CN106840769A - Oil pipeline on-line period device - Google Patents
Oil pipeline on-line period device Download PDFInfo
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- CN106840769A CN106840769A CN201710104637.9A CN201710104637A CN106840769A CN 106840769 A CN106840769 A CN 106840769A CN 201710104637 A CN201710104637 A CN 201710104637A CN 106840769 A CN106840769 A CN 106840769A
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- 238000000034 method Methods 0.000 claims abstract description 166
- 230000008569 process Effects 0.000 claims abstract description 157
- 238000005070 sampling Methods 0.000 claims abstract description 134
- 239000000523 sample Substances 0.000 claims abstract description 74
- 230000008676 import Effects 0.000 claims abstract description 5
- 239000007788 liquid Substances 0.000 claims description 30
- 238000005303 weighing Methods 0.000 claims description 13
- 238000010926 purge Methods 0.000 claims description 11
- 238000005516 engineering process Methods 0.000 claims description 8
- 238000006243 chemical reaction Methods 0.000 claims description 7
- 238000009413 insulation Methods 0.000 claims description 5
- 239000007921 spray Substances 0.000 claims description 4
- 238000010521 absorption reaction Methods 0.000 claims description 3
- 239000002184 metal Substances 0.000 claims description 3
- 239000010865 sewage Substances 0.000 claims description 3
- 238000004801 process automation Methods 0.000 abstract description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 24
- 239000003921 oil Substances 0.000 description 17
- 238000002347 injection Methods 0.000 description 10
- 239000007924 injection Substances 0.000 description 10
- 238000012423 maintenance Methods 0.000 description 9
- 238000012360 testing method Methods 0.000 description 7
- 230000008901 benefit Effects 0.000 description 6
- 238000012544 monitoring process Methods 0.000 description 6
- 238000004458 analytical method Methods 0.000 description 4
- 230000009286 beneficial effect Effects 0.000 description 4
- 238000013461 design Methods 0.000 description 4
- 238000004140 cleaning Methods 0.000 description 3
- 238000001514 detection method Methods 0.000 description 3
- 238000002474 experimental method Methods 0.000 description 3
- 238000009434 installation Methods 0.000 description 3
- 238000002156 mixing Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 230000008859 change Effects 0.000 description 2
- 230000007613 environmental effect Effects 0.000 description 2
- 238000004880 explosion Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 238000012545 processing Methods 0.000 description 2
- 238000011144 upstream manufacturing Methods 0.000 description 2
- 210000004556 brain Anatomy 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 239000010779 crude oil Substances 0.000 description 1
- 238000005520 cutting process Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000000605 extraction Methods 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- 238000011897 real-time detection Methods 0.000 description 1
- 230000008439 repair process Effects 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
- 230000009897 systematic effect Effects 0.000 description 1
- 238000012795 verification Methods 0.000 description 1
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/10—Devices for withdrawing samples in the liquid or fluent state
- G01N1/14—Suction devices, e.g. pumps; Ejector devices
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- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
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- General Health & Medical Sciences (AREA)
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- Immunology (AREA)
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- Sampling And Sample Adjustment (AREA)
Abstract
The present invention relates to a kind of oil pipeline on-line period device, a segment process pipeline is provided with main pipeline, the arrival end of the process pipelines connects sampling probe, the outlet terminating nozzles of the process pipelines, and the sampling probe and nozzle access main pipeline;The process pipelines are other after sampling pump to access sample return line, and table sample is replaced on the sampling loop pipeline, and remaining liq finally also imports main pipeline.The present invention is capable of achieving that reliable, real-time continuous, sample size be accurate, flow control in loop is accurate, is finally reached and obtains the requirement that representative sample, sampling process automation, system control precision.
Description
Technical field
The present invention relates to a kind of oil pipeline on-line period device, belong to detection and the pipeline sampling system technology neck of quality
Domain.
Background technology
For oil pipeline on-line period technology, conventional process is manual manual sampling or on oil transportation main pipeline
Bypass is drawn, and sampling pump and sampling equipment are set in bypass, then the mode for leading back injection main pipeline will be bypassed.
