CN204165961U - The easy device can analyzed shale organic carbon content - Google Patents

Abstract

The utility model discloses a kind of easy device can analyzed shale organic carbon content, mercury vapour arc lamp tube is provided with in oxidizing chamber, oxidizing chamber is provided with power supply, power supply is connected with mercury vapour arc lamp tube, mercury vapour arc lamp tube is sheathed with coil pipe, coil pipe is connected with draft tube, coil pipe is connected with escape pipe, draft tube is provided with conductivity sensor one, coil pipe is provided with separation vessel, separation vessel and coil pipe, escape pipe one is communicated with liquid line, liquid line is provided with conductivity sensor two, escape pipe one is provided with resistivity sensor, resistivity sensor is connected with control box, conductivity sensor one and conductivity sensor two are connected with data display equipment and buzzer siren, data display equipment is connected with control box with buzzer siren.Carbon, by carrying out mixed water process to shale gas, is separated after utilizing high-strength ultraviolet oxidation processes and finally measures, organic carbon content is measured accurately, be conducive to the content judging organic carbon in shale gas by this device.

Description

The easy device can analyzed shale organic carbon content

Technical field

The utility model relates to a kind of device, especially relates to a kind of easy device can analyzed shale organic carbon content.

Background technology

Shale gas composes to be stored in rich organic mud shale and interlayer thereof, and be the Unconventional forage of main existing way to adsorb with free state, composition, based on methane, belongs to a class together with " coal-seam gas ", " tight gas ".The formation of shale gas and enrichment have the feature of self uniqueness, are often distributed in larger, the widespread shale hydrocarbon source rock formation of thickness in basin.Shale gas very early by people cognition, but gather than conventional natural gas difficulty, along with energy resource is day by day deficient, as the useful supplement of conventional natural gas, people recognize the importance of shale gas gradually.Shale gas is present in kerogen, clay particle and pore surface with adsorbed state (about 50%), minute quantity is stored in rock gas in kerogen, bituminous matter and oil with dissolved state and is also present in the siltstone of sandwich-like, silty, pelitic siltstone, even sandstone formation for after rock gas generates, gathering nearby in source bed shows as typical original place Reservoir model, larger with difference such as resinous shale, oil-sand, pitch earth.Different from conventional reservoir gas reservoir, shale is the source rock that rock gas generates, and is also reservoir and the cap rock of assembling and preserve rock gas.Therefore the black shale that the content of organic matter is high, high-carbon mud stone etc. are often best shale gas developmental conditions.

Shale also belongs to compacted rock, therefore also can be included into tight gas reservoir gas.It originates in the Devonian system shale in A Balaqiya basin, is crineous and black, rich organic, can be angry in a large number.Reservoir space is main with crack and adsorbed gas and Water Soluble Gas form can composes and deposit, and being that low (bear) presses, low saturation (about 30%), is thus low yield.But can obtain high yield at Fractured Zone, the modification measures such as well-shoot and pressure break effect might as well.Shale gas exploitation has the advantage that production life of well is long and the production cycle is long---and most of aerogenesis shale has a very wide distribution, thickness large, and general gassiness, make shale gas well can stablize aerogenesis chronically.But shale gas permeability of reservoir is low, exploitation difficulty is larger.Along with constantly riseing of world energy sources consumption, the unconventional energy resource comprising shale gas more and more comes into one's own.The states such as America & Canada have realized shale gas commercial development.In past 10 years, shale gas has become a kind of natural gas source become more and more important of the U.S., have also been obtained the extensive concern of whole world other countries simultaneously.2000, U.S.'s shale gas output only accounted for 1% of rock gas total amount; And by 2010, because the development of the technology such as waterfrac treatment, lateral drilling, the proportion shared by shale gas was more than 20%.In shale gas, the number of organic carbon content is an important indicator to shale gas quality judging, and the apparatus structure that tradition is analyzed shale gas organic carbon content is complicated, and error rate is large, the judgement for the shale gas quality generated and content brings very large trouble.

