CN204462090U - Oil component automatic separation equipment - Google Patents

Abstract

The utility model provides a kind of oil component automatic separation equipment, can realize being automatically injected the functions such as different solvents, automatically separation, automatic reception sample.The oil component automatic separation equipment that the utility model provides comprises: control device and at least one separation module, described separation module comprises sampling device, tripping device, gathering-device, described control device respectively with sampling device, tripping device and gathering-device communication link; Described sampling device comprises pump machanism, solvent pipe and sample inlet, described solvent pipe and sample inlet separate; Described tripping device comprises multiplexer channel and selects flowing valve and chromatographic column, and described chromatographic column selects flowing valve to be connected with sample inlet with solvent pipe respectively by multiplexer channel; Described gathering-device comprises gatherer.

Description

Oil component automatic separation equipment

Technical field

The utility model relates to Chemical Decomposition field, particularly relates to a kind of separation equipment being separated wax and colloid from crude oil.

Background technology

Crude oil is the important energy source of society, different product oils can be obtained through different processing modes, and analyze oil composition, particularly in mink cell focus, the content data of each component can make oil extraction, oil refining process becomes simple, therefore, crude oil composition analysis is for evaluating the quality of crude oil and utilizing crude resources significant better.In crude oil, the heavy component such as wax, colloid cannot be measured by simple distillation and rectificating method, in order to measure the content of the wherein heavy component such as wax, colloid, first needs said components to be separated from crude oil.At present for wax in crude oil, the separation of colloid mainly adopts industry standard SY/T 7550-2012 " wax in crude oil, colloid, asphalt content determination method " carry out separation detection, this standard adopts chromatographic column method, first be adsorbed on the alumina adsorbant in chromatographic column by crude oil, chromatographic column is connected with water bath with thermostatic control, the a little absorbent cotton of end plug under chromatographic column, solvent adds from chromatographic column upper end, then according to absorption property difference, with different solvents, different component is eluted, elution fraction is received by the receiver 4 be positioned at below chromatographic column, finally by heating, solvent is volatilized, weigh.But conventional separation mainly relies on manual operations, and its process is loaded down with trivial details, data redundancy is poor, efficiency is low, and use a large amount of poisonous and harmful reagent in the process be separated, entail dangers to health of human body, pollute environment.In addition, sample and eluting solvent use same sample intake passage, can cause cross pollution, affect result accuracy, and cleaning sample intake passage also wastes a large amount of time.Along with the increase of exploration scale, each sample detection cycle is 5 days, seriously constrains the efficiency that oil property is evaluated.

Utility model content

In order to improve the separation efficiency of oil component, improve accuracy and ageing, the utility model provides a kind of oil component automatic separation equipment, can realize being automatically injected different solvents, the automatically function such as separation, automatic reception sample, Self-pressurizing agri.

The utility model is achieved through the following technical solutions above-mentioned purpose: a kind of oil component automatic separation equipment, comprise control device and at least one separation module, described separation module comprises sampling device, tripping device, gathering-device, described control device respectively with sampling device, tripping device and gathering-device communication link; Described sampling device comprises pump machanism, solvent pipe, sample inlet and sample hose, described solvent pipe and sample inlet separate, in described sample hose access sample inlet; Described tripping device comprises the first multiplexer channel and selects flowing valve and chromatographic column, and described chromatographic column selects flowing valve to be connected by pipeline with solvent pipe and sample respectively by the first multiplexer channel, and described gathering-device comprises gatherer.

Preferably, described sampling device also comprises the second multiplexer channel and selects flowing valve, and described second multiplexer channel selects flowing valve to be connected by pipeline with pump machanism.

Preferably, described sampling device also comprises the pneumatic power source of pressure adjustable, and pneumatic power source and second multiplexer channel of described pressure adjustable select flowing valve to be connected by pipeline.

Preferably, described sampling device also comprises the 3rd multiplexer channel and selects flowing valve, and described 3rd multiplexer channel selects flowing valve to be connected by pipeline with pump machanism, sample inlet and solvent pipe respectively.

