CN203824974U - Universal online multidimensional gas chromatography device for low-carbon catalytic conversion reaction - Google Patents

Abstract

The utility model discloses a universal online multidimensional gas chromatography device for a low-carbon catalytic conversion reaction. A high-temperature gas sampling valve, two ten-way valves and a six-way valve are combined to complete automatic real-time sampling for high-temperature gas in three channels in the reaction process; automatic sampling of the channel of a hydrogen flame ionization detector can be realized by switching the six-way valve; the sampling and the reverse-blowing operation of the channels of two thermal conductivity detectors can be realized by the two ten-way valves; the permanent gases, the saturated hydrocarbon, the olefin, the aromatic hydrocarbon and the like can be separated by combining chromatographic columns with different characteristics and switching the three independent separation channels and the chromatographic columns. After the universal online multidimensional gas chromatography device is used, the functions of online continuous analysis, automatic sampling, sample injection, reverse blowing of samples, chromatographic column switching, sampling pipeline purging and the like can be realized. The universal online multidimensional gas chromatography device for the low-carbon catalytic conversion reaction can be used for analyzing various high-temperature reactants and product gases in an online way at the same time in the low-carbon catalytic conversion reaction process.

Description

The online multidimensional gas chromatographic analytical equipment that low-carbon (LC) catalytic conversion reaction is general

Technical field

The utility model relates to gas composition analytical equipment, particularly the general online multidimensional gas chromatographic analytical equipment of a kind of low-carbon (LC) catalytic conversion reaction.

Background technology

Low-carbon (LC) catalytic conversion reaction is the important channel of carbon resource high-efficiency comprehensive utilization and raising added value, may relate in this course the reaction such as alkene, aromizing of low-carbon (LC), because of raw material difference, course of reaction intermediate product and target product are complicated, component concentration difference is large, traditional analytical approach adopts the separated mode detecting of the rear off-line of sampling more, be difficult to grasp accurately the real-time change of component in course of reaction, because temperature, pressure changes, also there is larger error in component quantitative test, cannot realize on-line analysis and detect.

In recent years, development along with gas chromatographic technique, substantially solved the difficulty for the permanent gases in a certain class application-specific or hydrocarbon gas analysis, but the application model of this customization is but faced with the problem of very flexible all the time, especially for the on-line analysis of low-carbon (LC) catalytic conversion reaction process, each component concentration range before and after reaction changes disaster and quantitatively detects, raw material and product physics and chemistry nature difference make greatly single compatibility of column poor, object is separated with the similar difficulty of accessory substance character, therefore, often adopt many gas chromatographies to carry out analyzing and testing to a plurality of components in a course of reaction simultaneously, complex operation so not only, and easily cause quantitatively inaccurate.

To permanent gases, analysis adopts packed column to carry out separation to prior art more, conventional have molecular sieve 5X or 13X packed column and coating polymer microsphere packed column combine, adopt valve switching mode to detect at single TCD or double T CD, if but will analyze hydro carbons simultaneously, especially lighter hydrocarbons and aromatic hydrocarbons are carried out to total analysis more difficult, be because higher carbon number hydrocarbon class is liquid at normal temperatures on the one hand, and permanent gases and lighter hydrocarbons are gas under normal temperature, the more difficult realization of liquid state separation simultaneously; On the other hand, separated even if permanent gases and hydro carbons have been realized by sample introduction repeatedly, but cannot realize normalized quantitatively.Although there is bibliographical information (Li Xiaoguo, Zhang Xiaotong, Gui Jianzhou etc. the research of the light-hydrocarbon aromatized product of multidimensional gas chromatographic on-line analysis. petrochemical complex Journal of Chinese Universities, 2004,17 (2), 6-8.) adopt valve to switch three capillary posts, the light-hydrocarbon aromatized product of multidimensional gas chromatographic on-line analysis of TCD/FID dual-detector, but these apparatus and method cannot comprise to most permanent gases except methane the analysis of helium, oxygen, nitrogen, carbon monoxide, carbon dioxide, sulfuretted hydrogen etc.

