CN108647381A - The analysis method and device of viscous crude oxidative factors - Google Patents

Abstract

This application provides a kind of analysis methods and device of viscous crude oxidative factors, and this method comprises the following steps：Obtain the data of viscous crude oxidative factors.According to the data of viscous crude oxidative factors, obtains viscous crude under each data and aoxidize heating rate.Heating rate is aoxidized based on viscous crude under each data, the numerical value of viscous crude oxidative factors is determined according to the first pre-defined rule.According to the numerical value of viscous crude oxidative factors, analysis is ranked up to viscous crude oxidative factors according to the second pre-defined rule.The sequence of the influence degree and influence factor of viscous crude low-temperature oxidation rate of heat release influence factor can be specified using the analysis method and device of the viscous crude oxidative factors of the application.Technological guidance is provided to implement the igniting operation shortening low-temperature oxidation time, scene can determine preferential regulation and control parameter according to the method and device, also provide technical support to improve common heavy oil air drive effect.

Description

The analysis method and device of viscous crude oxidative factors

Technical field

The application belongs to technical field of petroleum extraction, and in particular to a kind of analysis method and dress of viscous crude oxidative factors It sets.

Background technology

Viscous crude oxidation mainly makes viscous crude heat up by different mode of heating and heat medium, to improve its mobility Energy.Currently, experimental work amount is big when determining viscous crude oxidative factors using conventional methods, and viscous crude can not be aoxidized Influence factor is analyzed, and is acted on later stage operation instruction smaller.

For example, paper《Viscous crude low-temperature oxidation dynamic experiment and scale-model investigation》(apply chemical industry, 2013,42 (2):259- 263) influence of the temperature and pressure to viscous crude low-temperature oxidation is had studied in.Experiment obtains, and at a lower temperature, viscous crude is begun to Low-temperature oxidation reaction is carried out, oxidizing reaction rate increases with temperature and accelerated, but does not analyze temperature and pressure respectively to thick The influence degree of oily low-temperature oxidation.

For this, a kind of effective method is not yet proposed at present.

Invention content

In order to overcome the drawbacks described above of the prior art, technical problem to be solved by the invention is to provide a kind of oxidations of viscous crude The analysis method and device of influence factor can set experiment parameter and analysis method according to field condition, and evaluation influences thick The principal element and secondary cause of oily oxidative factors provide guidance to improve viscous crude oxidation heat liberation rate, ensure air injection or fire The efficient progress driven.

The specific technical solution of the present invention is：

The present invention provides a kind of analysis method of viscous crude oxidative factors, includes the following steps：

Obtain the data of viscous crude oxidative factors；

According to the data of viscous crude oxidative factors, obtains viscous crude under each data and aoxidize heating rate；

Heating rate is aoxidized based on viscous crude under each data, the number of viscous crude oxidative factors is determined according to the first pre-defined rule Value；

According to the numerical value of viscous crude oxidative factors, viscous crude oxidative factors are ranked up according to the second pre-defined rule Analysis.

In one preferred embodiment, first pre-defined rule is that viscous crude oxidation is calculated according to following formula The numerical value of influence factor：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of horizontal influence value, i take the positive integer in 1 to m；P is expressed as the flat of whole viscous crude oxidation heating rate sums The mean value of side；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as entirely Square adduction of portion's viscous crude oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude The mean value of the quadratic sum of the horizontal influence value of heating rate is aoxidized, j takes the positive integer in 1 to m.

In one preferred embodiment, the degree of freedom of error is calculated according to following formula：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxygen Change the number of influence factor；R≤m, and be maximized.

In one preferred embodiment, the viscous crude oxidation horizontal influence value of heating rate is that the viscous crude aoxidizes shadow Each data of the factor of sound correspond to the adduction of heating rate.

In one preferred embodiment, second pre-defined rule is：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iIt is expressed as i-th of viscous crude oxidative factors Degree of freedom；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) the specific number of acquisition of tabling look-up Value.It is general to choose tri- kinds of levels of signifiance of 0.01,0.05,0.10.

