CN102424351B - Digital box type fast-assembling oil-gas gathering and transferring system - Google Patents

Abstract

The invention discloses a digital box type fast-assembling oil-gas gathering and transferring system, which relates to an oil transfer station and is used for solving the problems of a large amount of assorted equipment, complex internal pipe network, large floor area, a large quantity of operating personnel and high running cost existing in the conventional oil transfer station as well as difficulty in controlling the water replenishing amount due to the adoption of manual water replenishment during the running of a four-in-one combined device. An oil-gas treatment device is connected with a digitally-controlled oil collecting water distribution valve bank box through a first pipeline; the oil-gas treatment device is connected with a digitally-controlled oil-water boosting metering box through a second pipeline; the oil-gas treatment device is connected with a natural gas drier through a third pipeline; one end of a fourth pipeline is connected with the natural drier, and the other end of the fourth pipeline is connected with the inlet of a fire pipe; one end of a fifth pipeline is communicated with a water outlet pipe, and the other end of the fifth pipeline is communicated with the inlet of a water pipe; one end of a sixth pipeline is communicated with the outlet of the water pipe, and the other end of the sixth pipeline is communicated with a water doping header; and the oil gas treatment device, the digitally-controlled oil-water boosting metering box, the digitally-controlled oil collecting water distribution valve bank box and the natural gas drier are monitored through data transmission. The digital box type fast-assembling oil-gas gathering and transferring system is applied to oil-gas gathering and transferring.

Description

The box fast-assembling oil-gas gathering and transportation system of digitalisation

Technical field

The present invention relates to a kind of petroleum transferring station.

Background technology

The tradition petroleum transferring station is mainly realized crude oil transfer task, the crude oil transfer needs one of four unification composite set, natual gas dehydrate unit one cover, one of profit booster pump room, between oil-collecting water distribution valve group one, one of watch house, stand and come liquid (mixed liquor) to be pooled between the oil-collecting water distribution valve group of petroleum transferring station between outer each oil-collecting valve group, interior four unification composite sets separate through missing the stop, sedimentation, after heating and the buffering, isolated oil enters the profit booster pump room through the output pump supercharging, outer defeated flow counter metering back is outer defeated, isolated accompanying gas is after the natual gas dehydrate unit dehydration, be transported to the heating furnace place and act as a fuel, isolated water enters the profit booster pump room and do water mixing usefulness outside the station between oil-collecting valve group through getting back between oil-collecting water distribution valve group after the supercharging of water mixing pump.Though above-mentioned petroleum transferring station can be finished oil gas transfer task, owing to need supporting equipment, facility many, the interior pipe network complexity of stand causes that the petroleum transferring station floor area is big, operating personal is many, operating cost is high, and the equipment that can reuse is few, poor for applicability; Simultaneously, four unification composite sets can only be finished buffering, heating, sedimentation, four functions of separation, and artificial recharge is adopted in the moisturizing during four unification composite set operations, and rate of water make-up is wayward, and artificial recharge has also increased productive costs.

Summary of the invention

The objective of the invention is in order to solve between traditional petroleum transferring station needs four one of composite set of unification, natual gas dehydrate unit one cover, one of profit booster pump room, oil-collecting water distribution valve group one of one, watch house, cause supporting equipment, facility many, stand in the pipe network complexity, floor area is big, operating personal is many, operating cost is high, and artificial recharge is adopted in the operation moisturizing of four unification composite sets, the uppity problem of rate of water make-up provides a kind of digitalisation box fast-assembling oil-gas gathering and transportation system.

