CN1936543A - Apparatus and method for measuring organic maturity degree of hydrocarbon source rocks - Google Patents

Abstract

This invention relates to a measurement device and a method for organic mature degree of hydrocarbon source ore including a coaxial optical system of strip beams generated by a convex and a cylinder lens in a shell containing a laser, a capillary on the focal plane of the cylinder lens and a semi-transparent screen behind it and a CCD camera and a computer with software program connected by leads characterizing in also including a micro-object lens, micro-holes mounted on a fine three-way adjusting frame, a micro-hole and a lens screen in front of the capillary, the front focus of the objective is coincident with the hole, which is coincident with the back focus of the convex, the capillary is set on a fine five-dimension adjusting frame to let the strip beam irradiate on the middle segment of the capillary to form an interference pattern. The method includes: using a refractive index formula to get the mature degree Ro based on the refractive index n of an extraction solution of the hydrocarbon source ore.

Description

The measurement mechanism of organic maturity degree of hydrocarbon source rocks and method

Technical field

The present invention relates to a kind of measurement mechanism and method of organic maturity degree of hydrocarbon source rocks.

Background technology

In petroleum exploration field, hydrocarbon source rock refers to generate the rock of oil and rock gas.Organic matter type difference in the hydrocarbon source rock, its character is also inequality, contains the different hydrocarbon source rock of organism type, has different genetic potentials.And the organic matter type of hydrocarbon source rock can be distinguished from the structure and the composition of solvable organic matter (pitch) and insoluble organic matter (kerogen).According to kerogen thermal degradation mechanism, oil and natural gas is organic to produce when being reached certain evolutionary phase by temperature action.A considerable number of and well-behaved hydrocarbon source rock organic matter also need could form oil and natural gas through maturing.Terrestrial facies and marine bed all can be divided into prematurity, maturation (being further divided into basic, normal, high ripe three inferior sections) and post-mature three phases.Mezzanine level is for producing the hydrocarbon stage; The stage of ripeness has stronger oil generation ability, and this stage can generate low mature oil, mature oil, white oil and moisture; The post-mature stage has the ability of very low generation gaseous hydrocarbon.Exploration practices proves only in ripe hydrocarbon source rock distributive province higher oil-gas exploration success ratio is arranged, so the evaluation of maturation of source rocks degree also is a decision oil-gas exploration key of success.The most general optical means that is used to measure the hydrocarbon source rock degree of ripeness at present has the vitrinite reflectance method.Its shortcoming is that because hydrocarbon source rock is oxidized, although its content of organic matter difference, its vitrinite reflectance no longer changes when hydrocarbon source rock when layer depth is dark accordingly.Other measuring method also has: kerogenic physical-chemical method, kerogenic element is formed and infra-red sepectrometry, the chemical method of solvable organic matter, pyrolysismethod, form the judgement maturity of organic with the C2-C7 lighter hydrocarbons, and according to the characterized degree of ripeness of C15+ hydro carbons etc., it mainly is the cost height, method is comparatively complicated.

The patent of existing measurement source rock maturity (ZH200420052821.1), though can measure source rock maturity, but owing to the light of capillary wall reflection can by cylindrical lens again secondary reflection be superimposed upon on the interference pattern of sample, can cause fringe contrast to reduce; Algorithm by striped inverting refractive index requires all stripeds all clear in addition, but for the liquid than low transparency, having only some stripeds in the interference pattern outside is clearly, and middle striped blurs, this just causes sizable difficulty to Computer Image Processing, also can influence measuring accuracy.

Summary of the invention

Originally the measurement mechanism and the method that the purpose of this invention is to provide a kind of organic maturity degree of hydrocarbon source rocks are to remedy the deficiencies in the prior art.

The present invention is on the basis of existing patent, device is improved, and adopted the dried method of penetrating pattern inverting refractive index of new foundation, whether this method is only with dried to penetrate left Yu the rightest two of pattern also be that two stripe are relevant the most clearly, clear irrelevant with the striped of centre.

For the ease of understanding, it is necessary sketching measuring principle of the present invention.Because the hydrocarbon source rock of differing maturity contains different solvable organic matters, thereby the refractive index of corresponding extract is different.According to the interference of light principle, the inevitable corresponding different interference fringe of the different refractive index of sample, the i.e. different hydrocarbon source rock of degree of ripeness, corresponding different interference fringes.

