Summary of the invention
For this reason, technical problem to be solved by this invention is to overcome in prior art and reclaims problem that when diffusing methane, reuse efficiency is low thus provide one not only can improve the recovery rate, and the recovery control system of the simple compressed methane gas of recovery plant and recycling and control method.
For solving the problems of the technologies described above, a kind of compressed methane gas recovery control system of the present invention, comprise the knock out drum for receiving described methane gas, described compressed methane gas recovery control system also comprises the mixing arrangement be connected with described knock out drum and the multistage compressing device be connected with described mixing arrangement, wherein the entrance of first order compression set is connected by the outlet of pipeline with described mixing arrangement, the outlet of described first order compression set is connected by the refluxing opening of pipeline with described mixing arrangement, and the outlet of described first order compression set is connected by pipeline with the entrance of second level compression set, be provided with the methane gas controlled in described knock out drum between described knock out drum and described mixing arrangement to enter to be provided with between the Stress control interlock of described mixing arrangement and the entrance of described mixing arrangement and described first order compression set and control the temperature that described multistage compressing device opens and closes and control interlock.
In one embodiment of the invention, described Stress control interlock comprises the methane gas controlled in described knock out drum and enters the first cut-off valve of described mixing arrangement and the methane gas after regulating pressurization to heat up and enter the second modulating valve that the first modulating valve of described mixing arrangement flow and the methane gas after regulating pressurization to heat up enter described second level compression set.
In one embodiment of the invention, described Stress control interlock is provided with pressure high-value and pressure low-value, if the pressure of described knock out drum outlet is higher than described pressure high-value, then start described first cut-off valve and described first modulating valve and described second modulating valve; If the pressure of described knock out drum outlet is lower than described pressure low-value, then closed described first cut-off valve and described multistage compressing device.
In one embodiment of the invention, described temperature controls interlock and regulates described first modulating valve according to the outlet temperature of described mixing arrangement, if the outlet temperature of described mixing arrangement is higher than rating value, then turn described first modulating valve down, tune up described second modulating valve, the flow making methane gas enter described mixing arrangement reduces; If the outlet temperature of described mixing arrangement is lower than rating value, then tune up described first modulating valve, turn described second modulating valve down, the flow making methane gas enter described mixing arrangement increases.
In one embodiment of the invention, be provided with heating device between the entrance of described first order compression set and described mixing arrangement, described heating device is wound on the pipeline between described first order compression set and described mixing arrangement.
In one embodiment of the invention, companion's hot feed mouth of described heating device is provided with the second cut-off valve.
Present invention also offers a kind of compressed methane gas recycling and control method, its step is as follows, comprise: step S1: the methane gas that will reclaim carries out collection buffering by knock out drum, judge the outlet pressure of described knock out drum and the size of preset pressure value, when the outlet pressure of described knock out drum is higher than the first predefined value, enter step S2; When the outlet pressure of described knock out drum is lower than the second predefined value, continues to collect the outlet pressure of methane gas to described knock out drum higher than the first predefined value, enter step S2; Step S2: methane gas heat exchange heated up and form intensification methane gas, judges that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3; Step S3: the pressurization of intensification methane gas is formed warming high-pressure methane gas; Step S4: part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas; Meanwhile, the methane gas in part warming high-pressure methane gas and described step S1 is carried out being mixed to form intensification methane gas, circulate from described step S3.
In one embodiment of the invention, in described step S2, by the second cut-off valve opened on companion's hot feed mouth of the hot equipment of companion, thermosetting intensification methane gas is added to methane gas, judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, closed described second cut-off valve, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.
In one embodiment of the invention, described step S4 comprises the step judging described intensification methane gas temperature, if the temperature of intensification methane gas is in setting range, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.
In one embodiment of the invention, in described step S4, if the temperature of intensification methane gas is not in setting range, can make the temperature of intensification methane gas in setting range by the flow regulating pressurization intensification methane gas to enter described mixing arrangement.
Technique scheme of the present invention has the following advantages compared to existing technology:
Methane gas recovery control system of the present invention and recycling and control method, realize equipment essential safety while reducing human cost by interlocking; In addition, the temperature of methane gas is improved while improving methane gas pressure by first order compression set, utilize the methane gas after the intensification of first order compression set exit portion to mix with the methane gas of first order compression set entrance to heat up, both the heat exchange of other medium had been eliminated, also a saving floor space, ensure that compression set runs in normal temperature range simultaneously.