Apparatus of the present invention comprise the oil gas processing equipment, numerical control profit booster pressure gauge measuring tank, numerical control oil-collecting water distribution valve block, the natural fuels dryer, the skid firing sector, first pipeline, second pipeline, the 3rd pipeline, the 4th pipeline, the 5th pipeline, the 6th pipeline and master control room, described skid firing sector is arranged on the fire tube inflow point on the oil gas processing equipment, one end of first pipeline is communicated with inlet on the oil gas processing equipment, the other end of first pipeline is communicated with oil-collecting header on the numerical control oil-collecting water distribution valve block, one end of second pipeline is communicated with oil outlet pipe on the oil gas processing equipment, the import of the oil pipe on the other end of second pipeline and the numerical control profit booster pressure gauge measuring tank is communicated with, gas outlet on one end of the 3rd pipeline and the oil gas processing equipment is communicated with, the 3rd pipeline other end is connected with the import of natural fuels dryer, one end of the 4th pipeline is connected with the outlet of natural fuels dryer, the other end of the 4th pipeline is connected with fire tube import on the oil gas processing equipment, one end of the 5th pipeline is communicated with coolant outlet pipe on the oil gas processing equipment, the other end of the 5th pipeline is communicated with water pipe import on the numerical control profit booster pressure gauge measuring tank, one end of the 6th pipeline is communicated with pipe outlet on the numerical control profit booster pressure gauge measuring tank, the other end of the 6th pipeline is communicated with water mixing header on the numerical control oil-collecting water distribution valve block, bringing-up section in the oil gas processing equipment, settling section, the liquid level indication of segregation section and surge tank, the fluid temperature indication, the pressure indication, the smoke pipe exhaust temperature is all monitored by data transmission to master control room, water compensating valve on the oil gas processing equipment is controlled by data transmission to master control room, the front and back pressure of pressure and oil pump before and after the water pump on the numerical control profit booster pressure gauge measuring tank, the temperature out pressure of oil pipe, the temperature out pressure of water pipe, oil flow counter and water mixing flow counter are all monitored the oil-collecting header on the numerical control oil-collecting water distribution valve block by data transmission to master control room, the water mixing header, oil-collecting is in charge of temperature and the pressure be in charge of with water mixing and is all monitored by data transmission to master control room.

The present invention compared with prior art has following beneficial effect:

Oil gas processing equipment 1 in the box fast-assembling oil-gas gathering and transportation system of digitalisation of the present invention has replaced four unification oil gas processing equipment, oil gas processing equipment 1 is a horizontal pressure vessel, directly handle from being transported to profit gas mixing material in the petroleum transferring station by collector tubing between production wellhead or oil-collecting valve group, has buffering simultaneously, heating, sedimentation, separate, five functions of balance, be the core processing equipment of petroleum transferring station, after external mixed liquor access to plant is handled, natural fuels is directly separated, dry back supplying apparatus self uses, profit obtains initial gross separation and heating in heating and settling section, crude oil can be directly outer defeated then, water is returned between well head or valve group by the water mixing pump again and is reused as the oil transportation carrier, in the device normal operation, come liquid all outer after treatment defeated, self each section liquid level keeps balance, if come liquid and contain water unstable, in the time of may causing liquid level in debt, can pass through the surge tank automatic water supplement, guarantee system stability production.Numerical control profit booster pressure gauge measuring tank 2 in the box fast-assembling oil-gas gathering and transportation system of digitalisation of the present invention has replaced the technology between profit pump house and calibrate valve group and the function in worker-house in traditional petroleum transferring station, can realize that outer output oil supercharging, water mixing supercharging, crude oil exporting measure, the function of water mixing flow metering by a cover process equipment that all is integrated in the metering casing 2-1, and all manufacturing parameters are controlled by digital monitoring and apparatus remote all.Numerical control oil-collecting water distribution valve block 3 in the box fast-assembling oil-gas gathering and transportation system of digitalisation of the present invention has replaced in traditional petroleum transferring station between the oil-collecting water distribution valve group in the oil-gas gathering and transferring technology, case is outer can to connect each production wellhead by collecting line, integrated oil-collecting water distribution technology valve group in the case, realized water mixing distribution, oil-collecting production function, and all manufacturing parameters are controlled by digital monitoring and apparatus remote all.Therefore, supporting equipment of the present invention, facility are few, and pipe network is simple in standing, floor area is little, operating personal is few, operation and construction cost are low.

Description of drawings

Fig. 1 is an integral structure scheme drawing of the present invention, and Fig. 2 is the integral structure master cutaway view of oil gas processing equipment 1, Fig. 3 be the B of Fig. 2 to view, Fig. 4 be the A of Fig. 2 to view, Fig. 5 is the structural representation of numerical control profit booster pressure gauge measuring tank 2.