In one preferred embodiment, if the numerical value F of viscous crude oxidative factors_iIn same section, then to thick The numerical value F of oily oxidative factors_iSize sorts, larger numerical value F_iImportance be more than smaller numerical value F_iImportance.

In one preferred embodiment, the viscous crude oxidative factors include air-oil ratio, temperature and aqueous Saturation degree.

In addition, the present invention also provides a kind of analytical equipment of viscous crude oxidative factors, which includes：

First acquisition module is configured as obtaining the data of viscous crude oxidative factors；

Second acquisition module is configured as the data according to viscous crude oxidative factors, obtains viscous crude under each data and aoxidizes Heating rate；

Numerical module is configured as, based on viscous crude oxidation heating rate under each data, determining according to the first pre-defined rule thick The numerical value of oily oxidative factors；

Analysis module is configured as the numerical value according to viscous crude oxidative factors, according to the second pre-defined rule to viscous crude oxygen Change influence factor and is ranked up analysis.

In one preferred embodiment, the numerical module is specifically configured to be calculated according to following formula thick The numerical value of oily oxidative factors：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of horizontal influence value, i take the positive integer in 1 to m；P is expressed as the flat of whole viscous crude oxidation heating rate sums The mean value of side；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as entirely Square adduction of portion's viscous crude oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude The mean value of the quadratic sum of the horizontal influence value of heating rate is aoxidized, j takes the positive integer in 1 to m.

In one preferred embodiment, the degree of freedom of error is calculated according to following formula：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxygen Change the number of influence factor；R≤m, and be maximized.

In one preferred embodiment, the viscous crude oxidation horizontal influence value of heating rate is that the viscous crude aoxidizes shadow Each data of the factor of sound correspond to the adduction of heating rate.

In one preferred embodiment, the analysis module is specifically configured to aoxidize viscous crude according to following formula Influence factor is ranked up analysis：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iIt is expressed as i-th of viscous crude oxidative factors Degree of freedom；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) the specific number of acquisition of tabling look-up Value.It is general to choose tri- kinds of levels of signifiance of 0.01,0.05,0.10.

In one preferred embodiment, the analysis module further includes：If the numerical value F of viscous crude oxidative factors_i In same section, then to the numerical value F of viscous crude oxidative factors_iSize sorts, larger numerical value F_iImportance be more than it is smaller Numerical value F_iImportance.

In one preferred embodiment, the viscous crude oxidative factors include air-oil ratio, temperature and aqueous Saturation degree.

In addition, the application also provides a kind of analytical equipment of viscous crude oxidative factors, including memory and processor, deposit Computer program is stored in reservoir, the computer program realizes following steps when being executed by the processor：Such as above-mentioned institute The analysis method for the viscous crude oxidative factors stated.

By above technical solution, the advantageous effect of the application is：Utilize the viscous crude oxidative factors of the application Analysis method and device can specify the influence degree of viscous crude low-temperature oxidation rate of heat release influence factor and the row of influence factor Sequence.Technological guidance is provided to implement the igniting operation shortening low-temperature oxidation time, scene can be determined according to the method and device Preferential regulation and control parameter, also provides technical support to improve common heavy oil air drive effect.

With reference to following description and accompanying drawings, the particular implementation of the application is disclosed in detail, specifies the original of the application Reason can be in a manner of adopted.It should be understood that presently filed embodiment is not so limited in range.In appended power In the range of the spirit and terms that profit requires, presently filed embodiment includes many changes, modifications and is equal.

The feature for describing and/or showing for a kind of embodiment can be in a manner of same or similar one or more It is used in a other embodiment, it is combined with the feature in other embodiment, or substitute the feature in other embodiment.

It should be emphasized that term "comprises/comprising" refers to the presence of feature, one integral piece, step or component when being used herein, but simultaneously It is not excluded for the presence or additional of one or more other features, one integral piece, step or component.