The present invention includes the convex lens of laser instrument in interior housing and the centered optical system of the bar shaped light beam that produces of cylindrical lens, be in the computing machine that contains software program that kapillary on the cylindrical lens focal plane and subsequent translucent screen and high precision CCD camera and lead are electrically connected, it is characterized in that it also comprises is at least the microcobjective that is equipped with on the three-dimensional meticulous adjusting bracket, the light hurdle that micropore is preceding with placing kapillary, the front focus of this microcobjective overlaps with micropore, the back focus of micropore and convex lens overlaps, kapillary vertically is placed on the meticulous adjusting bracket of five dimensions, half is marked with liquid kapillary, second half is an air, and bar shaped light beam is radiated on the kapillary interlude and forms interference pattern clearly respectively.

The refractive index formula that obtains testing liquid from existing geometrical optics is:

$n=\frac{\sin (b-c)}{\sin (\frac{\mathrm{\θ}}{2}-c)}---\left(1\right)$

θ is the deflection angle of the corresponding light of the left or the rightest striped of interference pattern (also being the brightest two stripe the most clearly) with respect to optical axis in the formula, just can determine this angle apart from EF/2 and kapillary axis to the distance D C of translucent screen with respect to optical axis by measuring this stripe.The striped (only having one) that b produces for the capillary air in tube is a very little constant with respect to kapillary center angulation.This constant, b=AB/2DC just can be determined to the distance D C of translucent screen in width AB by measuring the air striped and kapillary center.C can determine by one group of normal fluid (ranges of indices of refraction is 1.33-1.80) of known refractive index, measures the θ of each normal fluid interference pattern correspondence, sets up the n of normal fluid and the typical curve of θ, can obtain the value of c simultaneously by least square method.For the low transparency liquid of unknown refractive index,, b, c and θ ' substitution (1) formula can be calculated refractive index, or directly read refractive index from typical curve as long as measure the pairing θ ' of the left or the rightest interference fringe of its interference pattern.

The solvable organic matter of hydrocarbon source rock is low transparency liquid, get at least 9 the hydrocarbon source rock standard models of degree of ripeness scope Ro at 0.3-2.5, measure the refractive index of its solvable organic matter with above-mentioned steps, set up the typical curve of degree of ripeness Ro and refractive index n, to unknown degree of ripeness hydrocarbon source rock, measure its solvable organic refractive index n with said method, with typical curve, be the contrast of Ro-n curve, can obtain degree of ripeness Ro.

Utilize this device can directly measure hydrocarbon source rock extract refractive index, and then obtain corresponding organic maturity degree of hydrocarbon source rocks, and simple in structure, measurement range is big, and cost is low, and light path need not fine adjustment, and is easy to operate.

Description of drawings

Fig. 1 general structure synoptic diagram of the present invention.

Fig. 2 determines the synoptic diagram of constant b.Wherein AB is the width of air striped, and C is the mid point of AB, and D is the intersection point of kapillary axis and optical axis, and CD is the distance of kapillary axis to translucent screen.

The refractive index n of Fig. 3 normal fluid and the typical curve of left or the rightest interference fringe deflection angle θ.

Wherein * is the normal fluid of known refractive index, and is the liquid of unknown refractive index.

Fig. 4 measurement schematic flow sheet of the present invention.

Fig. 5 interference pattern of the diesel oil of CCD camera.

Fig. 6 interference pattern the most left with the refinement synoptic diagram of right striped.

Wherein, 1 laser instrument, 2 microcobjectives, 3 micropores, 4 three-dimensional adjustable shelfs, 5 convex lens, 6 cylindrical lenses, 7 kapillaries, 8 smooth hurdle 9 five times regualting frames, 10 liquid, 11 translucent screens, 12 housing 13CCD cameras, 14 computing machines

Embodiment

As Fig. 1, the present invention includes the convex lens 5 of laser instrument 1 in interior housing 12 and the centered optical system of the bar shaped light beam that produces of cylindrical lens 6, be in the computing machine that contains software program 14 that kapillary 7 on cylindrical lens 6 focal planes and subsequent translucent screen 11 and high precision CCD camera 13 and lead are electrically connected, it is characterized in that it also comprises the microcobjective 2 that is equipped with on the three-dimensional adjustable shelf 4, micropore 3, with the light hurdle 8 that places before the kapillary 7, the front focus of this microcobjective 2 overlaps with micropore 3, the back focus of micropore 3 and convex lens 5 overlaps, kapillary 7 vertically is placed on the five times regualting frame 9, half fills liquid 10 kapillary 7, second half is an air, and bar shaped light beam is radiated on kapillary 7 interludes and forms interference pattern clearly respectively.