The specific embodiment

The specific embodiment one: present embodiment is described in conjunction with Fig. 1～Fig. 5, present embodiment comprises oil gas processing equipment 1, numerical control profit booster pressure gauge measuring tank 2, numerical control oil-collecting water distribution valve block 3, natural fuels dryer 4, skid firing sector 5, first pipeline 6, second pipeline 7, the 3rd pipeline 8, the 4th pipeline 9, the 5th pipeline 10, the 6th pipeline 11 and master control room 12, described skid firing sector 5 is arranged on the fire tube import 1-11-1 place on the oil gas processing equipment 1, one end of first pipeline 6 is communicated with inlet 1-1-1 on the oil gas processing equipment 1, the other end of first pipeline 6 is communicated with oil-collecting header 3-1 on the numerical control oil-collecting water distribution valve block 3, one end of second pipeline 7 is communicated with oil outlet pipe 1-7 on the oil gas processing equipment 1, the import of oil pipe 2-7 on the other end of second pipeline 7 and the numerical control profit booster pressure gauge measuring tank 2 is communicated with, gas outlet 1-1-2 on one end of the 3rd pipeline 8 and the oil gas processing equipment 1 is communicated with, the 3rd pipeline 8 other ends are connected with the import of natural fuels dryer 4, one end of the 4th pipeline 9 is connected with the outlet of natural fuels dryer 4, the other end of the 4th pipeline 9 is connected with fire tube import 1-11-1 on the oil gas processing equipment 1, one end of the 5th pipeline 10 is communicated with coolant outlet pipe 1-8 on the oil gas processing equipment 1, the other end of the 5th pipeline 10 is communicated with water pipe 2-8 import on the numerical control profit booster pressure gauge measuring tank 2, water pipe 2-8 outlet on one end of the 6th pipeline 11 and the numerical control profit booster pressure gauge measuring tank 2 is communicated with, the other end of the 6th pipeline 11 is communicated with water mixing header 3-2 on the numerical control oil-collecting water distribution valve block 3, bringing-up section M in the oil gas processing equipment 1, settling section N, the liquid level indication of segregation section P and surge tank 1-16, the fluid temperature indication, the pressure indication, all (data transfer mode comprises cable transmission to the smoke pipe exhaust temperature by data transmission, wireless bridge, GPRS) monitor to master control room 12, water compensating valve 1-19 on the oil gas processing equipment 1 controls by data transmission to master control room 12, the front and back pressure of pressure and oil pump 2-5 before and after the water pump 2-4 on the numerical control profit booster pressure gauge measuring tank 2, the temperature out pressure of oil pipe 2-7, the temperature out pressure of water pipe 2-8, all (data transfer mode comprises cable transmission by data transmission for oil flow counter 2-3 and water mixing flow counter 2-6, wireless bridge, GPRS) monitor to master control room 12, each by-pass valve control on the numerical control profit booster pressure gauge measuring tank 2, the unlatching of water pump 2-4 and oil pump 2-5, close and regulate all and control by data transmission to master control room 12, oil-collecting header 3-1 on the numerical control oil-collecting water distribution valve block 3, water mixing header 3-2, oil-collecting is in charge of 3-3 and water mixing and is in charge of the temperature of 3-4 and pressure all (data transfer mode comprises cable transmission by data transmission, wireless bridge, GPRS) monitor the unlatching of each by-pass valve control on the numerical control oil-collecting water distribution valve block 3 to master control room 12, close and regulate all and control by data transmission to master control room 12.