Description of the drawings

Attached drawing described here is only used for task of explanation, and is not intended to limit model disclosed in the present application in any way It encloses.In addition, the shape and proportional sizes etc. of each component in figure are only schematical, it is used to help the understanding to the application, and It is not the specific shape and proportional sizes for limiting each component of the application.Those skilled in the art, can under teachings of the present application Implement the application to select various possible shapes and proportional sizes as the case may be.In the accompanying drawings：

Fig. 1 is the analysis method flow chart of the viscous crude oxidative factors of the application embodiment；

Fig. 2 is the analytical equipment module map of the viscous crude oxidative factors of the application embodiment.

Specific implementation mode

Below in conjunction with the attached drawing in the application embodiment, the technical solution in the application embodiment is carried out clear Chu is fully described by, it is clear that described embodiment is only a part of embodiment of the application, rather than whole realities Apply mode.Based on the embodiment in the application, those of ordinary skill in the art institute without creative efforts The every other embodiment obtained, shall fall in the protection scope of this application.

It should be noted that when element is referred to as " being set to " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the application The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term as used herein "and/or" includes one or more Any and all combinations of relevant Listed Items.

As shown in Figure 1, the application provides a kind of analysis method of viscous crude oxidative factors, this method includes following step Suddenly：

S1：Obtain the data of viscous crude oxidative factors.

S2：According to the data of viscous crude oxidative factors, obtains viscous crude under each data and aoxidize heating rate.

S3：Heating rate is aoxidized based on viscous crude under each data, viscous crude oxidative factors are determined according to the first pre-defined rule Numerical value.

S4：According to the numerical value of viscous crude oxidative factors, viscous crude oxidative factors are carried out according to the second pre-defined rule Ordination.

In the above-described embodiment, it to analyze viscous crude oxidative factors, first has to obtain viscous crude oxidation shadow The data of the factor of sound.For example, air-oil ratio, temperature and water saturation can be chosen in following embodiments as viscous crude Then oxidative factors obtain the data value of these three influence factors.It then can be according to the number of viscous crude oxidative factors According to obtaining under each data viscous crude and aoxidize heating rate, then heating rate is aoxidized based on viscous crude under each data, according to the first pre- set pattern Then determine the numerical value of viscous crude oxidative factors, finally the numerical value again based on viscous crude oxidative factors is according to the second pre-defined rule Analysis is ranked up to viscous crude oxidative factors.

Specifically, which can be the number that viscous crude oxidative factors are calculated according to following formula Value：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of horizontal influence value, i take the positive integer in 1 to m；P is expressed as the flat of whole viscous crude oxidation heating rate sums The mean value of side；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as entirely Square adduction of portion's viscous crude oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude The mean value of the quadratic sum of the horizontal influence value of heating rate is aoxidized, j takes the positive integer in 1 to m.

The degree of freedom of the error is：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxygen Change the number of influence factor；R≤m, and be maximized.The viscous crude oxidation horizontal influence value of heating rate aoxidizes for the viscous crude Each data of influence factor correspond to the adduction of heating rate.

Second pre-defined rule is：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iIt is expressed as i-th of viscous crude oxidative factors Degree of freedom；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) can table look-up is had Body numerical value.It is general to choose tri- kinds of levels of signifiance of 0.01,0.05,0.10.

As the numerical value F of viscous crude oxidative factors_iIt, then can be to the number of viscous crude oxidative factors when in same section Value F_iSize is ranked up, larger numerical value F after sequence_iImportance be greater than smaller numerical value F_iImportance.

A specific embodiment is given in the present invention to carry out the analysis method of above-mentioned viscous crude oxidative factors Explanation.It should be noted, however, that the specific implementation merely to the present invention is better described, is not constituted to the present invention's Improper restriction.