The shortcoming of this kind of sampler is:1st, it is not provided with mixing arrangement, it is impossible to ensure that liquid is sufficiently mixed in pipeline, obtains
Sample may be under-represented;2nd, be not provided with sampling control system, it is impossible to realize to sampling system equipment state, power conditions,
The monitoring of sampling loop flow velocity, sampling frequency;3rd, flow measurement is not carried out to sampling loop, to liquid stream in sampling loop whether just
Chang Wufa judges;4th, because pipeline medium cleannes are not high, the impurity that the inside is contained is frequently occluded sampling pump, causes sampling pump
Failure is damaged, cannot thus realize that on-line period is carried out continuously;5th, pump discharge pipeline easily produces backflow;6th, it is not provided with manually
Sampler, the system failure cannot be sampled;7th, back-up circuit is not provided with, system easily produces failure;8th, it is not provided with sampling container
Protection facility, easily produces sample to overflow peril;9th, it is not provided with cleaning interface, is unfavorable for system maintenance, easily pollutes sample
Product;10th, temperature, pressure instrumentation are not provided with, lack the monitoring to loop process parameter;11st, flow control is not implemented, it is impossible to
Realize that sampling loop flow follows main pipeline changes in flow rate;12nd, be not implemented in sampling rate and sample size and main pipeline flow into
Ratio.
The content of the invention
To solve the above problems, operate oil pipeline on-line period it is an object of the invention to provide one kind and more they tend to mark
Standardization, facilitation, scientific, automation, improve on-line period systematic sampling representativeness, accuracy, continuity, reliability and
Security, facilitates the oil pipeline on-line period device of operation maintenance, monitoring management, installation and transportation.
The purpose of the present invention is achieved through the following technical solutions:
A kind of oil pipeline on-line period device, is provided with a segment process pipeline on main pipeline, the process pipelines
Arrival end connects sampling probe, the outlet terminating nozzles of the process pipelines, and the sampling probe and nozzle access main pipeline;
Wherein, sampling probe is sequentially connected in series process valve A and process valve B, the process valve B connect branch road A and branch
The entrance of road B, the branch road A is identical with branch road B settings, wherein branch road A from entrance be sequentially connected in series process valve C, pressure gauge A,
Filter A, sampling pump A, pressure gauge B, process valve D and check valve A, the outlet of branch road A and branch road B merge into a pipeline,
And process valve G and process valve H is sequentially connected in series after joint, most access main pipeline through the nozzle afterwards;
The branch road A, it is other between the joint of branch road B and process valve G access sample return line, wherein, the sampling
Return line is sequentially connected in series process valve I, on-line densimeter and process valve K, the process valve K connection branch roads C from entrance
With the entrance of branch road D;The branch road C is identical with the setting of branch road D, and wherein branch road C is sequentially connected in series process valve L, takes from entrance
Sample controls valve A and process valve M, branch road D to be sequentially connected in series process valve N, sampling control valve B and process valve O from entrance;It is described
The outlet of branch road C and branch road D merges into a pipeline, and pressure transmitter, temperature transmitter, stream are sequentially connected in series after joint
Gauge, purge valve B, process valve Q and process valve R, finally import main pipeline;
Branch road C and branch road D respectively sampled control valve A and sampling control valve B to be connected together be pipeline E, the pipeline E's
Entrance connection point liquid triple valve, connects sample reception tank A and sample reception tank B, the sample respectively after described point of liquid triple valve
Product receiving tank A and sample reception tank B are respectively placed on weighing instrument A and weighing instrument B.
Further, sampling pump A, on-line densimeter, weighing instrument A, weighing instrument B, sampling control valve A, sampling control valve B,
Divide liquid triple valve, pressure transmitter, temperature transmitter, flowmeter by instrument cable access controller, the controller is through instrument
Table cable accesses master control system.
Further, the sampling probe stretches into main pipeline center to the position of main pipeline central lower 0.1D, wherein, D
It is the diameter of main pipeline.
Further, the nozzle is hollow straight tube, the bottom lock of the nozzle and is combined with main pipeline bottom, described
It is empty that the outer wall of hollow straight tube is uniformly provided with several sprays.
Further, the other dynamic sampling valve of catcher between sampling probe and process valve A;
It is other between the entrance of the pipeline E and point liquid triple valve to connect relief valve.
Further,
It is other between process valve B and branch road A, branch road B inlet connections to meet purge valve A;
It is other between the entrance and process valve I of sampling loop pipeline to connect sewage draining valve.