The specific embodiment two: present embodiment is described in conjunction with Fig. 2～Fig. 4, the oil gas processing equipment 1 of present embodiment comprises tank body 1-1, the first dividing plate 1-2, second partition 1-3, the 3rd dividing plate 1-4, the 4th dividing plate 1-5, collection tank 1-6, oil outlet pipe 1-7, coolant outlet pipe 1-8, but weir transfer pipe 1-9, but weir transfer tube valve 1-10, fire tube 1-11, smoke pipe 1-12, chimney 1-13, main gas equalizing pipe 1-14, surge tank 1-16, secondary gas equalizing pipe 1-17, filling pipe 1-18, water compensating valve 1-19, buffering weir plate 1-22, mill weir pipe 1-23 and two fuel(l)ing oil hose 1-20, described first dividing plate 1-2 and second partition 1-3 are arranged in the tank body 1-1 along the cross-sectional direction of tank body 1-1 successively, cavity between the first dividing plate 1-2 and the tank body 1-1 inwall is bringing-up section M, cavity between the first dividing plate 1-2 and the second partition 1-3 is settling section N, cavity between second partition 1-3 and the tank body 1-1 inwall is segregation section P, bringing-up section M all communicates with the top of segregation section P with top and settling section N between the settling section N, the first dividing plate 1-2 and second partition 1-3 all run through both sides inwall and the base plate of tank body 1-1, the 3rd dividing plate 1-4 and second partition 1-3 are set in parallel in segregation section P, and the end of the 3rd dividing plate 1-4 is positioned at tank body 1-1 longitudinal centerline place, the inwall corresponding position of the 3rd dividing plate 1-4 and tank body 1-1 is all affixed with tank body 1-1, the 4th dividing plate 1-5 is arranged on segregation section P and overlaps with tank body 1-1 longitudinal centerline, the end of the 4th dividing plate 1-5 is connected with the 3rd dividing plate 1-4, the other end of the 4th dividing plate 1-5 and tank body 1-1 inwall are affixed, the 3rd dividing plate 1-4, the chamber that the 4th dividing plate 1-5 and tank body 1-1 surround is the P-1 of grease chamber, second partition 1-3, the 3rd dividing plate 1-4, the chamber that the 4th dividing plate 1-5 and tank body 1-1 surround is hydroecium P-2, collection tank 1-6 is packed on the 3rd dividing plate 1-4 and the second partition 1-3, oil outlet pipe 1-7 is arranged among the P-1 of grease chamber, the end of oil outlet pipe 1-7 is positioned at the bottom of the P-1 of grease chamber, the other end of oil outlet pipe 1-7 is exposed at the outside of tank body 1-1 mouth outward, coolant outlet pipe 1-8 is arranged among the hydroecium P-2, the end of coolant outlet pipe 1-8 is positioned at the bottom of hydroecium P-2, the other end of coolant outlet pipe 1-8 is exposed at the outside of tank body 1-1 mouth outward, but the end of weir transfer pipe 1-9 is positioned at the bottom of settling section N, but but the other end of weir transfer pipe 1-9 is positioned at the top of hydroecium P-2 and is connected with weir transfer tube valve 1-10, but weir transfer tube valve 1-10 is packed on the sidewall of tank body 1-1, two fire tube 1-11 are set in parallel in the bottom of bringing-up section M, and the import 1-11-1 of each fire tube 1-11 is positioned at the outside of tank body 1, the end of smoke pipe 1-12 is communicated with fire tube 1-11, the other end of smoke pipe 1-12 is communicated with chimney 1-13, chimney 1-13 is arranged on the outer wall of tank body 1-1, the top of the cooresponding tank body 1-1 of bringing-up section M is provided with inlet 1-1-1, the cooresponding tank body 1-1 of segregation section P top is provided with relief valve connection 1-1-2, the end of main gas equalizing pipe 1-14 is communicated with inlet 1-1-1, the other end of main gas equalizing pipe 1-14 is communicated with settling section N, buffering weir plate 1-22 is arranged on the top of bringing-up section M, and be positioned at the below of inlet 1-1-1, mill weir pipe 1-23 is arranged on the bottom of tank body 1-1, the end of mill weir pipe 1-23 is positioned at bringing-up section M bottom, the other end of mill weir pipe 1-23 is positioned at the bottom of hydroecium P-2, the bottom of surge tank 16 is arranged on the top in the bringing-up section M, and surge tank 16 is packed on the sidewall of tank body 1, the end of secondary gas equalizing pipe 1-17 is communicated with surge tank 1-16 top, the other end of secondary gas equalizing pipe 1-17 is communicated with main gas equalizing pipe 1-14, the end of filling pipe 1-18 is positioned at the bottom of surge tank 1-16 inner chamber, the other end of filling pipe 1-18 is arranged among the surge tank 1-16 external heated section M, water compensating valve 1-19 is connected with filling pipe 1-18 by taking over, water compensating valve 1-19 is used to regulate the water yield of filling pipe 1-18, two fuel(l)ing oil hose 1-20 are set in parallel among the P-1 of grease chamber, and the end of each fuel(l)ing oil hose 1-20 is positioned at the bottom of the P-1 of grease chamber, the other end of each fuel(l)ing oil hose 1-20 is exposed at the outside of tank body 1-1 mouth outward, a fuel(l)ing oil hose 1-20 among two fuel(l)ing oil hose 1-20 is used to collect the crude supply bringing-up section M burning of the P-1 of grease chamber, and another fuel(l)ing oil hose 1-20 among two fuel(l)ing oil hose 1-20 is used for unnecessary fuel is back to the P-1 of grease chamber.Other composition and annexation are identical with the specific embodiment one.