External numerous analytical instrument company tries hard to recommend out on-line analysis system and the solution based on gas chromatography towards catalytic reaction process, but at present still in the exploratory stage, gas on-line analysis system still be take microminiaturized integrated sensor type detecting device as main, easily produce tired memory phenomenon, aspect detection sensitivity and stability, cannot reach the level of gas chromatography.Therefore present stage still lacks a kind of general on-line analysis device for the monitoring analysis of low-carbon (LC) catalytic conversion reaction process.

Utility model content

For solving the simultaneously on-line quantitative analysis permanent gases that exists in above-mentioned prior art and the problem of various hydrocarbon gas, the utility model aims to provide the general online multidimensional gas chromatographic analytical equipment of a kind of low-carbon (LC) catalytic conversion reaction, adopt pot strainer and high temperature sampling valve to complete automatic sampling, utilize multiport valve to switch the multidimensional gas chromatographic analytic approach of sample feeding and component blowback, the continuous while on-line analysis that realizes various permanent gas in low-carbon (LC) catalytic conversion reaction process and hydrocarbon gas detects.

The utility model is achieved through the following technical solutions:

The on-line analysis device that a kind of low-carbon (LC) catalytic conversion reaction is general, comprise sampling apparatus, carrier gas system, sampling system, piece-rate system and detection system, sampling system at least comprises three quantity tubes, two ten-way valves and a six-way valve, the port of ten-way valve and six-way valve is label in the direction of the clock all, is followed successively by respectively port one to port ten, port one to port six; Piece-rate system at least comprises six roots of sensation chromatographic column and a six-way valve, and detection system at least comprises three detecting devices.

Wherein, the port three of the first ten-way valve is connected with the outlet side of sampling apparatus, and the port two of the first ten-way valve is connected with the port three of the second ten-way valve, and the port two of the second ten-way valve is connected with the port three of the first six-way valve.

Between the port one of the first ten-way valve and port four, be connected with the first quantity tube, between the port five of the first ten-way valve and port nine, be connected with the first chromatographic column; Second chromatographic column of connecting between the port eight of the first ten-way valve and the port three of the second six-way valve.

Between the port four of the second six-way valve and port five, be connected with the 3rd chromatographic column, between the port one of the second six-way valve and port two, be connected with damper tube, the port six of the second six-way valve connects detecting device one.

Between the port one of the second ten-way valve and port four, be connected with the second quantity tube, between the port five of the second ten-way valve and port nine, be connected with the 4th chromatographic column, between the port eight of the second ten-way valve and detecting device two, be connected with the 5th chromatographic column.

Between the port one of the first six-way valve and port four, be connected with the 3rd quantity tube, between the port six of the first six-way valve and detecting device three, be connected with chromatographic column six.

Carrier gas system comprises two kinds of carrier gas and five gas circuits, and the first carrier gas is connected with port ten with the port seven of the first ten-way valve respectively by source of the gas, by port six emptying of detecting device one and the first ten-way valve; The second carrier gas is connected with the port five of port ten, the first six-way valve with the port seven of the second ten-way valve respectively by source of the gas, by port two emptying of port six and first six-way valve of detecting device two, the second ten-way valve.

Further, detecting device one is the first thermal conductivity detector (TCD), and detecting device two is the second thermal conductivity detector (TCD), and detecting device three is flame ionization ditector.Wherein, the first chromatographic column and the 4th chromatographic column are selected stainless stee l packed column Porapak N or Porapak Q or Hayesep N or Hayesep Q, 1 meter of column length, and 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The second chromatographic column and the 5th chromatographic column are selected stainless stee l packed column Porapak Q or Porapak N or Hayesep Q or Hayesep N, 1 meter of column length, and 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The 3rd chromatographic column is selected stainless stee l packed column, 2 meters of column lengths, and 2 millimeters of internal diameters, filler is 60-80 order 5A or 13X molecular sieve; The 6th chromatographic column is selected PLOT-alundum (Al2O3) capillary column, 10 ~ 30 meters of column lengths, 0.32 millimeter of internal diameter.

