CN200964853Y - High resolution natural potential logging device - Google Patents

High resolution natural potential logging device Download PDF

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Publication number
CN200964853Y
CN200964853Y CN 200620148712 CN200620148712U CN200964853Y CN 200964853 Y CN200964853 Y CN 200964853Y CN 200620148712 CN200620148712 CN 200620148712 CN 200620148712 U CN200620148712 U CN 200620148712U CN 200964853 Y CN200964853 Y CN 200964853Y
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China
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circuit
electrode
chip microcomputer
control circuit
instrument
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Expired - Lifetime
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CN 200620148712
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Chinese (zh)
Inventor
王伟男
姜亦忠
陈强
丁柱
童茂松
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Daqing Petroleum Administration Bureau
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Daqing Petroleum Administration Bureau
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Abstract

A high-resolution natural potential well measurement instrument mainly solves the problems of that the normal natural potential well measurement instrument adopts the ground electrode as the reference electrode and thus causing that the resolution is low, the signal range is largely affected by the wall rock and the measurement is easy to be interfered by the well field electromagnetic filed, etc. The utility model is characterized in that a instrument shell (5) is provided with a 31-core joint, a collecting circuit and a control circuit board; the instrument shell (5) is externally connected with an electrode system which takes the rubber as the carrier and is provided with sixteen electrodes which are insulated each other. Under the control of the singlechip, the instrument is adopted to select the mud rock which has the nearest distance away from the stratum waiting for being measured as the reference electrode and to measure the potential difference between the stratum points waiting for being measured and the reference electrode and to record the potential difference to transmit to the ground well measurement data recorder so as to obtain the natural potential curve. The utility model is characterized in high resolution, stable single range and measurement which is not easy to be interfered by the electromagnetic field of the well field.