The specific embodiment three: present embodiment is described in conjunction with Fig. 2 and Fig. 4, present embodiment and the specific embodiment two are different is that it also increases heating coil 1-21 is arranged, heating coil 1-21 is arranged on the bottom of tank body 1-1 inner chamber, the water inlet of heating coil 1-21 and water outlet all are arranged on the outside of tank body 1-1, and the temperature and pressure of heating coil 1-21 is all monitored by data transmission (data transfer mode comprises cable transmission, wireless bridge, GPRS) to master control room 12.The water outlet of heating coil 1-21 is connected with the user, and the heat that utilizes bringing-up section M makes the heat of bringing-up section M effectively utilize the heating of the water in the heating coil 1-21.Other composition and annexation are identical with the specific embodiment two.

The specific embodiment four: present embodiment is described in conjunction with Fig. 2, present embodiment and the specific embodiment three are different is that it also increases electric heating tube 1-15 is arranged, electric heating tube 1-15 lays along tank body 1-1 bottom interior wall, the unlatching of electric heating tube 1-15, closes and the heating power of electric heating tube 1-15 is all monitored by data transmission (data transfer mode comprises cable transmission, wireless bridge, GPRS) to master control room 12.In the time maybe can't lighting with the inefficacy of fire tube 1-11 bonded assembly burner section, can start electric heating tube 1-15 by master control room 12, to keep the temperature of system, make system temperature can not descend.Other composition and annexation are identical with the specific embodiment three.

The specific embodiment five: present embodiment is described in conjunction with Fig. 1 and Fig. 5, the numerical control profit booster pressure gauge measuring tank 2 of present embodiment comprises metering casing 2-1, valve 2-2, oil flow counter 2-3, water pump 2-4, oil pump 2-5, water mixing flow counter 2-6, oil pipe 2-7 and water pipe 2-8, oil pipe 2-7 and water pipe 2-8 all are arranged in the metering casing 2-1, and mouth on the oil pipe 2-7 and input end all are positioned at outside the metering casing 2-1, mouth on the water pipe 2-8 and input end all are positioned at outside the metering casing 2-1, oil flow counter 2-3 and oil pump 2-5 are installed on the oil pipe 2-7, and water pump 2-4 and water mixing flow counter 2-6 are installed on the water pipe 2-8.Numerical control profit booster pressure gauge measuring tank 2 has been realized the function of outer output oil supercharging, water mixing supercharging, crude oil exporting metering, water mixing flow metering.Other composition and annexation are identical with the specific embodiment one.

The specific embodiment six: present embodiment is described in conjunction with Fig. 1, the numerical control oil-collecting water distribution valve block 3 of present embodiment comprises oil-collecting header 3-1, water mixing header 3-2, valve block body 3-5,3-3 is in charge of in several oil-collectings, 3-4 and several gates 3-6 are in charge of in several water mixings, oil-collecting header 3-1 and water mixing header 3-2 all are arranged in the valve block body 3-5, and mouth on the water mixing header 3-2 and input end all are positioned at outside the valve block body 3-5, mouth on the oil-collecting header 3-1 and input end all are positioned at outside the valve block body 3-5, several oil-collectings are in charge of 3-3 and all are connected with oil-collecting header 3-1, and each oil-collecting is in charge of 3-3 and is gone up gate 3-6 of installation, several water mixings are in charge of 3-4 and all are connected with water mixing header 3-2, and upward gate 3-6 of installation of 3-4 is in charge of in each water mixing.The function that the 3 water mixing distribution of numerical control oil-collecting water distribution valve block, oil-collecting are produced.Other composition and annexation are identical with the specific embodiment one or five.