Further, between the first six-way valve port six and the 6th chromatographic column, be also connected with a Liquid sample introduction mouth, described Liquid sample introduction mouth is controlled automatic injection sample introduction by injector by manual or computer program.Select capillary column GS-Gaspro or CP-PoraPLOT Q or CP PoraPLOT Q-HT or CP-PoraBOND Q, 10 ~ 50 meters of column lengths, 0.32 millimeter of internal diameter with the 6th chromatographic column that Liquid sample introduction mouth is used in conjunction with; Or select polysiloxane capillary chromatographic column DB-1 or PONA post or similar gas chromatographic column, column's length is 15 ~ 60 meters, 0.32 millimeter of internal diameter.

Further, sampling apparatus comprises pot strainer and high-temperature gas sampling valve, and described high-temperature gas sampling valve is four two-port valves, and four ports are label in the direction of the clock, is followed successively by port one to port four; The inlet end of described pot strainer is connected with external reaction device, outlet side is connected with the port one of high-temperature gas sampling valve, the port four of high-temperature gas sampling valve is connected with the port three of the first ten-way valve, and the port two of high-temperature gas sampling valve and port three carry out blind plugging.

Further, the utility model also comprises heat-insulation system, described heat-insulation system comprises high temperature clack box that can independent temperature control, column oven and Automatic-heating warm-keeping material that can temperature programmed control, described high-temperature gas sampling valve, ten-way valve, six-way valve are all placed in high temperature clack box that can independent temperature control, described column oven is provided with two, be respectively the first column oven and the second column oven, wherein the first to the 5th chromatographic column is arranged in the first column oven, the 6th chromatographic column is arranged in the second column oven, and the sample delivery pipeline outside in automatic sampling system is all surrounded by Automatic-heating warm-keeping material.

Further, the first carrier gas is high-purity hydrogen, and the second carrier gas is high pure nitrogen.

Further, the utility model also comprises external time control device, data processing module and LAN module.

The utility model adopts pot strainer and high temperature sampling valve to complete automatic sampling, utilize multiport valve to switch the multidimensional gas chromatographic analytic approach of sample feeding and component blowback, the continuous while on-line analysis that utilizes thermal conductivity detector (TCD) and flame ionization ditector to realize various permanent gas in low-carbon (LC) catalytic conversion reaction process and hydrocarbon gas detects.

Accompanying drawing explanation

Fig. 1 is that under the utility model sample states, high-temperature gas sampling valve is opened, the structural representation that other valves cut out;

Fig. 2 is the structural representation that under the utility model sample introduction state, high-temperature gas sampling valve cuts out, ten-way valve and the first six-way valve are opened, the second six-way valve cuts out;

Fig. 3 be under the utility model blowback state high-temperature gas sampling valve close, ten-way valve and the second six-way valve cuts out, the first six-way valve is opened structural representation;

Fig. 4 is high-temperature gas sampling valve and ten-way valve is closed, six-way valve is opened structural representation under the utility model released state;

Fig. 5 is the structural representation that high-temperature gas sampling valve under the utility model released state, ten-way valve and the second six-way valve are closed, the first six-way valve is opened;

Fig. 6 is the structural representation of each valve Close All after the separation of the utility model one-period finishes.

Wherein, a: pot strainer; B: high-temperature gas sampling valve; C1: the first ten-way valve; C2: the second ten-way valve; D1: the first six-way valve: d2: the second six-way valve; E1: the first quantity tube; E2: the second quantity tube; E3: the 3rd quantity tube; F1: the first chromatographic column; F2: the second chromatographic column; F3: the 3rd chromatographic column; F4: the 4th chromatographic column; F5: the 5th chromatographic column; F6: the 6th chromatographic column; H1: the first column oven; H2: the second column oven; TCD A: the first thermal conductivity detector (TCD); TCD B: the second thermal conductivity detector (TCD); FID: flame ionization ditector; EPC1: the first pressure and flow controller; EPC2: the second pressure and flow controller; EPC3: the 3rd pressure and flow controller; AUX1: the first aux. pressure flow controller; AUX2: the second aux. pressure flow controller; N: damper tube; S: Liquid sample introduction mouth.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated.

