the base materials A to C is sent from the blend control means 20 to the quality management system 3 in real time for use in quality control of the product gasoline.
[0020]
As shown in FIG. 2, the quality management system 3 includes a product property measuring device 31 that measures the property of product gasoline in real time, a product property estimation device 32 that estimates the property of product gasoline in real time, and a property measurement device 31. Collation means 33 for collating the obtained product property measurement value and the product property estimation value obtained by the property estimation device 32 with each other is provided.
The product property measuring device 31 includes various analyzers (not shown) including an octane valence meter, for example, one appropriately selected from a vapor pressure meter, a fine clock, a gas chromatography analyzer, a near infrared analyzer, and the like. It is configured to include.
[0021]
The product property estimation device 32 includes the estimated properties (base material property estimated values) of the base materials A to C obtained by the base material property estimation means 17 (see FIG. 1) and the base materials A to C adjusted by the blend control means 20. It is an apparatus for estimating the product properties from the mixing ratio of C, for example, an apparatus for estimating the properties using a blend model using a chemical formula or a learning model using a neuro model.
[0022]
The product property estimation device 32 includes a bonus octane number estimation device 4 for estimating the bonus octane number of product gasoline, and uses the bonus octane number estimated by the bonus octane number estimation device 4 to estimate the octane number of product gasoline. It is configured.
Here, the bonus octane number is the calculated octane number of the product gasoline calculated from the octane number of each of the base materials A to C by the weighted average based on the mixing ratio thereof, and the octane number meter of the product property measuring device 31. It means the difference from the measured octane number of the measured product gasoline.
That is, in the product property estimation device 32, the calculated octane number calculated from the octane numbers of the base materials A to C constituting the product gasoline to be estimated and the mixing ratio thereof, and the estimated bonus octane number obtained by the bonus octane number estimation device 4 Therefore, the octane number of the product gasoline to be estimated is calculated.
[0023]
The bonus octane number estimation device 4 includes two estimation means for estimating the bonus octane number, specifically, a bonus octane number estimation means 41 and a bonus octane number preliminary estimation means 42.
The bonus octane number estimating means 41 is a computer system that infers a bonus octane number of product gasoline to be estimated using a knowledge base constructed by storing data of a plurality of types of product gasoline in a computer, that is, an expert system. It can be created using existing expert system construction support tools.
[0024]
In this knowledge base, data of multiple types of product gasoline produced in the past are input. Specifically, the characteristics of each base material constituting the product gasoline, the mixing ratio of these base materials, and the product Stored are attribute values relating to each product gasoline including the calculated octane number of gasoline, the actually measured octane number of product gasoline, and the calculated octane number and the bonus octane number of product gasoline calculated from the actually measured octane number.
The properties of the base material stored in this knowledge base include the octane number of each base material.
[0025]
The thus configured bonus octane number estimating means 41 includes the estimated property values of the base materials A to C obtained by the base material property estimating means 17 (see FIG. 1) and the base controlled by the blend control means 20. The mixing ratio of the materials A to C is sent in real time. In the estimation means 41, the bonus octane number of the product gasoline is estimated in real time from the base material property estimated value and the mixing ratio of the base materials A to C based on the aforementioned knowledge base.
Such a bonus octane number estimating means 41 can obtain excellent estimation accuracy when the product gasoline to be estimated is within the range of its knowledge base. On the other hand, if the product gasoline to be estimated is outside the range of the knowledge base, the estimation accuracy may decrease.
[0026]
On the other hand, the bonus octane number preliminary estimation means 42 uses the same data as the past data of a plurality of types of product gasoline used for constructing the knowledge base described above, and calculates the bonus octane number of the product gasoline to be estimated by linear regression analysis using a computer. It is an apparatus to estimate using.
In the linear regression analysis of the present embodiment, each attribute value in the past product gasoline data, for example, the properties of each base material including the octane number (base material property estimation value), the mixing ratio of the base materials, and the like are independent variables. , The bonus octane number of past product gasoline is used as a dependent variable, and regression coefficients f1, f2, f3,... Fn and a constant F are obtained from these independent variables and dependent variables, and the bonus octane number Y is calculated by the following equation (1). Calculate.
[0027]
Y = X1 · f1 + X2 · f2 + X3 · f3 +... Xn · fn + F Formula (1)
[0028]
Note that X1, X2, X3... Xn in the formula (1) are attribute values relating to each base material constituting the product gasoline to be estimated, for example, the properties of each base material (base material property estimation value), The mixing ratio of the materials, etc., and the properties of each substrate include the octane number of each substrate.
In the formula (1), Y is the bonus octane of product gasoline to be estimated.
[0029]
In the bonus octane number preliminary estimation means 42, the estimated property values of the base materials A to C and the mixing ratios of the base materials A to C are received in real time from the base material property estimation means 17 (see FIG. 1) and the blend control means 20. It is supposed to be sent.
The preliminary estimation means 42 calculates the bonus octane number of the product gasoline in real time using Equation (1) using these base material property estimated values and base material mixing ratios. Such bonus octane number preliminary estimation means 42 estimates the bonus octane number by calculation using the linear expression (1), so that the product gasoline to be estimated is out of the range of past product gasoline data. Even so, an approximate value of the bonus octane number can be obtained.