Principle of work of the present invention: oil well produced liquid enters after each collecting line is collected to numerical control oil-collecting water distribution valve block 3 that oil gas processing equipment 1 cushions, heating, sedimentation, separation and Balance Treatment, water mixing and oil transportation once are heated to water mixing temperature and outer defeated temperature, oily sewage after the heating enters supercharging in the numerical control profit booster pressure gauge measuring tank 2, water mixing flow counter 2-6 metering back enters each collecting line by numerical control oil-collecting water distribution valve block 3, realizes the water mixing function; Bad oil after the heating is failed outside 2 superchargings of numerical control profit booster pressure gauge measuring tank, oily flow counter 2-3 metering back, so far, has realized the oil-collecting function; When water mixing is not enough, replenish, realize equilibrium function by the surge tank 1-16 in the oil gas processing equipment 1; Accompanying gas drying device 4 treatment and supplied oil gas processing equipment 1 consumable of separating; When the automatic gas-producing quantity not sufficient, can carry out combustion heat supplying with the crude oil that the external pump of system draws in the P-1 of grease chamber, burner section adopts automatic function simultaneously, can realize automatic igniting, temperature control, the not enough auto shut down of tolerance, start electric heating tube 1-15 holding temperature, and can switch the oil fuel system according to instruction, realize that the heat supply of oil gas hybrid fuel guarantees.

Claims (6)

1. box fast-assembling oil-gas gathering and transportation system of digitalisation, it is characterized in that: described system comprises oil gas processing equipment (1), numerical control profit booster pressure gauge measuring tank (2), numerical control oil-collecting water distribution valve block (3), natural fuels dryer (4), skid firing sector (5), first pipeline (6), second pipeline (7), the 3rd pipeline (8), the 4th pipeline (9), the 5th pipeline (10), the 6th pipeline (11) and master control room (12), the fire tube import (1-11-1) that described skid firing sector (5) is arranged on the oil gas processing equipment (1) is located, one end of first pipeline (6) is communicated with inlet (1-1-1) on the oil gas processing equipment (1), the other end of first pipeline (6) is communicated with oil-collecting header (3-1) on the numerical control oil-collecting water distribution valve block (3), one end of second pipeline (7) is communicated with oil outlet pipe (1-7) on the oil gas processing equipment (1), the import of the oil pipe (2-7) on the other end of second pipeline (7) and the numerical control profit booster pressure gauge measuring tank (2) is communicated with, gas outlet (1-1-2) on one end of the 3rd pipeline (8) and the oil gas processing equipment (1) is communicated with, the 3rd pipeline (8) other end is connected with the import of natural fuels dryer (4), one end of the 4th pipeline (9) is connected with the outlet of natural fuels dryer (4), the other end of the 4th pipeline (9) is connected with fire tube import (1-11-1) on the oil gas processing equipment (1), one end of the 5th pipeline (10) is communicated with coolant outlet pipe (1-8) on the oil gas processing equipment (1), the other end of the 5th pipeline (10) is communicated with water pipe (2-8) import on the numerical control profit booster pressure gauge measuring tank (2), water pipe (2-8) outlet on one end of the 6th pipeline (11) and the numerical control profit booster pressure gauge measuring tank (2) is communicated with, the other end of the 6th pipeline (11) is communicated with water mixing header (3-2) on the numerical control oil-collecting water distribution valve block (3), cavity between first dividing plate (1-2) in the oil gas processing equipment (1) and tank body (1-1) inwall is bringing-up section (M), first dividing plate (1-2) and the cavity between the second partition (1-3) in the oil gas processing equipment (1) are settling section (N), cavity between second partition (1-3) in the oil gas processing equipment (1) and tank body (1-1) inwall is segregation section (P), bringing-up section (M) in the oil gas processing equipment (1), settling section (N), the liquid level indication of segregation section (P) and surge tank (1-16), the fluid temperature indication, the pressure indication, the smoke pipe exhaust temperature is all monitored by data transmission to master control room (12), water compensating valve (1-19) on the oil gas processing equipment (1) is controlled by data transmission to master control room (12), the front and back pressure of pressure and oil pump (2-5) before and after the water pump (2-4) on the numerical control profit booster pressure gauge measuring tank (2), the temperature out pressure of oil pipe (2-7), the temperature out pressure of water pipe (2-8), oil flow counter (2-3) and water mixing flow counter (2-6) are all monitored the oil-collecting header (3-1) on the numerical control oil-collecting water distribution valve block (3) to master control room (12) by data transmission, water mixing header (3-2), (3-3) is in charge of in oil-collecting and (3-4) is in charge of in water mixing temperature and pressure are all monitored by data transmission to master control room (12).