Further,
Filter A both sides parallel connection differential pressure switch A, the differential pressure switch A is through instrument cable access controller;
Pipeline F parallel connection technology valves J, the process valve J that process valve I, on-line densimeter and process valve K are formed
Emptying valve is connect by the junction exported with pipeline F;
The both sides of branch road C and branch road D is parallel with one section of bypass line, and the bypass line is provided with process valve P (16).
Further, process valve A and process valve B, it is single between process valve B and branch road A, branch road B inlet connections
To between valve A and branch road A, the outlet joint of branch road B, between branch road A, the outlet joint of branch road B and process valve G, work
Between skill valve G and process valve H, between the entrance and process valve I of sampling loop pipeline, process valve K and branch road C, branch
Between the inlet connection of road D, between branch road C, branch road D outlet joint and pressure transmitter, purge valve B and process valve Q
Between, electric tracing thermal insulation part is equipped between process valve Q and process valve R.
Further, the sampling pump B on the sampling pump A and branch road B uses frequency conversion centrifugal pump.
Further, the metal screen in the filter B on the filter A and branch road B is provided with magnetic absorption device.
Beneficial effects of the present invention are:
Can realize that oil pipeline on-line period is carried out continuously using on-line period device of the present invention, be represented with sampling
Property, quantity accuracy, operation stability, simple operation, beneficial to maintenance in the future and maintenance etc. many-side advantage, realize sampling
Also superior system remote detection and control are subjected to while system independent control.Pipe-line construction and operational management is set to more they tend to mark
It is standardization, modularization, high efficiency, hommization, shortcut.
Oil pipeline using can be realized after on-line period device of the present invention it is reliable, easy for installation, connect in real time
Continuous, sample size is accurate, flow control in loop is accurate, and reaches representative acquirement sample, sampling process automation, system
Control precision requirement, it is ensured that sampling system it is continuous, stable, automatic, obtain representational sample in proportion.The dress
Dynamic mixed function is installed, the fluid in the nozzle jet-action mixed charge road in main pipeline has been fitted into using pump discharge, really
Protecting liquid stream in main pipeline can be well mixed under any flow velocity so that fully represent main pipeline into the liquid stream in sampling loop
The property of interior liquid, it is to avoid sampling only represents local feature and do not possess representativeness.The device is provided with controller and can realize to taking
Equipment in sample loop (pump, sampling control valve, point liquid triple valve) and operational factor (pressure, temperature, flow, sampling amount, density,
Liquid level of sample reception tank etc.) monitor in real time;And can at any time receive the instruction of higher level's master control system;According in main pipeline
Flow velocity improves or reduces sampling frequency;Ensure steady sampling system, safety, controlled operation.The device sampling loop is provided with flow
Meter, the flow velocity of liquid in real-time detection loop, the flow velocity of liquid is controlled parameter with loop, by sampling control system control
The rotating speed of variable frequency pump realizes in sampling loop flow rate of liquid in flow velocity real-time tracking main pipeline.The device is provided with the sampling of redundancy
Pump, sample reception tank, sampling control valve, filter, it is ensured that system it is continuously available.The device is set with main pipeline junction
Even if manual sampling valve can not work to ensure system, manual sampling operation can be also carried out.
The device fills outdoor design (controller is mounted remotely from the non-anti-explosion area at scene) by sledge, and its degree of protection is
IP65, explosive-proof grade EXdIIBT4, fully meet open-air atmosphere and live requirement of explosion proof;Sample treatment and the sampling pump of conveying are adopted
Frequency conversion centrifugal pump is used, the control of the flow velocity and pressure to bypass and sampling loop, the requirement for making it meet standard is realized;In device
Porch sampling pump before be provided with redundant filter, it is ensured that the stability and reliability of the continuous operation of sampling pump;Taking
Sample pump discharge sets liquid level during check valve prevents bypass duct and backflow occurs;Butterworth Hatch is respectively provided with the import and export of device,
Cleaning uses external medium cleaning way, and structure arrangement is easy to process and is cleaned, and is capable of achieving not turning off maintenance in the case of main pipeline;
Equipped with related emptying, blowdown pipeline and valve in sampling loop, blowdown, shut-off can be carried out to the pipeline and equipment in device
And emission treatment, it is easy to daily maintenance and maintenance;Temperature transmitter, pressure transmitter, flowmeter are provided with sampling loop, it is real
When monitoring sampling loop temperature, pressure, flow, it is ensured that sampling carry out under reasonable conditions;It is provided with sample reception tank
Weighing-appliance, for when the liquid level superelevation alarm in device, while whether accurate monitor sample size in tank obtains;It is provided with safety
Bleeder valve, when superpressure reach safety valve release value when, safety valve action, to sample reception loop and connect sample reception tank implement
Safeguard protection;Pipeline and equipment in device are provided with constant temperature electrical heating and Insulation, it is ensured that the stream in on-line period device
Body is not protected from environmental, enables the device in outdoor stable operation.Differential pressure switch is set before and after filter is used for sample train
The running status of system detection filter, judges whether filter blocks.