[0030]
The bonus octane number estimation device 4 provided with these two types of estimation means 41 and 42 selects one of the estimation results of the estimation means 41 and 42 according to the product gasoline to be estimated, and estimates the bonus. It is configured to be adopted as the octane number.
That is, when the base material property and mixing ratio of the product gasoline to be estimated are within the knowledge base range of the bonus octane number estimation means 41, the bonus octane number estimated by the bonus octane number estimation means 41 is adopted, When the value is outside the range of the knowledge base, the bonus octane number estimated by the bonus octane number preliminary estimation means 42 is adopted.
Accordingly, even when the product gasoline exceeds the range of the knowledge base, that is, when the estimation accuracy of the bonus octane number estimation unit 41 is lowered, the bonus octane number preliminary estimation unit 42 can maintain high estimation accuracy.
[0031]
Note that the estimation unit 41 and the preliminary estimation unit 42 may perform estimation only with the estimation unit that employs the estimation result, and stop the estimation unit that is not used. Further, when the estimated octane number estimated by the product property estimating device 32 and the actually measured octane number measured by the octane number meter are compared with each other at regular intervals, the estimation means 41 is obtained when the difference exceeds a predetermined width (management width). , 42 may be switched.
This switching may be performed automatically, or may be configured to issue an abnormality alarm at the time of switching and may be manually switched by this abnormality alarm.
[0032]
The collation means 33 collates and compares each data of the product property estimation value such as the estimated octane number estimated by the product property estimation device 32 and the product property measurement value such as the actual octane number measured by the product property measurement device 31 in real time. Thus, the operating state and accuracy of the product property measuring device 31 are checked, and it is possible to constantly monitor whether the measuring device 31 is operating correctly.
As a method for collating each data, for example, various methods such as a method for comparing and evaluating the deviation of each data by a statistical method and a method for comparing and evaluating the ratio of each data can be adopted.
When the difference between the measured product property value and the estimated product property value exceeds a predetermined range (management width), the verification unit 33 stops the base material pump 14 and transports the product to the product tank 2. It is set to stop.
[0033]
In the present embodiment configured as described above, product gasoline is manufactured by the following procedure.
That is, the gasoline base materials A to C supplied from the base material tanks 12 by the base material pump 14 are mixed by the in-line blending device 13 to produce product gasoline.
At this time, the mixing ratio of the base materials A to C is set by controlling the opening degree of the control valve 19 by the blend control means 20. The blend control unit 20 adjusts the mixing ratio of the base materials A to C as necessary from the change tendency and change rate of the product property measurement value of the product property measurement device 31.
The base material property estimating means 17 estimates the properties of the base materials A to C of each base material tank 12 in real time, and the product property measuring device 31 measures the properties of the product gasoline in real time.
[0034]
While the product gasoline is being manufactured, the bonus octane number estimation device 4 includes the properties of the base materials A to C (base material property estimation values) and the mixing ratio of the base materials A to C set by the blend control means 20. To estimate the bonus octane number in real time.
The product property estimation device 32 estimates the properties of the product gasoline including the octane number of the product gasoline from the estimated bonus octane number, the properties of the base materials A to C (base material property estimation values) and the mixing ratio of the base materials A to C. To do.
At this time, the bonus octane number estimation device 4 checks whether the properties and mixing ratios of the input base materials A to C are within the range of the knowledge base, and according to the check result, the bonus octane number estimation means 41 and One of the estimation results of the bonus octane number preliminary estimation means 42 is selected, and this is output to the product property estimation device 32 as an estimated bonus octane number.
[0035]
The collating means 33 compares and evaluates the estimated product property value and the measured product property value, and if the difference between the estimated value and the measured value exceeds a predetermined range (management width), the base material pump The operation of 14 and the transport of the product to the product tank 2 are stopped, and the production of the product gasoline is immediately stopped.
Note that the collating means 33 alerts not only when the difference between the estimated value and the measured value is abnormal, but also when the product property estimated value or the product property measured value itself exceeds a predetermined standard value (control value). Is set to stop the base pump 14 or the like.
[0036]
According to this embodiment, there are the following effects.
That is, since the bonus octane number estimating device 4 is configured using the bonus octane number estimating means 41 that infers the bonus octane number of the product gasoline to be estimated using the knowledge base, the bonus octane number of the product gasoline to be estimated is Since it is possible to infer comprehensively from data over a plurality of items stored in, it is possible to estimate the bonus octane number corresponding to the product gasoline to be estimated.
Therefore, the bonus octane number can be estimated with higher accuracy than the conventional method in which a constant obtained by averaging past bonus octane numbers is an estimated bonus octane number (representative value) regardless of the gasoline to be estimated.
[0037]
Further, when the product gasoline to be estimated is out of the knowledge base range of the bonus octane number estimation means 41, the estimated value obtained by the bonus octane number preliminary estimation means 42 that performs estimation using linear regression analysis is adopted as the bonus octane number. As a result, a more reliable estimation result can be obtained than when the bonus octane number estimation means 41 with reduced accuracy is used for estimation as it is, so that the accuracy of estimation of the bonus octane number can be improved.