In this example, this method includes：

Viscous crude oxidative factors are obtained first, and air-oil ratio (A), temperature (B) and water saturation are determined in this example (C) viscous crude oxidative factors are used as, the data value of these three influence factors is then obtained.As shown in table 1：

Table 1

Then it according to the data of viscous crude oxidative factors, obtains viscous crude under each data and aoxidizes heating rate, be shown in Table 2, Middle D-H is error term

Table 2

It is then possible to aoxidize heating rate based on viscous crude under each data, the viscous crude oxidation horizontal shadow of heating rate is calculated Ring value：

K_1A=(2.10+1.80+1.60+7.20+22.00+3.10+8.30+20.00+7.00) × 10^-2=0.73；

K_2A=(20.70+1.82+1.76+23.80+65.00+8.00+28.80+41.60+14.00) × 10^-2=2.05；

K_1B=(2.10+1.80+1.60+20.70+1.82+1.76) × 10^-2=0.30；

K_2B=(7.20+22.00+3.10+23.80+65.00+8.00) × 10^-2=1.29；

K_3B=(8.30+20.00+7.00+28.80+41.60+14.00) × 10^-2=1.20；

K_1C=(2.10+7.20+8.30+20.70+23.80+28.80) × 10^-2=0.91；

K_2C=(1.80+22.00+20.00+1.82+65.00+41.60) × 10^-2=1.52；

K_3C=(1.60+3.10+7.00+1.76+8.00+14.00) × 10^-2=0.35；

The horizontal influence value of heating rate is aoxidized according to above-mentioned viscous crude, the viscous crude oxidation horizontal influence value of heating rate can be obtained Quadratic sum mean value：

Aoxidize heating rate based on viscous crude under each data in table 1, acquire whole viscous crude oxidation heating rate sums square Mean value P：

Then, the degree of freedom t of error is calculated according to following formula_a：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxygen Change the number of influence factor；R≤m, and be maximized.

Then, t_a=n-1-r (m-1)=18-1-3 × (3-1)=11；

The degree of freedom of viscous crude oxidative factors is：

t₁=2-1=1；

t₂=3-1=2；

t₃=3-1=2；

A square adduction W for whole viscous crude oxidation heating rates is：

W=4.41+3.24+2.56+51.84+484.00+9.61+68.89+400.00+49.00+42 8.49

+ 3.31+3.10+566.44+4225.00+64.00+829.44+1730.56+196.00=0.9 120；

Viscous crude oxidative factors are air-oil ratio (A), temperature (B) and water saturation (C), and number is 3, i.e. m =3.

Above-mentioned data can then be brought into following formula, the numerical value of viscous crude oxidative factors is calculated：

Then it tables look-up to the numerical value of the viscous crude oxidative factors of acquisition, generally chooses 0.01,0.05,0.10 three kind The level of signifiance obtains：

F_0.01(1,11)=9.65；F_0.05(1,11)=4.84；F_0.10(1,11)=3.23；

F_0.01(2,11)=7.21；F_0.05(2,11)=3.98；F_0.10(2,11)=2.86；

According still further to the second pre-defined rule：

It obtains：

F_0.05(1,11)=4.84 ＜ F₁=6.08 ＜ F_0.01(1,11)=9.65；

F_0.10(2,11)=2.86 ＜ F₂=3.23 ＜ F_0.05(2,11)=3.98；

F_0.10(2,11)=2.86 ＜ F₃=3.61 ＜ F_0.05(2,11)=3.98；

It can be seen that in this example, for viscous crude oxidative factors, the importance of air-oil ratio is more than temperature and contains The importance of water saturation.

It, then can be to thick since the numerical value of the viscous crude oxidative factors of temperature and water saturation is in same section The numerical value F of oily oxidative factors_iSize is ranked up, F₂=3.23 ＜ F₃=3.61；Then for viscous crude oxidative factors temperature The importance of degree is less than the importance of water saturation.

It is put it can be seen that viscous crude low-temperature oxidation can be specified using the analysis method of the viscous crude oxidative factors of the application The sequence of the influence degree and influence factor of hot rate influence factor.It is provided to implement the igniting operation shortening low-temperature oxidation time Technological guidance, scene can determine preferential regulation and control parameter according to the method, also provide skill to improve common heavy oil air drive effect Art is supported.