Preferably, described automatic separation equipment also comprises at least one sample tube rack and at least one chromatographic column support, and described sample hose or chromatographic column are arranged on described sample tube rack or described chromatographic column support separably.The structure of described chromatographic column support or described sample tube rack can be identical or different.Preferably, described sample tube rack quantity is 1 or 2, and described chromatographic column number of holders is 1 or 2.

Preferably, described sample tube rack and described chromatographic column support are automatic adjustable chromatographic column support up and down.

Preferably, described sample tube rack or described chromatographic column support can place at least one sample hose or at least one chromatographic column, select to be communicated with arbitrary sample hose or chromatographic column by post switch.Preferably, described sample hose comprises 1-12, preferred, and the quantity of sample hose can be 2-6 (wherein 2-6 specifically comprises 2,3,4,5,6).Described chromatographic column comprises 1-12, preferred, and the quantity of chromatographic column can be 2-6 (wherein 2-6 specifically comprises 2,3,4,5,6).

Preferably, described post switch is that the 3rd multiplexer channel selects flowing valve.

Preferably, described chromatographic column is activated silica gel aluminium oxide Mixed chromatogram columniation.

Preferably, described pump machanism is valveless metering pump.

Preferably, the number of at least one separation module described is 1-10, preferred, and the number of at least one separation module described is 2-5 (wherein 2-5 comprises 2,3,4 or 5).

Preferably, described gathering-device comprises 1-100 gatherer, preferredly comprises 2-20 gatherer, most preferredly comprises 3,4,5,6,7,8,9,10,12,15 or 18 gatherers.The container that described gatherer can be commonly used for this area, such as triangular flask, test tube, flask etc.

Preferably, described automatic separation equipment also comprises motor, controls motor drive first, second and/or the 3rd multiplexer channel to select flowing valve by control device.

Preferably, described automatic separation equipment also comprises temperature control equipment.

Preferably, described automatic separation equipment also comprises warning device, and described warning device is hyperpressure alarm device and/or leakage warning device.

In an embodiment of the present utility model, described multiplexer channel selects flowing valve can be regarded as, and this area commonly uses that the solvent in different pipeline and/or gas can be realized mutually to switch, solvent in a certain pipeline of selection connection or the valve of gas are such as T-valve, four-way valve, five-way valve, six-way valve, eight logical valve, ten-way valve, ten two-port valves etc.

The beneficial effects of the utility model:

1. independently circuit design, while avoiding the cross pollution between sample and solvent and sample, saves the pipeline-cleaning time; Adopt malleation loading, by gas or solvent loading, sample nondestructive is lost and enters chromatographic column, save reagent consumption.

2. integrated form solvent delivery pump, realizes continuous sample introduction, continus convergence liquid, shortens sample injection time, ensures accuracy and the reappearance of result.

3. omnidistance on-line monitoring, overpressure alarm, leakage alarm, stop blocking or faulty channel in time.

4. a control device can combine multiple separation module, and is mutually independent.

5. automatic-sealed operating system, avoids personnel to contact with the direct of reagent, improves accuracy of detection, efficiency, improves testing environment.

6., compared with operating with traditional manual, the utility model improves sample parallel; Reduce organic solvent to volatilize the injury caused human body.

7. separation module carries activated silica gel aluminium oxide Mixed chromatogram columniation, saves solvent.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of an embodiment of the utility model separation equipment

Fig. 2 is the schematic diagram that the utility model separation equipment comprises the embodiment of a separation module

Fig. 3 is the schematic diagram of the utility model control device

Fig. 4 is the fluid path figure of the utility model separation equipment one specific embodiment

Fig. 5 is the schematic diagram of the utility model tripping device

Fig. 6 is the fluid path figure of the utility model separation equipment one preferred embodiment

Fig. 7 is the schematic diagram of the utility model gathering-device

Fig. 8 is the schematic diagram of the utility model heating arrangement

Embodiment

Below in conjunction with accompanying drawing, the utility model embodiment is clearly and completely described.

With reference to accompanying drawing 1, the utility model oil component automatic separation equipment comprises: control device 10 and at least one separation module 20 (in figure, separation module is 4), wherein the quantity of separation module 20 can adjust according to the actual requirements, specifically can be 1,2,3,4 or 5.Separation module 20 comprises sampling device 30, tripping device 40, gathering-device 50, control device 10 respectively with sampling device 30, tripping device 40 and gathering-device 50 communication link.