[0038]
The product property estimation device 32 is configured so as to estimate the octane number of the product gasoline from the bonus octane number and the calculated octane number using the estimated bonus octane number with high estimation accuracy obtained by the bonus octane number estimation device 4 as described above. Since the octane number of gasoline can be accurately estimated, the reliability of the property estimation result (product property estimation value) of product gasoline can be improved.
[0039]
Since the collation means 33 is configured to collate the highly accurate product property estimation value with the product property measurement value by the product property measurement device 31 and constantly monitor the product property measurement device 31, the product property measurement is performed. Since the device 31 can be closely monitored, accurate and reliable product property measurements can be reliably obtained.
Moreover, since the blend control means 20 adjusts the blend ratio of the base materials A to C based on this product property measurement value, a high-quality product gasoline having a target product property can be reliably produced.
[0040]
In addition, this invention is not limited to the said embodiment, Other modifications etc. which can achieve the objective of this invention are included, The deformation | transformation etc. which are shown below are also contained in this invention.
That is, the bonus octane number estimation device 4 of the above embodiment includes the two estimation means 41 and 42, but the bonus octane number preliminary estimation means 42 may be omitted. In this case, the knowledge base of the bonus octane number estimation means 41 Is preferably constructed over a wide range.
[0041]
In the said embodiment, although the base material property estimation means 17 estimated the property of base material AC in each base material tank 12, between the base material tank 12 and the blending apparatus 13, or in the base material tank 12 An analyzer may be installed to directly measure the properties of the base materials A to C to be blended.
[0042]
In the embodiment described above, an apparatus for producing product gasoline by mixing three types of base materials A to C has been described. However, two types of base materials may be mixed, or four types of base materials may be mixed. It may be more than types.
[0043]
【The invention's effect】
As described above, according to the present invention, the bonus octane number estimating device for estimating the bonus octane number of gasoline is configured to infer the bonus octane number using the knowledge base by the bonus octane number estimating means. Since the bonus octane number of the product gasoline to be can be comprehensively inferred from data over a plurality of items stored in the knowledge base, the bonus octane number corresponding to the product gasoline to be estimated can be estimated.
Therefore, the bonus octane number can be estimated with higher accuracy than the conventional method in which a constant obtained by averaging past bonus octane numbers is an estimated bonus octane number (representative value) regardless of the gasoline to be estimated.
[0044]
Further, in the gasoline property estimation device for estimating the properties of the gasoline from the properties of each substrate constituting the gasoline and the mixing ratio of these substrates, using the highly accurate bonus octane number estimated by the bonus octane number estimation device, Since the octane number of the gasoline to be estimated is estimated from the bonus octane number and the calculated octane number, the octane number can be estimated with high accuracy, and the reliability of the estimation result of the gasoline property can be increased.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an embodiment of the present invention.
FIG. 2 is a configuration diagram showing a main part of the embodiment.
[Explanation of symbols]
1 Gasoline production equipment
2 Product tank
3 Quality control system
4. Bonus octane number estimation device
11 Purification equipment
12 Base material tank
13 In-line blending equipment
14 Substrate pump
15 Base material property measuring means
16, 18 Flow meter
17 Base material property estimation means
19 Control valve
20 Blend control means
31 Product property measuring device
32 Product property estimation device
33 Verification means
41 Bonus octane number estimation means
42 Bonus octane number preliminary estimation means

Claims (3)

Bonus octane number obtained as the difference between the calculated octane number of the gasoline calculated from the octane number of each base material constituting the gasoline based on the mixing ratio of these base materials and the measured octane number of the gasoline obtained by analyzing the gasoline Is a bonus octane number estimating device for estimating
Using a knowledge base that stores data of multiple types of gasoline, it has a bonus octane number estimation means for inferring the bonus octane number of gasoline to be estimated,
In the knowledge base, the properties of each base material constituting the plurality of types of gasoline, the mixing ratio of these base materials, the calculated octane number of the plurality of types of gasoline, the actually measured octane number of the plurality of types of gasoline, An apparatus for estimating a bonus octane number, characterized in that data including a calculated octane number and a bonus octane number calculated from an actually measured octane number is stored. The bonus octane number estimation device according to claim 1, further comprising bonus octane number preliminary estimation means for estimating a bonus octane number of the gasoline to be estimated by regression analysis from data of the plurality of types of gasoline.
The bonus is characterized in that the bonus octane number is estimated by the bonus octane number preliminary estimation means when the gasoline to be estimated is outside the range of the knowledge base of the bonus octane number estimation means. Octane number estimation device. A gasoline property estimation device that estimates the properties of gasoline from the properties of each substrate constituting gasoline and the mixing ratio of these substrates,
It has a bonus octane number estimating device according to claim 1 or claim 2,
A gasoline property estimation apparatus configured to estimate an octane number of gasoline to be estimated using the bonus octane number estimated by the bonus octane number estimation apparatus.

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