As shown in Fig. 1 ~ 6, the on-line analysis device that a kind of low-carbon (LC) catalytic conversion reaction is general, comprise sampling apparatus, carrier gas system, sampling system, piece-rate system and detection system, sampling system at least comprises three quantity tubes, two ten-way valves and a six-way valve, the port of ten-way valve and six-way valve is label in the direction of the clock all, is followed successively by respectively port one to port ten, port one to port six; Piece-rate system at least comprises six roots of sensation chromatographic column and a six-way valve, and detection system at least comprises three detecting devices.The syndeton of piece-rate system and detection system belongs to common practise, does not just describe one by one here.

Wherein, the port three of the first ten-way valve c1 is connected with the outlet side of sampling apparatus, and the port two of the first ten-way valve c1 is connected with the port three of the second ten-way valve c2, and the port two of the second ten-way valve c2 is connected with the port three of the first six-way valve d1.

Between the port one of the first ten-way valve c1 and port four, be connected with the first quantity tube e1, between the port five of the first ten-way valve c1 and port nine, be connected with the first chromatographic column f1; The second chromatographic column f2 connects between the port eight of the first ten-way valve c1 and the port three of the second six-way valve d2.

Between the port four of the second six-way valve d2 and port five, be connected with the 3rd chromatographic column f3, between the port one of the second six-way valve d2 and port two, be connected with damper tube n, the port six of the second six-way valve d2 connects detecting device one.This is the first passage of gas separation.

Between the port one of the second ten-way valve c2 and port four, be connected with the second quantity tube e2, between the port five of the second ten-way valve c2 and port nine, be connected with the 4th chromatographic column f4, between the port eight of the second ten-way valve c2 and detecting device two, be connected with the 5th chromatographic column f5.This is the second channel of gas separation.

Between the port one of the first six-way valve d1 and port four, be connected with the 3rd quantity tube e3, between the port six of the first six-way valve d1 and detecting device three, be connected with the 6th chromatographic column f6.This is the third channel of gas separation.

Passage one and passage two are furnished with respectively two chromatographic columns: the first chromatographic column f1, the second chromatographic column f2 and the 4th chromatographic column f4, the 5th chromatographic column f5, and for realizing the blowback of heavy hydrocarbon component.In addition, damper tube n can reduce the pressure surge of gas, and allow carbon dioxide directly to enter detecting device one without the 3rd chromatographic column f3 to detect, avoid carbon dioxide to be adsorbed by the 3rd chromatographic column f3, other gas compositions enter successively detecting device one after the 3rd chromatographic column f3 carries out separation.

Sampling apparatus comprises pot strainer a and high-temperature gas sampling valve b, and wherein, pot strainer a filters gas reactant or product, and high-temperature gas sampling valve b is four two-port valves, and four ports are label in the direction of the clock, is followed successively by port one to port four; The inlet end of pot strainer a is connected with external reaction device, outlet side is connected with the port one of high-temperature gas sampling valve b, the port four of high-temperature gas sampling valve b is connected with the port three of the first ten-way valve c1, and the port two of high-temperature gas sampling valve b and port three carry out blind plugging.

Meanwhile, carrier gas system comprises two kinds of carrier gas and five gas circuits, by pressure gas cylinder or gas generator, as source of the gas, is supplied with, and by pressure and flow controller analytical cycle and condition as required, determines concrete pressure and flow.Pressure flow hybrid control can regulate pressure and the flow of controlling gas accurately, makes it keep steady state (SS), guarantees the reappearance of analysis result.The gas circuit one of the first carrier gas is entered by the port ten of the first ten-way valve c1 after the first pressure and flow controller EPC1 regulates, and enters port five, finally by port six emptying through port nine; The gas circuit two of the first carrier gas is entered by the port seven of the first ten-way valve c1 after the first aux. pressure flow controller AUX1 regulates, through port eight, enter the port three of the second six-way valve d2, through port four, enter port five, through port six, enter detecting device emptying in the lump.

The gas circuit one of the second carrier gas is entered by the port ten of the second ten-way valve c2 after the second pressure and flow controller EPC2 regulates, and enters port five, finally by port six emptying through port nine; The gas circuit two of the second carrier gas is entered by the port seven of the second ten-way valve c2 after the second auxiliary flow controller AUX2 regulates, and through port eight, enters detecting device two emptying; The gas circuit three of the second carrier gas is entered by the port five of the first six-way valve d1 after the 3rd pressure and flow controller EPC3 regulates, and through port six, enters detecting device three.