Control device 10 can be industrial computer, in a concrete embodiment, with reference to accompanying drawing 2 and accompanying drawing 3, control device 10 comprises control box main body 101, be installed on the control panel 102 outside control box main body 101, control panel 102 be provided with display screen 103, pilot lamp 104, load button 105 etc.Can built-in pre-set automatic separation method in control device 10, carry out auto injection, separation and collection for controlling separation module.

With reference to accompanying drawing 4, sampling device 30 comprises pump machanism 301, solvent pipe 302, sample inlet 303 and sample hose 304, and wherein, sample hose 304 accesses in sample inlet 303, solvent pipe 302 and sample inlet 303 separate.Concrete, pump machanism 301 can be valveless metering pump, is regulated the flow velocity of valveless metering pump, realize continuous sample-adding, continus convergence liquid by control device, thus ensures accuracy and the reappearance of experimental result.Solvent pipe 302 and sample inlet 303 separate, avoid cross pollution, save scavenging period.

In one preferred embodiment, with reference to accompanying drawing 4, sampling device 30 is also comprised the second multiplexer channel and selects flowing valve 305, second multiplexer channel to select flowing valve 305 to be connected by pipeline with pump machanism 301.Concrete, the second multiplexer channel selects flowing valve 305 to select six-way valve, and its 1-5 port is solvent port, is connected respectively with solvent bottle 307 by pipeline, and port 6 is gas ports, selects to be communicated with solvent or gas by valve.In the utility model, also comprise the pneumatic power source of pressure adjustable, adopt the mode of malleation loading, what sample nondestructive was lost enters chromatographic column.Those skilled in the art should know, and the second multiplexer channel can be selected to select flowing valve according to the kind of required solvent, and it also can be T-valve, four-way valve, eight logical valve, ten-way valve or other multiplexer channels selection flowing valves.

In one preferred embodiment, with reference to accompanying drawing 4, sampling device 30 also comprises the 3rd multiplexer channel and selects flowing valve the 306, three multiplexer channel to select flowing valve 306 to be connected with sample inlet 303 with pump machanism 301, solvent pipe 302 respectively.Concrete, the 3rd multiplexer channel selects flowing valve 306 to select T-valve, by switch three-way valve, makes solvent or gas enter solvent pipe 302 or sample inlet 303 respectively.Those skilled in the art should know, and the 3rd multiplexer channel can be selected according to the actual requirements to select flowing valve, and it also can be four-way valve, eight logical valve, ten-way valve, ten two-port valves or other multiplexer channels select flowing valve.

With reference to accompanying drawing 2, accompanying drawing 4 and accompanying drawing 5, tripping device 40 comprises the first multiplexer channel and selects flowing valve 401 and chromatographic column 402, and wherein, chromatographic column 402 selects flowing valve 401 to be connected with sample inlet 303 with solvent pipe 302 respectively by the first multiplexer channel.Concrete, the first multiplexer channel selects flowing valve 401 to can be T-valve; Those skilled in the art know, and the first multiplexer channel is selected flowing valve 401 also to can be other multiplexer channel and selected flowing valve.

In one preferred embodiment, automatic separation equipment also comprises at least one sample tube rack 308 and at least one chromatographic column support 403, sample hose 304 or chromatographic column 402 are arranged on described sample tube rack 308 or chromatographic column support 403 movably, concrete, sample tube rack 308 or chromatographic column support 403 structure can be identical (in accompanying drawing 5, sample tube rack 308 is positioned at front, chromatographic column support 403 is positioned at rear, those skilled in the art are to be understood that, both switches are also allow), can be upper and lower adjustable jack post, for adapting to sample hose or the chromatographic column of different size, the specification of sample hose is 1-60mL, the specification of chromatographic column can be 1-60mL, can select according to sample size.In one preferred embodiment, with reference to accompanying drawing 2 and accompanying drawing 5, sample tube rack 308 or chromatographic column support 403 comprise base 404, the bar 405 that can stretch up and down and footstock 406, the two ends of its king-rod 405 are connected with base 404 and footstock 406 respectively, base 404 is provided with at least one for installing the mounting hole 407 of sample hose 304 or chromatographic column 402, those skilled in the art know, the number of mounting hole 407 can be chosen according to actual demand, concrete, mounting hole 407 quantity in each sample tube rack 308 or chromatographic column support 403 can be 1-12, concrete can be 1-6, the quantity of sample tube rack 308 and the mounting hole 407 of chromatotube support 403 can identical also must be with.In a concrete embodiment, sample tube rack 308 is identical with the quantity of the mounting hole 407 of chromatographic column support 403, is 6.