The present invention is applied to oil pipeline on-line period.This automatic sampling system is used for domestic project, major technique first
Index exceedes domestic best level, has reached international same period advanced level.Inherently improve the acquirement of pumped (conveying) medium sample
Representativeness, reduces trade dispute;Do not influenceed by Oil Production technique and transport oil condition change;It is not affected by human factors;Reduce
The labour intensity of operating personnel.The technique of use, equipment, material and structure technology are advanced, design document component content and depth
Meet the requirements.Advanced with high content of technology, processing performance, technological process rationally, the pressure loss is not produced, different tube diameters are applicable
And any range of flow.Good environmental benefit, economic benefit and social benefit are generated after the system self-operating, well
Meet the requirement built, produce and use, overall economic efficiency is significantly improved than the same type project being completed, and operation can
By, stabilization, efficiently, safety.
Brief description of the drawings
Fig. 1 is the structural representation of oil pipeline on-line period device of the present invention;
Wherein, 1- sampling probes, the manual sampling valves of 2-, 3- process valves A, 4,7,17,26,29,34,40,53,58,60-
Electric tracing thermal insulation part, 5- process valves B, 6- purge valve A, 8- process pipelines, 9- process valves C, 10- pressure gauge A, 11- mistake
Filter A, 12- differential pressure switch A, 13- sampling pump A, 14- pressure gauge B, 15- process valve D, 16- check valve A, 18- process valve
E, 19- pressure gauge C20- filter Bs, F25- is unidirectional for 21- differential pressure switches B, 22- sampling pump B, 23- pressure gauge D, 24- process valve
Valve B, 27- purge valve B, 28- process valve G, 30- process valve H, 31- nozzle 32- sampling loop pipelines, 33- sewage draining valves,
35- process valves I, 36- on-line densimeter, 37- process valves J, 38- process valve K, 39- emptying valve, 41- process valves
L, 42- sampling control valve A, 43- process valve M, 44- process valve N, 45- sampling control valve B, 46- process valve O, 47- point
Liquid triple valve, 48- relief valves, 49- sample reception tank A, 50- sample reception tank B, 51- weighing instrument A, 52- weighing instrument B,
54- process valves P, 55- pressure transmitter, 56- temperature transmitters, 57- flowmeters, 59- process valves Q, 61- process valve R,
62nd, 63,64,65,66,67,68,69,70,71,72,73,76- instrument cables, 74- controllers, 75- master control systems.
Specific embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples
The present invention is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain the present invention, not
For limiting the present invention.
A kind of oil pipeline on-line period device, as shown in figure 1, a segment process pipeline 8 is provided with main pipeline, it is described
The arrival end of process pipelines 8 connects sampling probe 1, the outlet terminating nozzles 31 of the process pipelines 8, the sampling probe 1 and spray
Mouth 31 accesses main pipeline.