Utility model content

The purpose of this utility model is to overcome the above-mentioned existing apparatus structure complexity analyzed shale organic carbon content, and error rate is large, the shale gas quality of generation and the judgement of content are brought to the problem of very burden, devise a kind of easy device can analyzed shale organic carbon content, this device is by carrying out mixed water process to shale gas, after utilizing high-strength ultraviolet oxidation processes, carbon is separated and finally measures, organic carbon content is made to measure accurately, be conducive to the content judging organic carbon in shale gas, solve the existing apparatus structure complexity that shale organic carbon content is analyzed, and error rate is large, the shale gas quality of generation and the judgement of content are brought to the problem of very burden.

The purpose of this utility model is achieved through the following technical solutions: the easy device can analyzed shale organic carbon content, comprise the oxidizing chamber of inner hollow, mercury vapour arc lamp tube is provided with in described oxidizing chamber, the outer setting of oxidizing chamber has power supply, power supply is connected with mercury vapour arc lamp tube, the outer wall of mercury vapour arc lamp tube is sheathed with inner hollow and the coil pipe of both ends open, oxidizing chamber is all stretched out in the two ends of coil pipe, wherein one end is connected with draft tube, the other end is connected with escape pipe, draft tube is provided with conductivity sensor one, and conductivity sensor one is communicated with draft tube, escape pipe comprises the escape pipe one and liquid line that are interconnected, escape pipe one and liquid line are communicated with coil pipe all simultaneously, the position that coil pipe is communicated with escape pipe is provided with separation vessel, separation vessel simultaneously and coil pipe, escape pipe one is communicated with liquid line, and separation vessel is arranged on oxidizing chamber outside, liquid line is provided with conductivity sensor two, conductivity sensor two is communicated with liquid line inside, escape pipe one is provided with resistivity sensor, resistivity sensor is communicated with escape pipe one inside, resistivity sensor is connected with control box, control box is connected with conductivity sensor one and conductivity sensor two simultaneously, conductivity sensor one and conductivity sensor two are all connected with data display equipment and buzzer siren, and data display equipment is all connected with control box with buzzer siren.

Described escape pipe one is provided with flowmeter one and flowrate control valve one, flowmeter one is all communicated with escape pipe one with flowrate control valve one, and flowrate control valve one is arranged between resistivity sensor and flowmeter one.

Described liquid line is provided with flowmeter two, flowrate control valve two and TOC analyser, and flowmeter two, flowrate control valve two and TOC analyser are all communicated with liquid line, flowrate control valve two is arranged between flowmeter two and TOC analyser, and flowmeter two is arranged between flowrate control valve two and conductivity sensor two.

Described draft tube is provided with pressure controller and tensimeter, and pressure controller is all communicated with draft tube with tensimeter, tensimeter is arranged between pressure controller and oxidizing chamber.

In sum, the beneficial effects of the utility model are: this device is by carrying out mixed water process to shale gas, after utilizing high-strength ultraviolet oxidation processes, carbon is separated and finally measures, organic carbon content is made to measure accurately, be conducive to the content judging organic carbon in shale gas, solve the existing apparatus structure complexity that shale organic carbon content is analyzed, and error rate is large, the shale gas quality of generation and the judgement of content is brought to the problem of very burden.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Mark and corresponding parts title in accompanying drawing: 1-draft tube; 2-conductivity sensor one; 3-mercury vapour arc lamp tube; 4-oxidizing chamber; 5-power supply; 6-coil pipe; 7-liquid line; 8-flowmeter two; 9-flowrate control valve two; 10-TOC analyser; 11-escape pipe one; 12-buzzer siren; 13-data display equipment; 14-control box; 15-flowmeter one; 16-conductivity sensor two; 17-separation vessel; 18-resistivity sensor; 19-pressure controller; 20-tensimeter.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited only to this.

