CN108387670A - A method of utilizing the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer - Google Patents

Abstract

The present invention relates to a kind of methods using the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, which is characterized in that includes the following steps：1), hot-vibration sifter constitutional diagram is detached according to n-alkane and unidentified compound；2), the spectrogram at the unidentified compound component peak that observation is separated, studies unidentified compound component peak shape state, using the subtle variation of oil in spectrogram, identifies different fluid property layer, that is, distinguishes oil-gas-water layer；3) total peak area for, calculating separately n-alkane and unidentified compound component peak is identifying peak area, unidentified peak area, total peak area, is identifying that peak selects two parameters to draw hot-vibration sifter interpretation chart as horizontal, ordinate than total peak area, unidentified peak than total peak area and in having identified peak than six parameters of unidentified peak area.Fundamentally solve the problems, such as that existing thermal evaporation gas chromatographic technique can not accurately distinguish oil reservoir and oil-water common-layer, good classification effect from composition chromatograph chart.

Description

It is a kind of to utilize the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water The method of layer

Technical field

The present invention relates to the methods of identification of hydrocarbon water layer, especially a kind of to utilize the unidentified compound shape of hot-vibration sifter component The method of state and content identification of hydrocarbon water layer.

Background technology

Thermal evaporation gas chromatographic technique is a kind of logging method detected using hydrocarbon component in rock, due to this technology With the ability for the hydrocarbon mixture in rock being separated into single component, the identification of reservoir oil property, the interference that decontaminates, Oil-gas-water layer evaluation etc. played an important role, and effective technological means is provided for In Oil Field Exploration And Development.But due to Oil reservoir, the thermal evaporation constitutional diagram form of oil-water common-layer are similar, therefore the bad differentiation of oil reservoir, oil-water common-layer, referring to Fig. 1.

Invention content

The purpose of the invention is to provide it is a kind of more it is reasonable effectively utilize the unidentified compound of hot-vibration sifter component The method of form and content identification of hydrocarbon water layer, fundamentally solving existing thermal evaporation gas chromatographic technique can not be from composition chromatograph chart In the problem of accurately distinguishing oil reservoir and oil-water common-layer, good classification effect.

The technical scheme is that：

A method of using the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, feature exists In including the following steps：

1), hot-vibration sifter constitutional diagram is detached according to n-alkane and unidentified compound；

2), the spectrogram at the unidentified compound component peak that observation is separated, studies unidentified compound component peak shape state, Using the subtle variation of oil in spectrogram, identifies different fluid property layer, that is, distinguish oil-gas-water layer；

3) total peak area for, calculating separately n-alkane and unidentified compound component peak is identifying peak area, is not knowing Other peak area, total peak area have identified that peak than total peak area and has identified peak than unidentified peak face than total peak area, unidentified peak Two parameters are selected to draw hot-vibration sifter interpretation chart as horizontal, ordinate in six parameters of product.

The above-mentioned method using the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, step 1) In, using chromatographic work station separating normal alkane and unidentified compound, qualitative and quantitative analysis is carried out to component, wherein qualitative It is to determine that the title of the compound in component, the content of quantification of each compound of determination calculate all compounds first Then peak area again calculates identified all n-alkane peak areas, the two is subtracted each other as corresponding unidentified The peak area of compound, and then obtain the spectrogram of unidentified compound component.

The above-mentioned method using the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, step 2) In, the variation that oil is subtle in spectrogram is identified using fingerprinting methodology.

The beneficial effects of the invention are as follows：

This method can efficiently solve that constitutional diagram is similar, the problem of being not easy to judge properties of fluid in bearing stratum, by heat Evaporated components figure carries out the separation of n-alkane and unidentified compound, then observes the subtle change at unidentified compound component peak Change, and calculate the total peak area of n-alkane and unidentified compound peaks, and then draw interpretation chart, classify, obtains Good classifying quality.

Description of the drawings

Fig. 1 is XX well XXm hot-vibration sifter component analyses spectrograms (comparison of oil reservoir and oil-water common-layer)；

Fig. 2 is the unidentified peak spectrogram of hot-vibration sifter group (comparison of oil reservoir and oil-water common-layer) in Fig. 1；

Fig. 3 is the XX well XXm hot-vibration sifter interpretation charts made using the method for the present invention.

Specific implementation mode

This utilizes the method for the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, and specific steps are such as Under：

1), hot-vibration sifter constitutional diagram is detached according to n-alkane and unidentified compound；

2), the spectrogram at the unidentified compound component peak that observation is separated, studies unidentified compound component peak shape state, It using the subtle variation of oil in spectrogram, identifies different fluid property layer, that is, distinguishes oil-gas-water layer, referring in Fig. 2 in drawn circle Component peaks metamorphosis；

3) total peak area for, calculating separately n-alkane and unidentified compound component peak is identifying peak area, is not knowing Other peak area, total peak area have identified that peak than total peak area and has identified peak than unidentified peak face than total peak area, unidentified peak Two parameters are selected to draw hot-vibration sifter interpretation chart as horizontal, ordinate in six parameters of product.

Wherein, in step 1), using chromatographic work station separating normal alkane and unidentified compound, component is carried out qualitative And quantitative analysis, wherein the title of the qualitative compound being to determine in component, the content of quantification of each compound of determination, first The peak area of all compounds is calculated, then identified all n-alkane peak areas are calculated again, the two phase Subtract the peak area as corresponding unidentified compound, and then obtains the spectrogram of unidentified compound component.In step 2), use The fingerprinting methodology of spectrogram identifies the variation that oil is subtle in spectrogram.

In the present embodiment, using total peak area and peak ratio total peak area, total peak area and the unidentified peak total peak of ratio have been identified Area draws hot-vibration sifter interpretation chart respectively, as shown in Figure 3.

Claims (3)

1. a kind of method using the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer, feature exists In including the following steps：

1), hot-vibration sifter constitutional diagram is detached according to n-alkane and unidentified compound；

2), the spectrogram at the unidentified compound component peak that observation is separated, studies unidentified compound component peak shape state, utilizes The subtle variation of oil in spectrogram, identifies different fluid property layer, that is, distinguishes oil-gas-water layer；

3) total peak area for, calculating separately n-alkane and unidentified compound component peak is identifying peak area, unidentified peak Area, total peak area have identified that peak than total peak area and has identified peak than unidentified peak area six than total peak area, unidentified peak Two parameters are selected to draw hot-vibration sifter interpretation chart as horizontal, ordinate in a parameter.

2. according to claim 1 utilize the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer Method, it is characterised in that：In step 1), using chromatographic work station separating normal alkane and unidentified compound, component is carried out Qualitative and quantitative analysis, wherein the title of the qualitative compound being to determine in component, the content of quantification of each compound of determination, The peak area of all compounds is calculated first, then identified all n-alkane peak areas is calculated again, two Person subtracts each other the peak area as corresponding unidentified compound, and then obtains the spectrogram of unidentified compound component.

3. according to claim 1 utilize the unidentified compound form of hot-vibration sifter component and content identification of hydrocarbon water layer Method, it is characterised in that：In step 2), the variation that oil is subtle in spectrogram is identified using fingerprinting methodology.