Wherein, sampling probe 1 is sequentially connected in series process valve A3 and process valve B5, sampling probe 1 and process valve A3 it
Between the other dynamic sampling valve 2 of catcher, the process valve B5 connects the entrance of branch road A and branch road B, the branch road A and branch road B setting phases
Together, be mutually redundant, wherein branch road A from entrance be sequentially connected in series process valve C9, pressure gauge A10, filter A11, sampling pump A13,
Pressure gauge B14, process valve D15 and check valve A16, branch road B are sequentially connected in series process valve E18, pressure gauge C19, mistake from entrance
Filter B20, sampling pump B22, pressure gauge D23, process valve F24 and check valve B25, filter A11 both sides parallel connection differential pressure switch
A12, the both sides of filter B 20 parallel connection differential pressure switch B21, the differential pressure switch A12, differential pressure switch B21 are accessed through instrument cable
Controller 74.It is other between process valve B5 and branch road A, branch road B inlet connections to meet purge valve A6.The outlet of branch road A and branch road B
A pipeline is merged into, and process valve G28 and process valve H30 is sequentially connected in series after joint, most afterwards through the nozzle 31
Access main pipeline.
The branch road A, it is other between the joint of branch road B and process valve G28 access sample return line 32, wherein, it is described
Sampling loop pipeline 32 is sequentially connected in series process valve I35, on-line densimeter 36 and process valve K38, the technique valve from entrance
Door K38 connects the entrance of branch road C and branch road D.Wherein, it is other between the entrance of sampling loop pipeline 32 and process valve I35 to run in
Dirty valve 33.Process valve I35, on-line densimeter 36 and process valve K38 are formed pipeline F parallel connection technology valves J37, it is described
Emptying valve 39 is connect by the junction of process valve J37 and pipeline F outlets.The branch road C is identical with the setting of branch road D, each other
Redundancy, wherein branch road C are sequentially connected in series process valve L41, sampling and control valve A42 and process valve M43, branch road D to enter certainly from entrance
Mouth is sequentially connected in series process valve N44, sampling control valve B45 and process valve O46;The branch road C is merged into the outlet of branch road D
One pipeline, and pressure transmitter 55, temperature transmitter 56, flowmeter 57, purge valve B27, work are sequentially connected in series after joint
Skill valve Q59 and process valve R61, finally imports main pipeline.The both sides of branch road C and branch road D is parallel with one section of bypass line, institute
State bypass line and be provided with process valve P16.
Branch road C and branch road D respectively sampled control valve A42 and sampling control valve B45 to be connected together be pipeline E, the pipe
The entrance connection point liquid triple valve 47 of line E, sample reception tank A49 and sample reception are connected after described point of liquid triple valve 47 respectively
Tank B50, the sample reception tank A49 and sample reception tank B50 are respectively placed on weighing instrument A51 and weighing instrument B52.Sampling control
Medium is extracted the equipment that juxtaposition is changed in sample receiver by valve A42 processed and sampling control valve B45, and full-bore is designed, cut entirely
Face interception, variable frequency control, high-frequency action (30 times/min), it is ensured that meet that frequency is proportional to flow, unit sample number
Measure accurately.Sample reception tank A49 and sample reception tank B50 use full-closed structure, are let out with fast connecting joint, safety
Put the pressure vessel that valve, material are stainless steel.It is other between the entrance of the pipeline E and point liquid triple valve 47 to connect relief valve
48。
Sampling pump A13, on-line densimeter 36, weighing instrument A51, weighing instrument B52, sampling control valve A42, sampling control valve
B45, point liquid triple valve 47, pressure transmitter 55, temperature transmitter 56, flowmeter 57 by instrument cable access controller 74,
The controller 74 accesses master control system through instrument cable.Flowmeter 57 selects mass flowmenter, and the degree of accuracy is high, and inside can not
Dynamic component reduces maintenance workload, long lifespan, and can realize real-time dynamic by the pressure transmitter 55 in sampling loop pipeline
Pressure compensation.Controller 74 is on-line period device " brain ", with multiple function:Cryptoguard;Monitoring sampling loop pipe
The parameters such as line temperature, pressure, flow, sample reception tank liquid level;Control sampling frequency, it is ensured that proportional to main pipeline flow;Control
Frequency conversion processed is centrifuged revolution speed, reaches control sampling loop line flow, the purpose of pressure;Control the flow direction of liquid separatnig valve;Equipment
And power supply status monitoring, fault alarm;Communicated with higher level's master control system, receive higher level's master control system order and open, stop sampling
Device, receives and monitors the flow status of main pipeline;And sampler parameter is uploaded into higher level's master control system.
The sampling probe 1 stretches into main pipeline center to the interval position of main pipeline central lower 0.1D, wherein, based on D
The diameter of pipeline, can so avoid influence of the tube wall to flow velocity and moisture content, and the sample of extraction is most representative.