Embodiment 1:

As shown in Figure 1, the easy device can analyzed shale organic carbon content, comprise the oxidizing chamber 4 of inner hollow, mercury vapour arc lamp tube 3 is provided with in described oxidizing chamber 4, the outer setting of oxidizing chamber 4 has power supply 5, power supply 5 is connected with mercury vapour arc lamp tube 3, the outer wall of mercury vapour arc lamp tube 3 is sheathed with inner hollow and the coil pipe 6 of both ends open, oxidizing chamber 4 is all stretched out at the two ends of coil pipe 6, coil pipe 6 one end is connected with draft tube, the other end of coil pipe 6 is connected with escape pipe, draft tube 1 is provided with conductivity sensor 1, and conductivity sensor 1 is communicated with draft tube 1, escape pipe comprises the escape pipe 1 and liquid line 7 that are interconnected, escape pipe 1 and liquid line 7 are communicated with coil pipe 6 all simultaneously, the position that coil pipe 6 is communicated with escape pipe is provided with separation vessel 17, with coil pipe 6 while of separation vessel 17, escape pipe 1 is communicated with liquid line 7, and separation vessel 17 is arranged on oxidizing chamber 4 outside, liquid line 7 is provided with conductivity sensor 2 16, conductivity sensor 2 16 is communicated with liquid line 7 inside, escape pipe 1 is provided with resistivity sensor 18, resistivity sensor 18 is communicated with escape pipe 1 inside, resistivity sensor 18 is connected with control box 14, with conductivity sensor 1 while of control box 14, conductivity sensor 2 16 is connected with resistivity sensor 18, conductivity sensor 1 and resistivity sensor 18 are all connected with data display equipment 13 and buzzer siren 12, and data display equipment 13 is all connected with control box 14 with buzzer siren 12, described liquid line 7 is provided with flowmeter 28, flowrate control valve 29 and TOC analyser 10, and flowmeter 28, flowrate control valve 29 and TOC analyser 10 are all communicated with liquid line 7, flowrate control valve 29 is arranged between flowmeter 28 and TOC analyser 10, and flowmeter 28 is arranged between flowrate control valve 29 and resistivity sensor 18.TOC analyser and total organic carbon analyzer, it is existing structure, pure shale gas and the mixing material of water is passed in draft tube 1, its conductivity is measured through conductivity sensor 1, the information feed back of conductivity is in control box 14, data display equipment 13 shows its numerical value, time outside setting range, buzzer siren 12 is reported to the police, illustrate that shale gas or water treatment are not up to standard, it is normal value that data display equipment 13 shows its numerical value, liquid is in oxidizing chamber 4, when liquid flows through coil pipe, the high-intensity ultraviolet that can be subject to 185nm irradiates, thus be CO by sample oxidation effectively ₂.High-intensity ultraviolet to be switched on power 5 generations by mercury vapour arc lamp tube 3, from oxidizing chamber out after, gas-liquid separation is realized through separation vessel 17, due in oxidizing chamber through longer coil pipe and high-intensity ultraviolet combined action, shale gas in liquid has carried out complete reaction, and the gas that separation vessel 17 obtains after being separated is entirely CO _2,resistance coefficient feeds back in control box 14 by resistivity sensor 18, keeps the condition monitoring to link, by flowmeter 28 and flowrate control valve 29 couples of CO ₂flow control, make it can reach the requirement of TOC analyser 10 amount of analysis, obtain the exact level of organic carbon in shale gas, this device is by carrying out mixed water process to shale gas, after utilizing high-strength ultraviolet oxidation processes, carbon is separated and finally measures, organic carbon content is made to measure accurately, be conducive to the content judging organic carbon in shale gas, solve the existing apparatus structure complexity that shale organic carbon content is analyzed, and error rate is large, the shale gas quality of generation and the judgement of content are brought to the problem of very burden.