The enlargement factor of above-mentioned microcobjective 2 is 20 times, be used for expanded beam, the aperture of micropore 3 is the 10-15 micron, be placed on the front focus of microcobjective, be used for filtering,, have high fringe visibility to guarantee interference pattern technically so that obtain the equally distributed hot spot of light intensity, microcobjective and micropore are placed on the meticulous three-dimensional adjustable shelf, and micropore can be adjustable on three directions in space with respect to the position of microcobjective.The back focus of convex lens overlaps with micropore, and the laser beam that expands after restrainting becomes directional light via convex lens, and directional light becomes bar shaped light beam via cylindrical lens focus.Kapillary is placed on the meticulous five times regualting frame vertically, and axle capillaceous is on the focal plane of cylindrical lens.Usually select capillary inner diameter 2-3mm for use, external diameter 3-4mm, long 10cm.

For low transparency liquid, because kapillary is thinner, as internal diameter 2mm, the light intensity that sees through relevant two light beams capillaceous is equal substantially, even thereby light intensity a little less than, the contrast of striped also can be fine.The reflected light of considering capillary wall is by cylindrical lens secondary reflection and on the translucent screen that is added to, reduce the contrast of striped again, thereby in kapillary the place ahead one smooth hurdle 8 is set, and blocking this part reflected light, thereby improves the contrast of striped.

Organic maturity degree of hydrocarbon source rocks measuring method: (a) get the normal fluid sample that oneself knows refractive index n, inject kapillary 7, half fills liquid 10 to make kapillary 7, and second half is an air, and the interference pattern that produces air and standard model simultaneously is on translucent screen 11; Record kapillary 7 axis are to the distance D C of translucent screen 11, so that use in calculating; (b) take coordinate scale chi and interference pattern (as Fig. 5) on the translucent screen 11 respectively with the CCD camera, and be stored in the computing machine; If the no coordinate scale of translucent screen periphery can be after having taken interference pattern, a tight attached coordinate paper behind translucent screen, under the condition of position that does not change the CCD camera and focal length, shooting coordinate paper also stores the image in the computing machine; (c) read every centimetre pixel value of coordinate diagram picture, read the width AB of air interference fringe, calculate constant b=tg (AB/2DC) (as Fig. 2), two interference fringes (as Fig. 6) of the refinement normal fluid interference pattern leftmost side and the rightmost side, and read therebetween apart from EF, calculate deflection angle θ=tg (EF/2DC); (d) with the same method normal fluid sample of at least 9 ranges of indices of refraction at 1.33-1.80, set up the typical curve of normal fluid refractive index n and deflection angle θ, promptly n-θ curve (as Fig. 3) obtains constant c by least square method; (e) the lower transparency liquid of unknown refractive index is injected the kapillary of identical material and specification, with the interference pattern on the CCD camera translucent screen, draw the deflection angle θ ' of the liquid of unknown refractive index with above-mentioned same step, b, c and θ ' substitution (1) formula are calculated refractive index, or contrast the refractive index that promptly can read the unknown solution body with typical curve; (f) get at least 9 the hydrocarbon source rock standard models of degree of ripeness scope Ro at 0.3-2.5, extract its solvable organic matter, measure the refractive index n of its solvable organic matter respectively with above-mentioned steps ((a)-(e)), set up the typical curve of degree of ripeness Ro and refractive index n, i.e. the Ro-n curve; (g) to unknown degree of ripeness hydrocarbon source rock, measure its solvable organic refractive index n with above-mentioned steps ((a)-(e)), with typical curve be Ro-n curve contrast, can obtain degree of ripeness Ro.