The nozzle 31 is the hollow high intensity straight tube of bottom lock, is uniformly provided with along the outer wall of the hollow straight tube some
Individual spray is empty, and the straight tube straight cutting main pipeline bottom makes whole pipeline beneficial to the effect by bottom deposit water etc. by pumping out liquid
Section reaches and is sufficiently mixed, it is ensured that it is in office why not profit flow velocity, viscosity, density under it is unaffected;The bottom of the nozzle 31
Combined closely with main pipeline bottom, to resist the moment of flexure caused by Peak Flow Rate in main pipeline, and bear to trigger because of vortex
Vibrations..
Between process valve A3 and process valve B5, process valve B5 and branch road A, branch road B inlet connections, check valve
Between A16 and branch road A, the outlet joint of branch road B, between branch road A, the outlet joint of branch road B and process valve G28, work
Between skill valve G28 and process valve H30, between the entrance and process valve I35 of sampling loop pipeline 32, process valve K38
Between branch road C, the inlet connection of branch road D, between branch road C, branch road D outlet joint and pressure transmitter 55, purge valve
Between B27 and process valve Q59, electric tracing thermal insulation part is equipped between process valve Q59 and process valve R61.
Sampling pump B22 on the sampling pump A13 and branch road B uses frequency conversion centrifugal pump, by controller control frequency conversion from
The rotating speed of heart pump, reaches control sampling loop pipeline flow velocity and the strong and weak purpose of injection.
Before the filter A11 and the redundancy of filter B 20 are arranged on sampling pump, it is provided with the metal screen in filter
Magnetic absorption device, can well adsorb the metallic residue and particle in institute's pumped (conveying) medium, it is ensured that filter and sampling pump it is steady
Run and extend its service life calmly.
All pipelines of oil pipeline on-line period device of the present invention and all devices of installation are integrated in sledge dress
On, pressure rating meets the requirement of design pressure.
Process valve I35, process valve J37, process valve K38, process valve L41, process valve M43, process valve
N44, process valve O46, process valve P54 select 1 " 300#ANSI RF ball valves;
Process valve D15 and process valve F24 selects 3 " 300#ANSI RF ball valves;
Process valve C9, process valve E18, process valve G28 and process valve H30 select 4 " 300#ANSI RF ball valves;
Process valve A3 and process valve B5 selects 6 " 300#ANSI RF ball valves;
Check valve A16 and check valve B25 selects 3 " 300#ANSI RF swing type check valves;
Process valve R61 selects 1 " 300#ANSI RF stop valves;
Sampling pump A13 and sampling pump B22 selects frequency conversion centrifugal pump, and entrance is that 4 " 300#ANSI RF, it is 3 " 300# to export
ANSI RF, maximum stream flow 400GPM, 380/3/60HZ;
" 300#ANSI RF basket filters, swing type bolt is fast from 4 " × 8 " × 4 for filter A11 and filter B 20
Speed opens closure;
Flowmeter 57 selects " the 300#ANSI RF mass flowmenters of Rosement 1;
Sampling control valve A42 selects 1 with sampling control valve A45, and " the electro-hydraulic bypasses of 300#ANSI RF 210 sample control valve;
Relief valve 48 is from SS-4R3A types 1/4, and " pipe connects angle-style bleeder valve;
Sample reception tank A49 and sample reception tank A50 selects portable example receiving tank, maximum size:5GAL;
Liquid triple valve 47 is divided to be made up of following sections:Changing Direction Type valve ferrule fitting SS-43-GXF4-51-SR, threeway
Ball valve, spring return actuator and Changing Direction Type magnetic valve;
What on-line densimeter 36 was selected is " the 300#ANSI RF liquid densimeters of type 1 of Solartron 7845;
Pressure gauge A9, pressure gauge B15, pressure gauge C18, pressure gauge D24 selected ranges are that " internal thread connects for 0-50Bar, 1/2
The pressure display unit for connecing;
Differential pressure switch A12 and differential pressure switch B21 is from the differential pressure switch with display function;
Pressure transmitter 55 and temperature transmitter 56 are from the product of Rosement;
Control computer of the controller 74 from the models of OMNI 6000.After whole sampler sledge dress production and processing is finished
Anti-corrosion, the antirust treatment of correlation need be made, all of process pipelines and equipment do electric tracing and isothermal holding.