2. according to the box fast-assembling oil-gas gathering and transportation system of the described digitalisation of claim 1, it is characterized in that: described oil gas processing equipment (1) comprises tank body (1-1), first dividing plate (1-2), second partition (1-3), the 3rd dividing plate (1-4), the 4th dividing plate (1-5), collection tank (1-6), oil outlet pipe (1-7), coolant outlet pipe (1-8), but weir transfer pipe (1-9), but weir transfer tube valve (1-10), fire tube (1-11), smoke pipe (1-12), chimney (1-13), main gas equalizing pipe (1-14), surge tank (1-16), secondary gas equalizing pipe (1-17), filling pipe (1-18), water compensating valve (1-19), buffering weir plate (1-22), mill weir pipe (1-23) and two fuel(l)ing oil hoses (1-20), described first dividing plate (1-2) and second partition (1-3) are arranged in the tank body (1-1) along the cross-sectional direction of tank body (1-1) successively, cavity between first dividing plate (1-2) and tank body (1-1) inwall is bringing-up section (M), cavity between first dividing plate (1-2) and the second partition (1-3) is settling section (N), cavity between second partition (1-3) and tank body (1-1) inwall is segregation section (P), bringing-up section (M) all communicates with the top of segregation section (P) with top and settling section (N) between the settling section (N), the 3rd dividing plate (1-4) is set in parallel in segregation section (P) with second partition (1-3), and an end of the 3rd dividing plate (1-4) is positioned at tank body (1-1) longitudinal centerline place, the 3rd dividing plate (1-4) is all affixed with tank body (1-1) with the inwall corresponding position of tank body (1-1), the 4th dividing plate (1-5) is arranged on segregation section (P) and overlaps with tank body (1-1) longitudinal centerline, one end of the 4th dividing plate (1-5) is connected with the 3rd dividing plate (1-4), the other end of the 4th dividing plate (1-5) and tank body (1-1) inwall are affixed, the 3rd dividing plate (1-4), the 4th dividing plate (1-5) is grease chamber (P-1) with the chamber that tank body (1-1) surrounds, second partition (1-3), the 3rd dividing plate (1-4), the 4th dividing plate (1-5) is hydroecium (P-2) with the chamber that tank body (1-1) surrounds, collection tank (1-6) is packed on the 3rd dividing plate (1-4) and the second partition (1-3), oil outlet pipe (1-7) is arranged in the grease chamber (P-1), one end of oil outlet pipe (1-7) is positioned at the bottom of grease chamber (P-1), the other end of oil outlet pipe (1-7) is exposed at the outside of tank body (1-1) mouth outward, coolant outlet pipe (1-8) is arranged in the hydroecium (P-2), one end of coolant outlet pipe (1-8) is positioned at the bottom of hydroecium (P-2), the other end of coolant outlet pipe (1-8) is exposed at the outside of tank body (1-1) mouth outward, but an end of weir transfer pipe (1-9) is positioned at the bottom of settling section (N), top but the other end of weir transfer pipe (1-9) is positioned at hydroecium (P-2) also is connected with weir transfer tube valve (1-10), but weir transfer tube valve (1-10) is packed on the sidewall of tank body (1-1), two fire tubes (1-11) are set in parallel in the bottom of bringing-up section (M), and the import (1-11-1) of each fire tube (1-11) is positioned at the outside of tank body (1), one end of smoke pipe (1-12) is communicated with fire tube (1-11), the other end of smoke pipe (1-12) is communicated with chimney (1-13), chimney (1-13) is arranged on the outer wall of tank body (1-1), the top of the cooresponding tank body of bringing-up section (M) (1-1) is provided with inlet (1-1-1), the cooresponding tank body of segregation section (P) (1-1) top is provided with relief valve connection (1-1-2), one end of main gas equalizing pipe (1-14) is communicated with inlet (1-1-1), the other end of main gas equalizing pipe (1-14) is communicated with settling section (N), buffering weir plate (1-22) is arranged on the top of bringing-up section (M), and be positioned at the below of inlet (1-1-1), mill weir pipe (1-23) is arranged on the bottom of tank body (1-1), one end of mill weir pipe (1-23) is positioned at bringing-up section (M) bottom, the other end of mill weir pipe (1-23) is positioned at the bottom of hydroecium (P-2), the bottom of surge tank (16) is arranged on the top in the bringing-up section (M), and surge tank (16) is packed on the sidewall of tank body (1), one end of secondary gas equalizing pipe (1-17) is communicated with surge tank (1-16) top, the other end of secondary gas equalizing pipe (1-17) is communicated with main gas equalizing pipe (1-14), one end of filling pipe (1-18) is positioned at the bottom of surge tank (1-16) inner chamber, the other end of filling pipe (1-18) is arranged in surge tank (1-16) the external heated section (M), water compensating valve (1-19) is connected with filling pipe (1-18) by taking over, two fuel(l)ing oil hoses (1-20) are set in parallel in the grease chamber (P-1), and an end of each fuel(l)ing oil hose (1-20) is positioned at the bottom of grease chamber (P-1), and the other end of each fuel(l)ing oil hose (1-20) is exposed at the outside of tank body (1-1) mouth outward.