In one preferred embodiment, described automatic separation equipment also comprises post switch 408, concrete post switch 408 can be multiplexer channel and selects flowing valve, multiplexer channel selects flowing valve can choose according to the quantity of mounting hole, such as, when mounting hole 407 quantity of chromatographic column support 403 is 6, six logical selector valves can be selected as post switch, select to be communicated with arbitrary chromatographic column by post switch.Those skilled in the art know, and post switch can also select other multiplexer channel such as T-valve, four-way valve, eight logical valve, ten-way valve, ten two-port valves to select flowing valve.In the utility model, multiple chromatographic column passage is separate, avoids reagent contamination and interference, in addition, can also process multiple sample simultaneously, shorten the time of sample separation greatly.

In one preferred embodiment, with reference to accompanying drawing 2, accompanying drawing 5 and accompanying drawing 6, post switch 408 and the 3rd multiplexer channel select flowing valve 306 to can be same valve, realize simultaneously post switch and solvent, gas switching, to reduce the quantity of valve in pipeline, simplify circuit design, be convenient to instrument maintenance.Those skilled in the art know, and when post switch 408 and the 3rd multiplexer channel select flowing valve 306 to be same valve, this multiplexer channel selects the changeable port number of flowing valve to be 2n, and n is integer.Such as, when the quantity of chromatographic column rack mounting apertures is 6, post switch 408 (the 3rd multiplexer channel selector valve 306) is ten two-port valves, by switching ten two-port valve gears, arbitrary chromatographic column can be connected, simultaneously, select to be communicated with solvent pipe or sample inlet.

In one preferred embodiment, separation equipment also comprises motor (not shown on figure), and control device controls motor and drives multiplexer channel to select flowing valve to carry out passage bridge.

With reference to accompanying drawing 2 and accompanying drawing 7, in one preferred embodiment, gathering-device 50 comprises the mozzle support 502 for installing mozzle 501, mozzle support 502 is provided with the hole 503 corresponding with mozzle 501 quantity.Concrete, mozzle 501 can be 1/4th inches of PTFE tubes, those skilled in the art know, the shape and size of mozzle 501 can be chosen according to actual demand, mozzle 501 can be prepared by the material that other solvent resistant burn into chemical stability is strong, and size can be chosen according to actual demand.Gathering-device also comprises X/Y axle two-dimensional movement device 504, and mozzle support 502 is arranged on X/Y axle two-dimensional movement device 504, and by the movement of mozzle support 502, mozzle 501 can corresponding different component after being separated and waste liquid automatically.Concrete, X/Y axle two-dimensional movement device 504 can be can along the mechanical arm of X/Y axle movement.

Further, gathering-device also comprises gatherer 505 and gatherer support 506, and mozzle 501 is connected with gatherer 505 by pipeline, and gatherer 505 is placed on gatherer support 506, gatherer 505 is provided with the hole 507 corresponding with gatherer 505 quantity, hole 507 is passed through for making pipeline.Gatherer 505 is for receiving the different component after separation and waste liquid, its quantity can be selected according to actual demand, be such as 1-100, preferably comprise 2-20 gatherer, most preferredly comprise 3,4,5,6,7,8,9,10,12,15,18 gatherers.The shape and size of gatherer 505 can be chosen according to actual demand, can be conical flask, test tube, ground flask etc.; The specification of gatherer support 506 also can be chosen according to the actual requirements.

With reference to accompanying drawing 2, accompanying drawing 6 and accompanying drawing 8, in one preferred embodiment, the utility model separation equipment also comprises temperature control equipment 60, and when solvent temperature is lower than testing requirements, temperature control equipment 60 is used in heated solvent in process of the test; In addition, temperature control equipment 60 also can be used for heated air.