Description

A kind of natural potential in high resolution logger
Technical field:
The utility model relates to the oil field employed a kind of logger when carrying out logging operation especially relates to a kind of natural potential well logging instrument device with high-resolution.
Background technology:
Nutural potential logging is to be used for one of logging method of formation evaluation the earliest, is still so far and divides lithology, estimates the reservoir, determines the important means of formation water salinity, be the completion well logging must survey project.In the Process of Oil Well Drilling, the mud of use is generally water-base mud, because formation water resistivity is different with drilling mud resistivity, causes the suction-operated to ion of ions diffusion effect and rock particles, produces the diffusion adsorption potential.Experiment shows that the diffusion adsorption potential coefficient of pure shale is 59mv, and the diffusion adsorption potential coefficient on clean sandstone stratum is-11.6mv.Therefore according to spontaneous potential curve, can judge lithology and calculate formation water salinity.Conventional natural potential well logging instrument device adopts ground electrodes as the reference electrode, utilizes the mobile continuously measurement electrode in recorder record down-hole with respect to the potential change between the ground reference electrode, thereby obtains spontaneous potential curve.The shortcoming that adopts this kind instrument to obtain spontaneous potential curve is: owing to adopt ground electrodes as the reference electrode, inevitably will be subjected to the interference of well site electric field and the interference of cable transmission, signal to noise ratio is reduced, thereby cause the resolution ratio of oil sheet is reduced; In addition.Owing to adopt ground as the reference electrode, therefore current potential will be subjected to the influence of contiguous country rock through forming the loop between country rock and complicated stratum and the ground electrodes, and signal amplitude is reduced.
The utility model content:
For solve conventional natural potential well logging instrument device adopt ground electrodes as the reference electrode cause that resolution ratio is low, signal amplitude be subjected to shoulder effect big, measure problems such as being subject to the well site interference of electromagnetic field, the utility model provides a kind of natural potential in high resolution logger, after using this instrument, have resolution ratio height, signal amplitude stable, measure characteristics such as not being subject to the well site interference of electromagnetic field.
The technical solution of the utility model is: this kind logger comprises tool housing, instrument skeleton, tail cap and power transformer.The core of this instrument is as follows: include one 31 core joint, Acquisition Circuit and control circuit board in described tool housing, connecting one outside tool housing is electrode system and the head harness that carrier is inlaid with 16 electrodes with rubber.Comprise multi-strobe circuit, comparison circuit, analog to digital conversion circuit, data upload circuit, single-chip microcomputer acquisition control circuit, reset circuit of SCM on described Acquisition Circuit and the control circuit board.Described electrode system is called as electrode N15~N1, M from top to bottom respectively, wherein electrode M is a measurement electrode, electrode N1~N15 is a reference electrode, and mutually insulated between each electrode links to each other by the multiple signals input in the multi-strobe circuit in 31 core joints and the tool housing respectively.Wherein the crystal oscillator in the single-chip microcomputer acquisition control circuit provides clock pulses to single-chip microcomputer, the single-chip microcomputer acquisition control circuit sends gating signal to multi-strobe circuit, the reference electrode of multi-strobe circuit after with gating is connected into an input of comparison circuit, and coconnected measurement electrode M carries out variate with another input.The potential difference signal of comparison circuit output thus, enter analog to digital conversion circuit, under the control of single-chip microcomputer acquisition control circuit, after analog to digital conversion circuit is finished data transaction, by single-chip microcomputer acquisition control circuit image data, and put into the single-chip microcomputer internal data memory, send gating signal then and select next passage.Single-chip microcomputer arrives host computer by the data upload circuit with transfer of data, and the power supply supply lines links to each other with head harness by 31 core joints with connection, is connected on the ground instrument by cable again.
The utlity model has following beneficial effect: because after taking such scheme, cancelled the ground reference electrode, all electrode system is placed on the down-hole, therefore antijamming capability is strong, measured value is stable, spontaneous potential curve in that the amplitude on the thin layer records under the conventional method more approaches the static spontaneous potential (SSP) value than ordinary curve.Confirm to adopt log resolution ratio height after this kind method by experiment, longitudinal frame can reach 0.2 meter, and coincide fine with lithological profile.
Description of drawings:
Fig. 1 is the structural representation of natural potential in high resolution logger related in the utility model.
Fig. 2 is the electrical schematic diagram of natural potential in high resolution logger related in the utility model.
Fig. 3 is the software flow pattern of single-chip microcomputer in the natural potential in high resolution logger related in the utility model.
Fig. 4 uses natural potential in high resolution curve and the lithological profile comparison diagram that obtains behind the utility model.
Fig. 5 uses natural potential in high resolution curve and the conventional spontaneous potential curve comparison diagram that obtains behind the utility model.
1-31 core joint among the figure, 2-power transformer, 3-Acquisition Circuit and control circuit board, 4-instrument skeleton, the 5-tool housing, 6-tail cap, 7-head harness, the S1-multi-strobe circuit, the S2-comparison circuit, S3-analog to digital conversion circuit, S4-data upload circuit, S5-single-chip microcomputer acquisition control circuit, the S6-reset circuit of SCM.
The specific embodiment:
The utility model is described in further detail below in conjunction with accompanying drawing:
Why method described in the utility model has practicality is based on breadboard result of core analysis.The natural potential on argillaceous sandstone stratum mainly is the diffusion adsorption potential, and the diffusion adsorption potential coefficient of pure shale is 59mv, and the diffusion adsorption potential coefficient on clean sandstone stratum is-11.6mv, because measurement electrode M and the electrode N that drops on mudstone stratum iBetween potential difference necessarily minimum, therefore select N iBe reference electrode, measure M, N iBetween potential difference, just can obtain the natural potential value on stratum.
Constructed a kind of natural potential in high resolution logger described in the utility model thus, the nearest mud stone of chosen distance stratum point to be measured is as the reference electrode, measure stratum to be measured and put the potential difference between the reference electrode therewith, this potential difference noted be uploaded to ground log data recorder, carry this instrument along pit shaft on slowly, can record the natural potential value of Different Strata, finally obtain a complete spontaneous potential curve.