3. according to the box fast-assembling oil-gas gathering and transportation system of the described digitalisation of claim 2, it is characterized in that: described oil gas processing equipment (1) also comprises heating coil (1-21), heating coil (1-21) is arranged on the bottom of tank body (1-1) inner chamber, the water inlet of heating coil (1-21) and water outlet all are arranged on the outside of tank body (1-1), and the temperature and pressure of heating coil (1-21) is all monitored by data transmission to master control room (12).

4. according to claim 2 or the box fast-assembling oil-gas gathering and transportation system of 3 described digitalisations, it is characterized in that: described oil gas processing equipment (1) also comprises electric heating tube (1-15), electric heating tube (1-15) is laid along tank body (1-1) bottom interior wall, the unlatching of electric heating tube (1-15), closes and the heating power of electric heating tube (1-15) is all monitored by data transmission to master control room (12).

5. according to the box fast-assembling oil-gas gathering and transportation system of the described digitalisation of claim 1, it is characterized in that: described numerical control profit booster pressure gauge measuring tank (2) comprises metering casing (2-1), valve (2-2), oil flow counter (2-3), water pump (2-4), oil pump (2-5), water mixing flow counter (2-6), oil pipe (2-7) and water pipe (2-8), oil pipe (2-7) and water pipe (2-8) all are arranged in the metering casing (2-1), oil flow counter (2-3) and oil pump (2-5) are installed on the oil pipe (2-7), and water pump (2-4) and water mixing flow counter (2-6) are installed on the water pipe (2-8).

6. according to claim 1 or the box fast-assembling oil-gas gathering and transportation system of 5 described digitalisations, it is characterized in that: described numerical control oil-collecting water distribution valve block (3) comprises oil-collecting header (3-1), water mixing header (3-2), valve block body (3-5), (3-3) is in charge of in several oil-collectings, (3-4) and several gates (3-6) are in charge of in several water mixings, oil-collecting header (3-1) and water mixing header (3-2) all are arranged in the valve block body (3-5), several oil-collectings are in charge of (3-3) and all are connected with oil-collecting header (3-1), and each oil-collecting is in charge of (3-3) and is gone up an installation gate (3-6), several water mixings are in charge of (3-4) and all are connected with water mixing header (3-2), and (3-4) upward installation gate (3-6) is in charge of in each water mixing.

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