In a concrete embodiment, temperature control equipment 60 is independently module, and concrete, temperature control equipment 60 can be placed on below the solvent bottle in sampling device 30, is heated (not shown on figure) solvent by electrothermal module; Or temperature control equipment 60 can be positioned between sampling device 30 and tripping device 40, by the mode of gas-heated, convection current solvent by the road or gas carry out heating (with reference to accompanying drawing 2 and accompanying drawing 6).

In one preferred embodiment, with reference to accompanying drawing 8, temperature control equipment 60 can adopt PID controller to carry out temperature control, comprise temperature control equipment casing 601, be positioned at the display screen 602 outside casing 601, telescopic pole 603 and gas-heated cylinder 604, wherein, one end of pole 603 is fixed on outside casing 601, and the other end is connected with gas-heated cylinder 604.

In one preferred embodiment, the utility model separation equipment also comprises warning device (not shown on figure), and described warning device is hyperpressure alarm device and/or leakage warning device.Because equipment is in the process run, blocking or pressure surge situation may be there is, the progress of impact test, can at setting pressure sensor in sample inlet and solvent pipe, detect the pressure flowing through pipeline, if it exceedes setting threshold value, then notify that control device is reported to the police.In addition, because device interior exists electric component, leakage can cause the waste of test period and reagent; serious even can crisis personal safety and cause device damage, therefore, in a device leakage warning device is installed; when leakage being detected, notice control device is reported to the police.

Below for using the utility model automatic separation equipment to carry out the automatic embodiment be separated to wax, colloid in crude oil.

1. use the utility model automatic separation equipment to be automatically separated wax, colloid in crude oil

1.1 preliminary work

1.1.1 automatic separation equipment is opened, solvent rinse, row's dead volume;

1.1.2, populated chromatographic column is installed, chromatographic column for filling 200-300 order, the aluminium oxide of anhydrous, activation;

1.1.3 pillar is soaked with 20mL sherwood oil, flow velocity 5-10ml/min; Blow air 10ml/min again, in leacheate access waste liquid bottle.

1.2 the drip washing of wax component

1.2.1 by with the good sample of 10ml petroleum ether dissolution, be transferred in sample hose with 10ml sherwood oil; Use air with 3-5ml/min flow velocity again, be pressed in chromatographic column by sample by sample inlet, until liquid all flows out, efflux is collected in 150ml triangular flask;

1.2.2 benzene is injected chromatographic column by solvent pipe, 2-3ml/min, altogether 80ml; Use air with 3-5ml/min flow velocity again, be pressed in chromatographic column by benzene by solvent pipe, until liquid all flows out, efflux is collected in 150ml triangular flask;

1.2.3 the collection liquid flowed completely in triangular flask when benzene is oily wax composition.

1.3 colloids+bituminous matter component drip washing

1.3.1 be that 1:1 (benzene, ethanol) injects chromatographic column by solvent pipe, 3-5ml/min by volume ratio, 30ml altogether; With air with 3-5ml/min flow velocity, by solvent pipe just volume ratio be that 1:1 (benzene, ethanol) is pressed in chromatographic column, until liquid all flows out, efflux is collected in the sample bottle of constant weight;

1.3.2 treat that 1:1 (benzene, ethanol) mixed solvent flows into chromatographic column completely, then add 30mL benzene successively by solvent pipe, flow velocity 3-5ml/min; Again with blowing air 3-5ml/min, by solvent pipe, benzene is pressed in chromatographic column, until liquid all flows out; Add 30mL ethanol again, flow velocity 3-5ml/min; Again with blowing air 3-5ml/min, by solvent pipe, ethanol is pressed in chromatographic column, until liquid all flows out; Collecting liquid is colloid+bituminous matter component, and desolvation, puts into vacuum drying chamber and carry out constant weight, tries to achieve colloid+bitum quality.

2 experimental results and analysis

2.1 automatic separation equipments and primary standard methods and results are analyzed

Adopt primary standard method (SY/T 7550-2012) to be separated 6 kinds of different crude oil samples, concrete data are see table 1.

Table 1

Adopt primary standard method and automatic separation equipment to contrast, concrete data are see table 2.

Table 2

From the data of above-mentioned table 1 and table 2, the wax content that normal data and automatic separation equipment detect and pitch+gum level meet the requirement of standard about repeatability 20% substantially.