Described liquid line 7 is provided with flowmeter 1 and flowrate control valve one, flowmeter 1 is all communicated with liquid line 7 with flowrate control valve one, and flowrate control valve one is arranged between conductivity sensor 2 16 and flowmeter 1.The liquid passed in liquid line 7 is the liquid after separation vessel 17 is separated, and its flow is shown by flowmeter 1, and limits its amount of putting under the effect of flowrate control valve one, is convenient to control pipeline.

Described draft tube 1 is provided with pressure controller 19 and tensimeter 20, and pressure controller 19 is all communicated with draft tube 1 with tensimeter 20, tensimeter 20 is arranged between pressure controller 19 and oxidizing chamber 4.Pressure controller 19 is existing parts, market directly can be bought and obtain, the aqueous solution containing rear shale gas of purifying entered in draft tube 1, therefore the pressure to entering liquid in draft tube 1 is needed to regulate and control, regulated by pressure controller 19, transmit in the force value remaining on designing requirement, make subsequent processes can keep work that is stable and that continue.

The above; it is only preferred embodiment of the present utility model; not any pro forma restriction is done to the utility model; every according to technology of the present utility model, method in fact to any simple modification, equivalent variations that above embodiment is done, all fall within protection domain of the present utility model.

Claims (3)

1. the easy device can analyzed shale organic carbon content, it is characterized in that: the oxidizing chamber (4) comprising inner hollow, mercury vapour arc lamp tube (3) is provided with in described oxidizing chamber (4), the outer setting of oxidizing chamber (4) has power supply (5), power supply (5) is connected with mercury vapour arc lamp tube (3), the outer wall of mercury vapour arc lamp tube (3) is sheathed with inner hollow and the coil pipe of both ends open (6), oxidizing chamber (4) is all stretched out at the two ends of coil pipe (6), coil pipe (6) one end is connected with draft tube (1), the other end of coil pipe (6) is connected with escape pipe, draft tube (1) is provided with conductivity sensor one (2), and conductivity sensor one (2) is communicated with draft tube (1), escape pipe comprises the escape pipe one (11) and liquid line (7) that are interconnected, escape pipe one (11) and liquid line (7) are communicated with coil pipe (6) all simultaneously, the position that coil pipe (6) is communicated with escape pipe is provided with separation vessel (17), with coil pipe (6) while of separation vessel (17), escape pipe one (11) is communicated with liquid line (7), and separation vessel (17) is arranged on oxidizing chamber (4) outside, liquid line (7) is provided with conductivity sensor two (16), conductivity sensor two (16) is communicated with liquid line (7) inside, escape pipe one (11) is provided with resistivity sensor (18), resistivity sensor (18) is communicated with escape pipe one (11) inside, resistivity sensor (18) is connected with control box (14), with conductivity sensor one (2) while of control box (14), conductivity sensor two (16) is connected with resistivity sensor (18), conductivity sensor one (2) and resistivity sensor (18) are all connected with data display equipment (13) and buzzer siren (12), and data display equipment (13) is all connected with control box (14) with buzzer siren (12), described liquid line (7) is provided with flowmeter two (8), flowrate control valve two (9) and TOC analyser (10), and flowmeter two (8), flowrate control valve two (9) and TOC analyser (10) are all communicated with liquid line (7), flowrate control valve two (9) is arranged between flowmeter two (8) and TOC analyser (10), and flowmeter two (8) is arranged between flowrate control valve two (9) and resistivity sensor (18).

2. the easy device can analyzed shale organic carbon content according to claim 1, it is characterized in that: described liquid line (7) is provided with flowmeter one (15) and flowrate control valve one, flowmeter one (15) and flowrate control valve one are all communicated with liquid line (7), and flowrate control valve one is arranged between conductivity sensor two (16) and flowmeter one (15).

3. the easy device can analyzed shale organic carbon content according to claim 1, it is characterized in that: described draft tube (1) is provided with pressure controller (19) and tensimeter (20), and pressure controller (19) is all communicated with draft tube (1) with tensimeter (20), tensimeter (20) is arranged between pressure controller (19) and oxidizing chamber (4).