Based on same inventive concept, a kind of analysis dress of viscous crude oxidative factors is additionally provided in the embodiment of the present invention It sets, as described in the following examples.Due to a kind of principle that the analytical equipment of viscous crude oxidative factors solves the problems, such as and one kind The analysis method of viscous crude oxidative factors is similar, thus the implementation of the analytical equipment of viscous crude oxidative factors may refer to it is thick The implementation of the analysis method of oily oxidative factors, overlaps will not be repeated.It is used below, term " unit " or The combination of the software and/or hardware of predetermined function may be implemented in " module ".Although device is preferably described in following embodiment It is realized with software, but the realization of the combination of hardware or software and hardware is also that may and be contemplated.

As shown in Fig. 2, the present invention also provides a kind of analytical equipments of viscous crude oxidative factors, including：

First acquisition module 101 is configured as obtaining the data of viscous crude oxidative factors；

Second acquisition module 102, is configured as the data according to viscous crude oxidative factors, obtains viscous crude oxygen under each data Change heating rate；

Numerical module 103 is configured as, based on viscous crude oxidation heating rate under each data, determining according to the first pre-defined rule The numerical value of viscous crude oxidative factors；

Analysis module 104 is configured as the numerical value according to viscous crude oxidative factors, according to the second pre-defined rule to viscous crude Oxidative factors are ranked up analysis.

The numerical module 103 is specifically configured to that the number of viscous crude oxidative factors is calculated according to following formula Value：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of horizontal influence value, i take the positive integer in 1 to m；P is expressed as the flat of whole viscous crude oxidation heating rate sums The mean value of side；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as entirely Square adduction of portion's viscous crude oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude The mean value of the quadratic sum of the horizontal influence value of heating rate is aoxidized, j takes the positive integer in 1 to m.

In one embodiment, the degree of freedom of error can be calculated according to following formula：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxygen Change the number of influence factor；R≤m, and be maximized.

The viscous crude oxidation horizontal influence value of heating rate is that each data of the viscous crude oxidative factors correspond to heating The adduction of rate.

The analysis module 104 is specifically configured to be ranked up point viscous crude oxidative factors according to following formula Analysis：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iIt is expressed as i-th of viscous crude oxidative factors Degree of freedom；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) the specific number of acquisition of tabling look-up Value.It is general to choose tri- kinds of levels of signifiance of 0.01,0.05,0.10.

The analysis module 104 further includes：If the numerical value F of viscous crude oxidative factors_iIn same section, then to viscous crude The numerical value F of oxidative factors_iSize sorts, larger numerical value F_iImportance be more than smaller numerical value F_iImportance.

The viscous crude oxidative factors include air-oil ratio, temperature and water saturation.

In addition, the present invention also provides a kind of analytical equipment of viscous crude oxidative factors, including memory and processor, it deposits Computer program is stored in reservoir, the computer program realizes following steps when being executed by the processor：Such as above-mentioned institute The analysis method for the viscous crude oxidative factors stated.

In the present embodiment, the memory may include the physical unit for storing information, typically by information It is stored again with the media using the methods of electricity, magnetic or optics after digitlization.Memory described in present embodiment again may be used To include：The device of information, such as RAM, ROM are stored in the way of electric energy；The device of information is stored in the way of magnetic energy, it is such as hard Disk, floppy disk, tape, core memory, magnetic bubble memory, USB flash disk；The device that information is stored using optical mode, such as CD or DVD. Certainly, also memory of other modes, such as quantum memory, graphene memory etc..

In the present embodiment, the processor can be implemented in any suitable manner.For example, the processor can be with Take such as microprocessor or processor and storage can by computer readable program code that (micro-) processor executes (such as Software or firmware) computer-readable medium, logic gate, switch, application-specific integrated circuit (Application Specific Integrated Circuit, ASIC), the form etc. of programmable logic controller (PLC) and embedded microcontroller.

The concrete function that the server that this specification embodiment provides, processor and memory are realized, can be with this Aforementioned embodiments in specification contrast explanation.

In another embodiment, additionally provide a kind of software, the software for execute above-described embodiment and preferably Technical solution described in embodiment.

In another embodiment, a kind of storage medium is additionally provided, above-mentioned software is stored in the storage medium, The storage medium includes but not limited to：CD, floppy disk, hard disk, scratch pad memory etc..