In the present embodiment, the method using on-line period device on-line period of the present invention is laggard in flood-pot experiment process
Row sampling calibrating, it is as follows:
Water filling
A) connection valve, filter, pressure gauge, pipeline, pump, stream are passed through in the upstream of sampler before Autosampler operation
The equipment such as gauge, to the water that dose known amounts are injected in main pipeline.
B) water decanting point away from sampling system upstream element, while need to be by the mixing equipment of sampling system.
C) water injection rate generally accounts for the 1-5% of main pipeline rate-of flow at the appointed time, because this project system is doing
The injection rate of the big needs of output oil amount is just big during experiment, and cannot be separated after injection water, passed through on the premise of technical feasibility with customs,
Commodity inspection is consulted, and it is 0.6% or so of pipe throughput rate that injected water volume is adjusted to.
D) water injection time is no less than 1 hour, to gather the water filling sample of abundance.
E) water is injected from pipeline bottom with certain speed, and other mixing can not be produced to make in injection process to product
With.The velocity attitude of water filling is identical with the speed of medium in main pipeline and direction.
F) flowmeter accuracy of measurement water volume is better than ± 2%.
Calibrating
Sampling calibrating carried out under conditions of worst, respectively before testing, test in, test after collect 3 samples.
Operation sampler collects the sample of 1 hour before water filling, then regathers the sample of 1 hour in the injecting process, when all water fillings are situated between
Matter is by after sampler, then operates the sample that sampler receives 1 hour, it is determined that before testing with test after water in sample contain
Amount, no more than 0.1% between two moisture content values obtained by test.Eventually through water content in the sample that analytical sampling is obtained
The performance of whole sampling system is judged with the uniformity of injection water content, this is a percentage value, and the value exists
It is the highest level of the degree of accuracy generally acknowledged in the world within 0.05%.The automatic sampling system degree of accuracy of this project is checked through water filling
This rank is reached.
The automatic sampling system of this Project design is as follows through flood-pot experiment verification result:Water content is through analysis in crude oil
0.0504% (sampling analysis), one hour water injection rate percentage of water filling (water for being measured according to flowmeter and defeated that is 0.6267%
Oil mass is calculated), it is 0.6684% to obtain water content by sampling analysis in test process, final sampling analysis and reality
The deviation of water injection rate is -0.0087% (0.6684-0.6267-0.0504), and this meets the requirement of international standard highest level.This is
System is stable by the use more than 8 years, and since putting into operation, sampling 10L or so, operates more than 10000 times daily daily,
Often act primary sample 1mL.
This example improves credibility, accuracy, repeatability, the stability of on-line period system through on probation, beneficial in the future
Safeguard, many-sided advantage such as maintenance, and compact conformation, simple, convenient transportation is installed, it is possible to achieve outdoor sledge installing is put, and is saved
Floor space and operation operation room are saved.
The preferred embodiments of the present invention are the foregoing is only, is not intended to limit the invention, for the skill of this area
For art personnel, the present invention can have various modifications and variations.It is all within the spirit and principles in the present invention, made any repair
Change, equivalent, improvement etc., should be included within the scope of the present invention.