Fig. 1 is the structural representation of this natural potential in high resolution logger, and its major part is apparatus measures part and electrode system part.The structure of electrode system part is on the rubber carrier of an insulation, inlays 16 electrodes, is respectively N15~N1, M from top to bottom, and M is a measurement electrode, and N1~N15 is a reference electrode.Electrode M, N 1~N 15Mutually insulated between each electrode.Apparatus measures partly comprises tool housing 5, instrument skeleton 4, tail cap 6 and power transformer 2; Include one 31 core joint, Acquisition Circuit and control circuit board 3 in tool housing 5, apparatus measures part upper end links to each other with electrode system by 31 core joints.Comprise multi-strobe circuit S1, comparison circuit S2, analog to digital conversion circuit S3, data upload circuit S4, single-chip microcomputer acquisition control circuit S5, reset circuit of SCM S6 on described Acquisition Circuit and the control circuit board 3, its electrical schematic diagram as shown in Figure 2.Wherein the crystal oscillator among the single-chip microcomputer acquisition control circuit S5 provides clock pulses to single-chip microcomputer, single-chip microcomputer acquisition control circuit S5 sends gating signal to multi-strobe circuit S1, the reference electrode of multi-strobe circuit S1 after with gating is connected into the input of comparison circuit S2, and coconnected measurement electrode M carries out variate with another input.The potential difference signal of comparison circuit S2 output thus, enter analog to digital conversion circuit S3, under the control of single-chip microcomputer acquisition control circuit S5, after analog to digital conversion circuit S3 finishes data transaction, by single-chip microcomputer acquisition control circuit S5 image data, and put into the single-chip microcomputer internal data memory, send gating signal then and select next passage.Single-chip microcomputer arrives host computer by data upload circuit S4 with transfer of data, and the power supply supply lines links to each other with head harness by 31 core joints with connection, is connected on the ground instrument by cable again.
Fig. 3 is the software flow pattern of single-chip microcomputer in the natural potential in high resolution logger related in the utility model, and the course of work is: single-chip microcomputer is initialization system at first, and V is set MN=0, i=15 is set selects electrode N exactly 15, measurement electrode M and N 15Potential difference V MN15, judge V MN15Whether less than V MN, if just use V MN15Value replace V MNValue, and the measurement that begins to measure No. 14 electrodes; If not, just directly begin next electrode measurement.By that analogy, each electrode all will compare, and this is after measuring whole electrodes, V at this moment MNValue be exactly minimum current potential difference, with writing data into memory, this value is exactly the natural potential value of our the best relatively mud stone reference point of electrode M point measured.
The concrete course of work is as follows after using the utility model:
Logger is transferred to the pit shaft that is full of water-base mud by the well logging armored cable, after instrument is transferred to and measured target zone, supplies to exchange the 180v alternating current by cable to instrument, and the process rectifying and wave-filtering obtains the operating voltage of appliance requires, and instrument is started working.
At first, after system powered on, crystal oscillator Y1 provided clock pulses to single-chip microcomputer, and the watchdog circuit of being made up of MAX813 sends reset signal to single-chip microcomputer 89C51, after single-chip microcomputer resets, to system initialization, and enters the control gatherer process.At first single-chip microcomputer selects a switch ADG406 to send gating signal to 16, and gating passage 15 makes the N of passage 15 15Electrode is connected into an input of the differential amplifier of being made up of ICL7560, carries out variate with the M electrode of another input, obtains the potential difference V between 2 MN15, enter the analog to digital conversion circuit of forming by AD574, under the control of single-chip microcomputer, after analog to digital conversion circuit is finished data transaction,, and put into internal data memory by the single-chip microcomputer image data.Send gating signal selector channel 14 then, measure potential difference V equally MN14, with V MN15Compare, select the potential difference minimal data to deposit internal data memory in, the rest may be inferred, after the total data measurement is finished, by relatively having obtained the minimum V of this survey mark MniValue, this value is exactly the natural potential value of this survey mark.Single-chip microcomputer arrives host computer by serial communication interface MAX485 with transfer of data, finished the measurement of this point, moving up along pit shaft then begins to descend the measurement of a bit, and when passing through different stratum, the one-chip computer in the logger is controlled multidiameter option switch equally.
Fig. 4 uses natural potential in high resolution curve and the lithological profile comparison diagram that obtains behind the utility model.By contrasting with the lithological profile data, the resolution ratio of curve reaches 0.2 meter, for 0.1 meter stratum demonstration is arranged, and this helps dividing segmentation in thin layer, thin interbed and the layer after showing application the utility model.What Fig. 4 showed in addition is the well-log information of a bite well, this interval lithology complexity, and porosity difference, thin interbed is grown, the stratum heterogeneous body; Most rock cores are argillaceous siltstoue and calcic siltstone, and conventional spontaneous potential curve can't be differentiated the variation on stratum, and the curve that obvious the present invention obtains after using has reflected the variation on stratum relatively truly, coincide fine with lithological profile.
Fig. 5 uses natural potential in high resolution curve and the conventional spontaneous potential curve comparison diagram that obtains behind the utility model, and the natural potential in high resolution curve is called the GSP curve.The GSP curve is consistent with conventional spontaneous potential curve in the amplitude of thick-layer, and the amplitude on thin layer is apparently higher than conventional spontaneous potential curve, and it is little that this explanation GSP curve is influenced by the cofferdam, and amplitude is true, more approaches the static spontaneous potential (SSP) value than ordinary curve.After using this method, changed conventional self-potential survey method and adopted the mode of ground as the reference electrode, whole electrode systems are placed on the down-hole, not being vulnerable to well site electromagnetic interference and cable transmission when therefore logging well disturbs, make instrument have stronger antijamming capability, resulting measured value is stable.Can prove that from above data the effect of natural potential well logging instrument device of high-resolution described in the utility model and method has been realized the purpose of this utility model significantly better than conventional nutural potential logging method.