2.2 automatic separation equipments detect repeated interpretation of result

The reappearance adopting automatic separation equipment to detect wax content and pitch+gum level is tested, and concrete data are see table 3.

Table 3

From the data of above-mentioned table 3, adopt the utility model automatic separation equipment to carry out wax, separated from bitumen detects, its sample detection favorable reproducibility.Because automatic separation equipment controls sample introduction, separated and collected automatically by control device, relative to classic method, decrease human error.

2.3 work efficiency

Primary standard method realizes wax in crude oil, colloid is separated needs used time 9-11 hour; Adopt automatic separation equipment to carry out wax, colloid is separated used time 2.5-3.5 hour, raise the efficiency 3 times.

Above-described embodiment is only for illustrating technical conceive of the present utility model and feature; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement etc., all should be included within protection domain of the present utility model.

Claims (15)

1. an oil component automatic separation equipment, it is characterized in that: comprise control device and at least one separation module, described separation module comprises sampling device, tripping device, gathering-device, described control device respectively with sampling device, tripping device and gathering-device communication link; Described sampling device comprises pump machanism, solvent pipe, sample inlet and sample hose, described solvent pipe and sample inlet separate, described sample hose accesses in described sample inlet; Described tripping device comprises the first multiplexer channel and selects flowing valve and chromatographic column, and described chromatographic column selects flowing valve to be connected by pipeline with solvent pipe and sample respectively by the first multiplexer channel; Described gathering-device comprises gatherer.

2. automatic separation equipment as claimed in claim 1, is characterized in that: described sampling device also comprises the second multiplexer channel and selects flowing valve, and described second multiplexer channel selects flowing valve to be connected by pipeline with pump machanism.

3. automatic separation equipment as claimed in claim 2, it is characterized in that: described sampling device also comprises the pneumatic power source of pressure adjustable, pneumatic power source and second multiplexer channel of described pressure adjustable select flowing valve to be connected by pipeline.

4. automatic separation equipment as claimed in claim 2, is characterized in that: described sampling device also comprises the 3rd multiplexer channel and selects flowing valve, and described 3rd multiplexer channel selects flowing valve to be connected by pipeline with pump machanism, sample inlet and solvent pipe respectively.

5. automatic separation equipment as claimed in claim 4, it is characterized in that: described automatic separation equipment also comprises at least one sample tube rack and at least one chromatographic column support, described sample hose is separable to be arranged on described sample tube rack, and described chromatographic column is arranged on described chromatographic column support separably.

6. automatic separation equipment as claimed in claim 5, is characterized in that: described sample tube rack or described chromatographic column support are adjustable jack post automatically up and down.

7. automatic separation equipment as claimed in claim 5, it is characterized in that: described sample tube rack or chromatographic column support can place at least one sample hose or at least one chromatographic column, described automatic separation equipment also comprises post switch, selects to be communicated with arbitrary described sample hose and/or chromatographic column by post switch.

8. automatic separation equipment as claimed in claim 7, it is characterized in that: at least one sample hose described is 2-6 sample hose, at least one chromatographic column described is 2-6 chromatographic column.

9. automatic separation equipment as claimed in claim 7, is characterized in that: described post switch is that described 3rd multiplexer channel selects flowing valve.

10. the automatic separation equipment as described in any one of claim 1-9, is characterized in that: described chromatographic column is activated silica gel aluminium oxide Mixed chromatogram columniation.

11. automatic separation equipments as described in any one of claim 1-9, is characterized in that: described pump machanism is valveless metering pump.

12. automatic separation equipments as described in any one of claim 1-9, is characterized in that: the number of at least one separation module described is 2-5.

13. automatic separation equipments as described in any one of claim 1-9, is characterized in that: described automatic separation equipment also comprises motor, control motor drive first, second and/or the 3rd multiplexer channel to select flowing valve by control device.

14. automatic separation equipments as described in any one of claim 1-9, is characterized in that: described automatic separation equipment also comprises temperature control equipment.

15. automatic separation equipments as described in any one of claim 1-9, it is characterized in that: described separation equipment also comprises warning device, described warning device is hyperpressure alarm device and/or leakage warning device.