Above-mentioned detecting device one is the first thermal conductivity detector (TCD) TCD A, and detecting device two is the second thermal conductivity detector (TCD) TCD B, and detecting device three is flame ionization ditector FID.

In addition, the utility model also comprises heat-insulation system, heat-insulation system comprises high temperature clack box that can independent temperature control, column oven and Automatic-heating warm-keeping material that can temperature programmed control, high-temperature gas sampling valve, ten-way valve, six-way valve are all placed in high temperature clack box that can independent temperature control, it is identical with the outlet temperature of external reaction device that the temperature setting of high temperature clack box is set to, and is 30 ℃.Column oven is provided with two, be respectively the first column oven h1 and the second column oven h2, wherein the first to the 5th chromatographic column is arranged in the first column oven h1, the 6th chromatographic column is arranged in the second column oven h2, sample delivery pipeline in automatic sampling system outside is all surrounded by Automatic-heating warm-keeping material, and is set to when following lower than 30 ℃ of external reaction device outlet temperatures automatically open.

During sample states, as shown in Figure 1, the initial temperature of two column ovens is all set as 30 ℃, waits for after instrument stabilizer, carries out temperature programme and starts sample introduction.High-temperature gas sampling valve b opens, filteredly treat that test sample gas is entered by the port one of high-temperature gas sampling valve b, from port four, enter the port three of the first ten-way valve c1, now, the first ten-way valve c1, the second ten-way valve c2, the first six-way valve d1 and the first six-way valve d2 all close, treat that test sample gas is entered by the port four of the first ten-way valve c1, through the first quantity tube e1, enter the port one of the first ten-way valve c1, by the port two of the first ten-way valve c1, entered the port three of the second ten-way valve c2, by port four, enter the second quantity tube e2, then enter port one, by port two, gone out again, enter the port three of the first six-way valve d1, by port four, enter the 3rd quantity tube e3, then enter port one, finally by port two emptying.

The utility model also comprises external time control device, data processing module and LAN module.The analytic process for the treatment of test sample gas by external time control device complete the periodic duty of analytic process: the first ten-way valve c1 forwards ON state to by OFF, the test sample gas for the treatment of in the first quantity tube e1 promotes to enter the first chromatographic column f1 by carrier gas, permanent gases in test sample gas flows out enter the second chromatographic column f2 completely from the first chromatographic column f1, the first ten-way valve c1 is transformed into OFF state by ON, and the heavy hydrocarbon component of retaining in the first chromatographic column f1 is emptying by blowback from the port six of the first ten-way valve c1.The component that the second chromatographic column f2 carries arrives the port three of the second six-way valve d2, the second six-way valve d2 is transformed into ON state from OFF, now, carbon dioxide enters TCDA via damper tube n through the second six-way valve d2 port six and detects, after carbon dioxide goes out peak completely, switch immediately the second six-way valve d2 and forward OFF state to by ON, oxygen in sample, nitrogen enters the 3rd chromatographic column f3 by the second six-way valve d2 port three and carries out separation, other components in sample are as carbon monoxide, methane etc. after the second chromatographic column f2 separation again via entering the first thermal conductivity detector (TCD) TCDA after the 3rd chromatographic column f3.

After the analysis of test sample gas completes, through data processing module calibration, carry out automatic data processing, the automatic data save and automatic printing.Utilize LAN module to carry out remote data transmission, instrument Long-distance Control and automatic alarm simultaneously.

Described external time control device, utilize exactly the closed and disconnected of realizing relay of time-program(me) delay timing, fixed cycle, carry out the periodic duty of Realization analysis program, thereby realize online, continuous sample analysis.Also can by the serial ports (com port) of computing machine, be controlled the closed and disconnected of outside relay and realize timing, fixed cycle startup analysis program by working out on computers a time-program(me), realize continuous on-line analysis.