Claims (10)
1. a kind of oil pipeline on-line period device, it is characterised in that a segment process pipeline (8), institute are provided with main pipeline
The arrival end for stating process pipelines (8) connects sampling probe (1), the outlet terminating nozzles (31) of the process pipelines (8), the sampling
Probe (1) and nozzle (31) access main pipeline;
Wherein, sampling probe (1) is sequentially connected in series process valve A (3) and process valve B (5), process valve B (5) the connection branch
The entrance of road A and branch road B, the branch road A is identical with branch road B settings, and wherein branch road A is sequentially connected in series process valve C from entrance
(9), pressure gauge A (10), filter A (11), sampling pump A (13), pressure gauge B (14), process valve D (15) and check valve A
(16), the outlet of branch road A and branch road B merges into a pipeline, and process valve G (28) and technique are sequentially connected in series after joint
Valve H (30), most accesses main pipeline through the nozzle (31) afterwards;
It is other between the branch road A, the joint of branch road B and process valve G (28) to access sample return line (32), wherein, it is described
Sampling loop pipeline (32) is sequentially connected in series process valve I (35), on-line densimeter (36) and process valve K (38), institute from entrance
State the entrance that process valve K (38) connects branch road C and branch road D;The branch road C is identical with the setting of branch road D, and wherein branch road C is certainly
Entrance is sequentially connected in series process valve L (41), sampling control valve A (42) and process valve M (43), branch road D and is sequentially connected in series from entrance
Process valve N (44), sampling control valve B (45) and process valve O (46);The outlet of the branch road C and branch road D merges into one
Pipeline, and pressure transmitter (55), temperature transmitter (56), flowmeter (57), purge valve B are sequentially connected in series after joint
(27), process valve Q (59) and process valve R (61), finally imports main pipeline;
It is pipeline E, the pipe that sampled control valve A (42) of branch road C and branch road D difference and sampling control valve B (45) are connected together
The entrance connection point liquid triple valve (47) of line E, sample reception tank A (49) and sample are connected after described point of liquid triple valve (47) respectively
Product receiving tank B (50), the sample reception tank A (49) and sample reception tank B (50) are respectively placed in weighing instrument A (51) and weigh
On instrument B (52).
2. oil pipeline on-line period device according to claim 1, it is characterised in that sampling pump A (13), in line density
Meter (36), weighing instrument A (51), weighing instrument B (52), sampling control valve A (42), sampling control valve B (45), point liquid triple valve
(47), pressure transmitter (55), temperature transmitter (56), flowmeter (57) are described by instrument cable access controller (74)
Controller (74) accesses master control system (75) through instrument cable.
3. oil pipeline on-line period device according to claim 1, it is characterised in that the sampling probe (1) is stretched into
Main pipeline center to the position of main pipeline central lower 0.1D, wherein, D for main pipeline diameter.
4. oil pipeline on-line period device according to claim 1, it is characterised in that the nozzle (31) is hollow straight
Pipe, the bottom lock of the nozzle (31) and is combined with main pipeline bottom, and the outer wall of the hollow straight tube is uniformly provided with several
Spray is empty.
5. oil pipeline on-line period device according to claim 1, it is characterised in that sampling probe (1) and technique valve
The other dynamic sampling valve (2) of catcher between door A (3);
It is other between the entrance of the pipeline E and point liquid triple valve (47) to connect relief valve (48).
6. oil pipeline on-line period device according to claim 1, it is characterised in that
It is other between process valve B (5) and branch road A, branch road B inlet connections to meet purge valve A (6);
It is other between the entrance and process valve I (35) of sampling loop pipeline (32) to connect sewage draining valve (33).
7. oil pipeline on-line period device according to claim 1, it is characterised in that
Filter A (11) both sides parallel connection differential pressure switch A (12), the differential pressure switch A (12) is through instrument cable access controller
(74);
Pipeline F parallel connection technology valves J (37) that process valve I (35), on-line densimeter (36) and process valve K (38) are formed,
Emptying valve (39) is connect by the process valve J (37) and the junction of pipeline F outlets;
The both sides of branch road C and branch road D is parallel with one section of bypass line, and the bypass line is provided with process valve P (16).
8. oil pipeline on-line period device according to claim 1, it is characterised in that process valve A (3) and technique valve
Door B (5), between process valve B (5) and branch road A, branch road B inlet connections, check valve A (16) and branch road A, the outlet of branch road B
Between joint, between branch road A, the outlet joint of branch road B and process valve G (28), process valve G (28) and process valve
Between H (30), between the entrance and process valve I (35) of sampling loop pipeline (32), process valve K (38) and branch road C, branch road
Between the inlet connection of D, between branch road C, branch road D outlet joint and pressure transmitter (55), purge valve B (27) and technique
Between valve Q (59), electric tracing thermal insulation part is equipped between process valve Q (59) and process valve R (61).
9. oil pipeline on-line period device according to claim 1, it is characterised in that the sampling pump A (13) and branch
Sampling pump B (22) on the B of road uses frequency conversion centrifugal pump.
10. oil pipeline on-line period device according to claim 1, it is characterised in that the filter A (11) and branch
The metal screen in filter B (20) on the B of road is provided with magnetic absorption device.
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