The normal fluid of described known refractive index n can be selected distilled water for use, acetone, absolute ethyl alcohol, glacial acetic acid, lactic acid, ethylene glycol, methenyl choloride, phenixin, whiteruss, glycerine, the potpourri of carbon disulphide and carbon disulphide and absolute ethyl alcohol, the scope of its refractive index n is between 1.33-1.62, the typical curve of refractive index n and deflection angle θ as shown in Figure 3, wherein unknown refractive index sample is automotive gear oil and naphtha, actual measurement deflection angle θ ' is respectively 0.2351,0.2031 can get refractive index by typical curve is respectively 1.4851 and 1.3904.

Claims (5)

1. the measurement mechanism of organic maturity degree of hydrocarbon source rocks, it comprises the centered optical system of the bar shaped light beam that convex lens (5) in the housing (12) of laser instrument (1) and cylindrical lens (6) produce, be in the computing machine that contains software program (14) that kapillary (7) on cylindrical lens (6) focal plane and subsequent translucent screen (11) and high precision CCD camera (13) link to each other with lead, it is characterized in that it also comprises the microcobjective (2) that is equipped with on the three-dimensional adjustable shelf (4), micropore (3) and place the preceding light hurdle (8) of kapillary (7), the front focus of this microcobjective (2) overlaps with micropore (3), the back focus of micropore (3) and convex lens (5) overlaps, kapillary (7) vertically is placed on the five times regualting frame (9), half is marked with liquid (10) kapillary (7), second half is an air, and bar shaped light beam is radiated on kapillary (7) interlude and forms interference pattern clearly respectively.

2. the measurement mechanism of organic maturity degree of hydrocarbon source rocks as claimed in claim 1 is characterized in that above-mentioned kapillary (7) internal diameter is 2-3mm, and external diameter is 3-4mm, long 8-10cm.

3. the measurement mechanism of organic maturity degree of hydrocarbon source rocks as claimed in claim 1 is characterized in that on the periphery of translucent screen (11) minimum scale being arranged is 1mm coordinate scale chi.

4. the measurement mechanism of organic maturity degree of hydrocarbon source rocks as claimed in claim 1 is characterized in that above-mentioned laser instrument (1) is the green glow or the red laser of continuous power output, and the output power of laser instrument (1) is greater than 40mW.

5. the measuring method of organic maturity degree of hydrocarbon source rocks: (a) get the normal fluid sample of known refractive index n, inject kapillary (7), half fills liquid (10) to make kapillary (7), and second half is an air, and the interference pattern that produces air and standard model simultaneously is on translucent screen (11); Record kapillary axis is to the distance D C of translucent screen (11), so that use in calculating; (b), and be stored in the computing machine with the coordinate scale chi on CCD camera interference pattern and the translucent screen periphery; (c) read every centimetre pixel value of coordinate diagram picture, read the width AB of air interference fringe, calculate constant b=tg (AB/2DC), two interference fringes of the refinement normal fluid interference pattern leftmost side and the rightmost side, and read therebetween apart from EF, calculate deflection angle θ=tg (EF/2DC); (d) with the same method normal fluid sample of at least 9 ranges of indices of refraction at 1.33-1.80, set up the typical curve of normal fluid refractive index n and deflection angle θ, promptly n-θ curve obtains constant c by least square method; (e) the lower transparency liquid of unknown refractive index is injected the kapillary of identical material and specification, with the interference pattern on the CCD camera translucent screen, draw the deflection angle θ ' of the liquid of unknown refractive index with above-mentioned same step, with b, c and θ ' substitution (1) formula is calculated refractive index, or promptly can read the refractive index of unknown solution body with n-θ curve contrast. (f) get at least 9 the hydrocarbon source rock standard models of degree of ripeness scope Ro at 0.3-2.5, extract its solvable organic matter, measure the refractive index of its solvable organic matter respectively with above-mentioned steps ((a)-(e)), set up the typical curve of degree of ripeness Ro and refractive index n, i.e. the Ro-n curve; (g) to unknown degree of ripeness hydrocarbon source rock, measure its solvable organic refractive index n with above-mentioned steps ((a)-(e)), with typical curve be Ro-n curve contrast, can obtain degree of ripeness Ro.

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