Embodiment 1

Carrier gas system adopts high pure nitrogen and high-purity hydrogen to do carrier gas, about reduction valve is by the high pressure air reducing to 0.5 in source of the gas ~ 0.6MPa.High-purity hydrogen is divided into two-way, and first via hydrogen is entered by the port ten of the first ten-way valve c1 through the first pressure and flow controller EPC1, through port nine, enters port five, finally by port six emptying.The second road hydrogen is entered by the port seven of the first ten-way valve c1 through the first aux. pressure flow controller AUX1, enters the port three of the second six-way valve d2 through port eight, through port four, enters port five, through port six, enters the first thermal conductivity detector (TCD) TCD A emptying.Meanwhile, high-purity hydrogen enters flame ionization ditector as combustion gas, and passes into oil-free compressed air to flame ionization ditector.

High pure nitrogen Fen San road, first via nitrogen is entered by the port ten of the second ten-way valve d2 through the second pressure and flow controller EPC2, through port nine, enters port five, finally by port six emptying.The second road nitrogen is entered by the port seven of the second ten-way valve c2 through the second aux. pressure flow controller AUX2, through port eight, enters the second thermal conductivity detector (TCD) TCD B emptying.Meanwhile, in the first thermal conductivity detector (TCD) TCD A and the second thermal conductivity detector (TCD) TCD B, all pass into separately hydrogen and nitrogen as the reference gas of thermal conductivity detector (TCD).Third Road nitrogen is entered by the port five of the first six-way valve d1 via the 3rd pressure and flow controller EPC3, through port six, enters flame ionization ditector FID.

When reactant and product contain permanent gases, saturated alkane and alkene, the first chromatographic column f1 and the 4th chromatographic column f4 select stainless stee l packed column Porapak N or Porapak Q or Hayesep N or Hayesep Q, 1 meter of column length, 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The second chromatographic column f2 and the 5th chromatographic column f5 select stainless stee l packed column Porapak Q or Porapak N or Hayesep Q or Hayesep N, 1 meter of column length, and 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The 3rd chromatographic column f3 selects stainless stee l packed column, 2 meters of column lengths, and 2 millimeters of internal diameters, filler is 60-80 order 5A or 13X molecular sieve.First to the 5th chromatographic column f1 ~ f5 is used in combination separated permanent gases.The 6th chromatographic column f6 selects PLOT-alundum (Al2O3) capillary column, 10 ~ 30 meters of column lengths, and 0.32 millimeter of internal diameter, for separating of saturated alkane and alkene.

During sample introduction state, as shown in Figure 2, high temperature sampling valve b and the second six-way valve d2 close, and two ten-way valve c1, c2 and the first six-way valve d1 open, three passage while sample introductions.In first passage, the test sample gas for the treatment of in the first quantity tube e1 promotes to enter the first chromatographic column f1 by high-purity hydrogen, permanent gases wherein flows out completely and enters the second chromatographic column f2 from the first chromatographic column f1, the first ten-way valve c1 closes, as shown in Figure 3, the heavy hydrocarbon component of retaining in the first chromatographic column f1 is emptying by high-purity hydrogen blowback from the first ten-way valve c1 port six.

The component that the second chromatographic column f2 carries arrives the second six-way valve d2 port three, and as shown in Figure 4, carbon dioxide enters the first thermal conductivity detector (TCD) TCDA via damper tube n through the second six-way valve d2 port six.After going out peak completely, carbon dioxide closes immediately the second six-way valve d2, as shown in Figure 5, oxygen in sample, nitrogen enter the 3rd chromatographic column f3 by the second six-way valve d2 port three and carry out separation, and other components in sample detect as carbon monoxide, methane etc. enter the first thermal conductivity detector (TCD) TCDA via f3 after the 3rd chromatographic column again after the second chromatographic column f2 separation.

When first passage carries out sample analysis, in the second split tunnel, using high pure nitrogen as carrier gas, by the second ten-way valve c2, carry out the separation of hydrogen.The second ten-way valve c2 is according to the same switch mode of first passage the first ten-way valve c1, when entering after the 5th chromatographic column f5 carries out separation, hydrogen component detected by the second thermal conductivity detector (TCD) TCDB, afterwards, the second ten-way valve c2 closes, and all outflow components after hydrogen are discharged by high pure nitrogen blowback emptying at the second ten-way valve c2 port six via the 4th chromatographic column f4.