As can be seen from the above description, embodiment of the present invention realizes following technique effect：The present invention compared to The crude oil ignition parameter security performance that conventional self-ignition point combustion test determines is higher, and the time is short, and expense is low, and normal conditions Under, oil field has a set of ready-made database for the ends content of crude oil, and formula is brought into using the data in the database, can It can be obtained the ignition parameter of crude oil with the experiment of it goes without doing boiling range.

Obviously, those skilled in the art should be understood that each module of the above-mentioned embodiment of the present invention or each step can be with It is realized with general computing device, they can be concentrated on a single computing device, or be distributed in multiple computing devices On the network formed, optionally, they can be realized with the program code that computing device can perform, it is thus possible to by it Store and be performed by computing device in the storage device, and in some cases, can be to be held different from sequence herein The shown or described step of row, either they are fabricated to each integrated circuit modules or will be multiple in them Module or step are fabricated to single integrated circuit module to realize.In this way, the embodiment of the present invention be not limited to it is any specific hard Part and software combine.

All articles and reference of present disclosure, including patent application and publication, pass through for various purposes It quotes and is hereby incorporated by.The term " substantially by ... constitute " for describing combination should include identified element, ingredient, component or step And other elements, ingredient, component or step essentially without the basic novel feature for influencing the combination.Use term " packet Containing " or " comprising " come describe element here, ingredient, component or step combination it is also contemplated that substantially by these elements, ingredient, The embodiment that component or step are constituted.Here by using term " can with ", it is intended to illustrate that " can with " includes described Any attribute is all optional.

Multiple element, ingredient, component or step can be provided by single integrated component, ingredient, component or step.Optionally Ground, single integrated component, ingredient, component or step can be divided into multiple element, ingredient, component or the step of separation.It is used for The open "a" or "an" for describing element, ingredient, component or step is not said to exclude other elements, ingredient, component Or step.

It should be understood that above description is to illustrate rather than to be limited.By reading above-mentioned retouch It states, many embodiments and many applications except the example provided all will be aobvious and easy for a person skilled in the art See.Therefore, the range of this introduction should not be determined with reference to foregoing description, but should with reference to preceding claims and this The full scope of the equivalent that a little claims are possessed determines.For comprehensive purpose, all articles and with reference to including special The disclosure of profit application and bulletin is all by reference to being incorporated herein.Theme disclosed herein is omitted in preceding claims Any aspect is not intended to abandon the body matter, also should not be considered as applicant the theme is not thought of as it is disclosed Apply for a part for theme.

Claims (15)

1. a kind of analysis method of viscous crude oxidative factors, which is characterized in that include the following steps：

Obtain the data of viscous crude oxidative factors；

According to the data of viscous crude oxidative factors, obtains viscous crude under each data and aoxidize heating rate；

Heating rate is aoxidized based on viscous crude under each data, the numerical value of viscous crude oxidative factors is determined according to the first pre-defined rule；

According to the numerical value of viscous crude oxidative factors, viscous crude oxidative factors are ranked up point according to the second pre-defined rule Analysis.

2. the analysis method of viscous crude oxidative factors according to claim 1, which is characterized in that the described first pre- set pattern It is then the numerical value that viscous crude oxidative factors are calculated according to following formula：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is horizontal to be expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of influence value, i take the positive integer in 1 to m；P be expressed as whole viscous crude oxidation heating rate sums square Mean value；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as all thick Square adduction of oil oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude oxidation The mean value of the quadratic sum of the horizontal influence value of heating rate, j take the positive integer in 1 to m.

3. the analysis method of viscous crude oxidative factors according to claim 2, which is characterized in that according to following formula meter Calculate the degree of freedom of error：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxidation shadow The number of the factor of sound；R≤m, and be maximized.

4. the analysis method of viscous crude oxidative factors according to claim 2, which is characterized in that the viscous crude oxidation rises Warm rate level influence value is that each data of the viscous crude oxidative factors correspond to the adduction of heating rate.