Claims (1)

1, a kind of natural potential in high resolution logger, comprise tool housing (5), instrument skeleton (4), tail cap (6) and power transformer (2), it is characterized in that: include one 31 core joint, Acquisition Circuit and control circuit board in described tool housing (5), connecting one outside tool housing (5) is electrode system and the head harness that carrier is inlaid with 16 electrodes with rubber;
Comprise multi-strobe circuit (S1), comparison circuit (S2), analog to digital conversion circuit (S3), data upload circuit (S4), single-chip microcomputer acquisition control circuit (S5), reset circuit of SCM (S6) on described Acquisition Circuit and the control circuit board;
Described electrode system is respectively electrode N15~N1, M from top to bottom, wherein electrode M is a measurement electrode, electrode N1~N15 is a reference electrode, mutually insulated between each electrode, and the multiple signals input that passes through respectively in the multi-strobe circuit (S1) in 31 core joints and the tool housing links to each other;
Wherein the crystal oscillator in the single-chip microcomputer acquisition control circuit (S5) provides clock pulses to single-chip microcomputer, single-chip microcomputer acquisition control circuit (S5) sends gating signal to multi-strobe circuit (S1), multi-strobe circuit (S1) is connected into the reference electrode behind the gating one input of comparison circuit (S2), coconnected measurement electrode M carries out variate with another input, the potential difference signal of comparison circuit (S2) output thus, enter analog to digital conversion circuit (S3), under the control of single-chip microcomputer acquisition control circuit (S5), after analog to digital conversion circuit (S3) is finished data transaction, by single-chip microcomputer acquisition control circuit (S5) image data, and put into the single-chip microcomputer internal data memory, send gating signal then and select next passage, single-chip microcomputer arrives host computer by data upload circuit (S4) with transfer of data, the power supply supply lines links to each other with head harness by 31 core joints with connection, is connected on the ground instrument by cable again.
CN 200620148712 2006-10-13 2006-10-13 High resolution natural potential logging device Expired - Lifetime CN200964853Y (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101245702B (en) * 2008-01-03 2013-02-27 杭州瑞利声电技术公司 Constant-power dual side-direction well measuring equipment
CN111366766A (en) * 2018-12-25 2020-07-03 天津大学青岛海洋技术研究院 Multichannel ground natural potential continuous acquisition system
CN112065362A (en) * 2020-09-24 2020-12-11 东北石油大学 Anti-interference type natural potential logging device and method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101245702B (en) * 2008-01-03 2013-02-27 杭州瑞利声电技术公司 Constant-power dual side-direction well measuring equipment
CN111366766A (en) * 2018-12-25 2020-07-03 天津大学青岛海洋技术研究院 Multichannel ground natural potential continuous acquisition system
CN112065362A (en) * 2020-09-24 2020-12-11 东北石油大学 Anti-interference type natural potential logging device and method

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Effective date of abandoning: 20090520

C25 Abandonment of patent right or utility model to avoid double patenting