In third channel, treat that test sample gas is carried through the first six-way valve d1 port six through the 3rd quantity tube e3 by high pure nitrogen, as shown in Figure 5, separated by the 6th chromatographic column f6 after test sample gas is shunted by a certain percentage, treat that the hydrocarbon component in test sample gas is detected by flame ionization ditector fid detector.

After the sample separation in above-mentioned three passages completes, the first six-way valve d1 closes.As shown in Figure 6, now two six-way valve d1, d2 and ten-way valve c1, c2 be all in closed condition, and when moving, high-temperature gas sampling valve b opens and can realize the above-mentioned cycle and analyze continuously next time.

If reactant and product be hydrogen not, can only with first passage and third channel, realize the on-line analysis of low-carbon (LC) catalytic conversion reaction.

Embodiment 2

On the basis of embodiment 1, between the first six-way valve d1 port six and the 6th chromatographic column f6, be also connected with a Liquid sample introduction mouth s, described Liquid sample introduction mouth s controls automatic injection sample introduction by injector by manual or computer program.Use injector directly to inject mixing material hydro carbons standard specimen by Liquid sample introduction mouth S, shunting by a certain percentage after gasification, sample after shunting is detected by flame ionization ditector FID after the 6th chromatographic column f6 separation, realizes the outer marking quantitative of liquid high boiling hydrocarbons and proofreaies and correct.

In the above-described embodiments, the optional capillary column GS-Gaspro of the 6th chromatographic column f6 or CP-PoraPLOT Q or CP PoraPLOT Q-HT or CP-PoraBOND Q, 10 ~ 50 meters of column lengths, 0.32 millimeter of internal diameter, for detection of the saturated alkane in reactant and product, alkene and aromatic hydrocarbons.Or the 6th chromatographic column f6 selects polysiloxane capillary chromatographic column DB-1 or PONA, 15 ~ 60 meters of column lengths, 0.32 millimeter of internal diameter, realizes the analysis of alkane, alkene, aromatic hydrocarbons on the 3rd passage.

The utility model utilizes the chromatographic column combination of different qualities, sample introduction when having combined three split tunnels with two ten-way valves and a six-way valve, and can carry out respectively blowback operation, with ten-way valve and a six-way valve, can complete chromatographic column and switch; Helium, oxygen, nitrogen, carbon monoxide, methane, sulfuretted hydrogen etc. are through detecting after two root chromatogram column separations, carbon dioxide first separation direct-detection, hydrogen adopts usings high pure nitrogen with individual passage and measures after as carrier gas separation, the direct blowback emptying of all the other components; Aromatic hydrocarbons and total aromatic hydrocarbons such as simultaneously measurable alkene, total hydrocarbon or mensuration benzene,toluene,xylene.

The parts that the present embodiment does not describe in detail and structure and English name belong to well-known components and common structure or the conventional means of the industry, here not narration one by one.

Claims (9)

1. the general online multidimensional gas chromatographic analytical equipment of low-carbon (LC) catalytic conversion reaction, it is characterized in that, comprise sampling apparatus, carrier gas system, sampling system, piece-rate system and detection system, described sampling system at least comprises three quantity tubes, two ten-way valves and a six-way valve, the port of ten-way valve and six-way valve is label in the direction of the clock all, is followed successively by respectively port one to port ten, port one to port six; Described piece-rate system at least comprises six roots of sensation chromatographic column and a six-way valve, and described detection system at least comprises three detecting devices;

Wherein, the port three of the first ten-way valve is connected with the outlet side of sampling apparatus, and the port two of the first ten-way valve is connected with the port three of the second ten-way valve, and the port two of the second ten-way valve is connected with the port three of the first six-way valve;

Between the port one of the first ten-way valve and port four, be connected with the first quantity tube, between the port five of the first ten-way valve and port nine, be connected with the first chromatographic column; Second chromatographic column of connecting between the port eight of the first ten-way valve and the port three of the second six-way valve;

Between the port four of the second six-way valve and port five, be connected with the 3rd chromatographic column, between the port one of the second six-way valve and port two, be connected with damper tube, the port six of the second six-way valve connects detecting device one;

Between the port one of the second ten-way valve and port four, be connected with the second quantity tube, between the port five of the second ten-way valve and port nine, be connected with the 4th chromatographic column, between the port eight of the second ten-way valve and detecting device two, be connected with the 5th chromatographic column;