5. the analysis method of viscous crude oxidative factors according to claim 1, which is characterized in that the described second pre- set pattern It is then：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iBe expressed as i-th viscous crude oxidative factors from By spending；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) tabling look-up obtains concrete numerical value.

6. the analysis method of viscous crude oxidative factors according to claim 5, which is characterized in that if viscous crude oxidation influences The numerical value F of factor_iIn same section, then to the numerical value F of viscous crude oxidative factors_iSize sorts, larger numerical value F_iWeight The property wanted is more than smaller numerical value F_iImportance.

7. the analysis method of viscous crude oxidative factors according to claim 1, which is characterized in that the viscous crude aoxidizes shadow The factor of sound includes air-oil ratio, temperature and water saturation.

8. a kind of analytical equipment of viscous crude oxidative factors, which is characterized in that including：

First acquisition module is configured as obtaining the data of viscous crude oxidative factors；

Second acquisition module is configured as the data according to viscous crude oxidative factors, obtains viscous crude oxidation heating under each data Rate；

Numerical module is configured as, based on viscous crude oxidation heating rate under each data, viscous crude oxygen being determined according to the first pre-defined rule Change the numerical value of influence factor；

Analysis module is configured as the numerical value according to viscous crude oxidative factors, and shadow is aoxidized to viscous crude according to the second pre-defined rule The factor of sound is ranked up analysis.

9. the analytical equipment of viscous crude oxidative factors according to claim 1, which is characterized in that the numerical module tool Body is configured as that the numerical value of viscous crude oxidative factors is calculated according to following formula：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；U_iIt is horizontal to be expressed as i-th of viscous crude oxidation heating rate The mean value of the quadratic sum of influence value, i take the positive integer in 1 to m；P be expressed as whole viscous crude oxidation heating rate sums square Mean value；t_aIt is expressed as the degree of freedom of error；t_iIt is expressed as the degree of freedom of i-th of viscous crude oxidative factors；W is expressed as all thick Square adduction of oil oxidation heating rate；M is expressed as the number of viscous crude oxidative factors；U_jIt is expressed as j-th of viscous crude oxidation The mean value of the quadratic sum of the horizontal influence value of heating rate, j take the positive integer in 1 to m.

10. the analytical equipment of viscous crude oxidative factors according to claim 9, which is characterized in that according to following formula Calculate the degree of freedom of error：

t_a=n-1-r (m-1)；

Wherein, t_aIt is expressed as the degree of freedom of error；N is expressed as the number of viscous crude oxidation heating rate；M is expressed as viscous crude oxidation shadow The number of the factor of sound；R≤m, and be maximized.

11. the analytical equipment of viscous crude oxidative factors according to claim 9, which is characterized in that the viscous crude oxidation The horizontal influence value of heating rate is that each data of the viscous crude oxidative factors correspond to the adduction of heating rate.

12. the analytical equipment of viscous crude oxidative factors according to claim 8, which is characterized in that the analysis module It is specifically configured to be ranked up analysis to viscous crude oxidative factors according to following formula：

Wherein, F_iIt is expressed as the numerical value of i-th of viscous crude oxidative factors；t_iBe expressed as i-th viscous crude oxidative factors from By spending；t_aIt is expressed as the degree of freedom of error；F_0.01(t_i,t_a), F_0.05(t_i,t_a), F_0.10(t_i,t_a) tabling look-up obtains concrete numerical value.

13. the analytical equipment of viscous crude oxidative factors according to claim 12, which is characterized in that the analysis module Further include：If the numerical value F of viscous crude oxidative factors_iIn same section, then to the numerical value F of viscous crude oxidative factors_iSize Sequence, larger numerical value F_iImportance be more than smaller numerical value F_iImportance.

14. the analytical equipment of viscous crude oxidative factors according to claim 8, which is characterized in that the viscous crude oxidation Influence factor includes air-oil ratio, temperature and water saturation.

15. a kind of analytical equipment of viscous crude oxidative factors, which is characterized in that including memory and processor, in memory Computer program is stored, the computer program realizes following steps when being executed by the processor：Such as claim 1 to 7 The analysis method of any one of them viscous crude oxidative factors.