Between the port one of the first six-way valve and port four, be connected with the 3rd quantity tube, between the port six of the first six-way valve and detecting device three, be connected with chromatographic column six;

Described carrier gas system comprises two kinds of carrier gas and five gas circuits, and the first carrier gas is connected with port ten with the port seven of the first ten-way valve respectively by source of the gas, by port six emptying of detecting device one and the first ten-way valve; The second carrier gas is connected with the port five of port ten, the first six-way valve with the port seven of the second ten-way valve respectively by source of the gas, by port two emptying of port six and first six-way valve of detecting device two, the second ten-way valve.

2. online multidimensional gas chromatographic analytical equipment according to claim 1, is characterized in that, described detecting device one is the first thermal conductivity detector (TCD), and detecting device two is the second thermal conductivity detector (TCD), and detecting device three is flame ionization ditector;

Described the first chromatographic column and the 4th chromatographic column are selected stainless stee l packed column Porapak N or Porapak Q or Hayesep N or Hayesep Q, 1 meter of column length, and 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The second chromatographic column and the 5th chromatographic column are selected stainless stee l packed column Porapak Q or Porapak N or Hayesep Q or Hayesep N, 1 meter of column length, and 2 millimeters of internal diameters, filler is 80-100 order polymer microsphere; The 3rd chromatographic column is selected stainless stee l packed column, 2 meters of column lengths, and 2 millimeters of internal diameters, filler is 60-80 order 5A or 13X molecular sieve.

3. online multidimensional gas chromatographic analytical equipment according to claim 2, is characterized in that, described the 6th chromatographic column is selected PLOT-alundum (Al2O3) capillary column, 10 ~ 30 meters of column lengths, 0.32 millimeter of internal diameter.

4. online multidimensional gas chromatographic analytical equipment according to claim 2, is characterized in that, between described the first six-way valve port six and the 6th chromatographic column, is also connected with a Liquid sample introduction mouth.

5. online multidimensional gas chromatographic analytical equipment according to claim 4, it is characterized in that, described the 6th chromatographic column is selected capillary column GS-Gaspro or CP-PoraPLOT Q or CP PoraPLOT Q-HT or CP-PoraBOND Q, 10 ~ 50 meters of column lengths, 0.32 millimeter of internal diameter; Or select polysiloxane capillary chromatographic column DB-1 or PONA post or similar gas chromatographic column, column's length is 15 ~ 60 meters, 0.32 millimeter of internal diameter.

6. according to the arbitrary described online multidimensional gas chromatographic analytical equipment of claim 1-5, it is characterized in that, described sampling apparatus comprises pot strainer and high-temperature gas sampling valve, described high-temperature gas sampling valve is four two-port valves, four ports are label in the direction of the clock, is followed successively by port one to port four; The inlet end of described pot strainer is connected with external reaction device, outlet side is connected with the port one of high-temperature gas sampling valve, the port four of high-temperature gas sampling valve is connected with the port three of the first ten-way valve, and the port two of high-temperature gas sampling valve and port three carry out blind plugging.

7. according to the arbitrary described online multidimensional gas chromatographic analytical equipment of claim 1-5, it is characterized in that, described analytical equipment also comprises heat-insulation system, described heat-insulation system comprises high temperature clack box that can independent temperature control, column oven and Automatic-heating warm-keeping material that can temperature programmed control, described high-temperature gas sampling valve, ten-way valve, six-way valve is all placed in high temperature clack box that can independent temperature control, described column oven is provided with two, be respectively the first column oven and the second column oven, wherein the first to the 5th chromatographic column is arranged in the first column oven, the 6th chromatographic column is arranged in the second column oven, sample delivery pipeline outside in automatic sampling system is all surrounded by Automatic-heating warm-keeping material.

8. according to the arbitrary described online multidimensional gas chromatographic analytical equipment of claim 1-5, it is characterized in that, described the first carrier gas is high-purity hydrogen, and the second carrier gas is high pure nitrogen.

9. according to the arbitrary described online multidimensional gas chromatographic analytical equipment of claim 1-5, it is characterized in that, also comprise external time control device, data processing module and LAN module.