Embodiment
Embodiment one:
As shown in Figure 1, present embodiments provide a kind of compressed methane gas reclaiming system, the multistage compressing device comprising the mixing arrangement 11 for receiving described methane gas and be connected with described mixing arrangement 11, wherein the entrance of first order compression set 121 is connected by the outlet of pipeline with described mixing arrangement 11, the outlet of described first order compression set 121 is connected by the refluxing opening of pipeline with described mixing arrangement 11, and the outlet of described first order compression set 121 is connected by pipeline with the entrance of second level compression set 122.
Above-mentioned is core technology scheme of the present invention, compressed methane gas reclaiming system of the present invention, the multistage compressing device comprising the mixing arrangement 11 for receiving described methane gas and be connected with described mixing arrangement 11, wherein, the outlet of described mixing arrangement 11 is connected by the entrance of pipeline with first order compression set 121, enter the entrance of the low temperature methane gas in described mixing arrangement 11 through the described first order compression set 121 of inflow that heats up, because the temperature of methane gas is lower, usually at subzero about 160 °, if directly enter compression set can cause compression set cisco unity malfunction, and the methane gas after heating up can meet the temperature requirement of normal temperature compressed device, avoid using expensive low temperature compression device, the outlet of described first order compression set 121 is connected by the refluxing opening of pipeline with described mixing arrangement 11, because described methane gas forms warming high-pressure methane gas after the pressurization of described first order compression set 121, part warming high-pressure methane gas enters the refluxing opening of described mixing arrangement 11 by pipeline, the low temperature methane gas flowed into described mixing arrangement 11 entrance mixes, the methane gas exported through described mixing arrangement 11 is made to heat up thus the entrance of described first order compression set 121 can be directly inputted into, exporting the methane gas after heating up owing to utilizing described first order compression set 121 makes the methane gas of described first order compression set 121 ingress heat up, therefore the heat exchange utilizing other medium had both been eliminated, fully save energy again, significantly improve capacity usage ratio, effectively reduce the floor space of equipment, the outlet of described first order compression set 121 is connected by pipeline with the entrance of second level compression set 122, part warming high-pressure methane gas is made to enter in described second level compression set 122 by pipeline, temperature due to described warming high-pressure methane gas controls in the temperature range of normal temperature compressed device, therefore, described warming high-pressure methane gas can flow directly in described second level compression set 122 to be compressed, while avoiding using special requirement compression set, significantly improve the working efficiency of compression set, final formation compressed methane gas.
In the present embodiment, described multistage compressing device is respectively independently compression set, comprises first order compression set 121 and second level compression set 122, also can arrange third level compression set as required.
Consider the unstability that LNG filling station methane gas discharges, described mixing arrangement 11 is connected with knock out drum 13 by pipeline, described knock out drum 13 is for receiving the methane gas of LNG filling station, collection buffering is carried out to diffusing methane gas, input in time collecting a certain amount of in described mixing arrangement 11, thus avoid the continuous service of system.
The following describes the working principle of methane gas reclaiming system:
Low temperature methane gas enters in described knock out drum 13 and collects, input in described mixing arrangement 11 in time collecting a certain amount of, described low temperature methane gas heats up and forms intensification methane gas, enter in described first order compression set 121 by pipeline, in described first order compression set 121, warming high-pressure methane gas is formed to described low temperature methane gas compression, part warming high-pressure methane gas flows into the refluxing opening of described mixing arrangement 11 by the outlet of described first order compression set 121, mix with the low temperature methane gas flowed in described mixing arrangement 11 by described knock out drum 13, the methane gas exported through described mixing arrangement 11 is made to heat up thus the entrance of described first order compression set 121 can be directly inputted into, part warming high-pressure methane gas enters the entrance of described second level compression set 122 by pipeline, carries out compression and form compressed methane gas in described second level compression set 122.
Embodiment two:
Embodiment two is the improvement made on the basis of embodiment one, in order to the system of perfect recovery methane gas, the system of embodiment one is improved the structure of described multistage compressing device, the following detailed description of:
As shown in Figure 2, described multistage compressing device 12 is multiple compressing sections of same compression set, can comprise first order compression set 12A as required, second level compression set 12B, third level compression set etc.Compare and the independent compression device in embodiment one, the occupation area of equipment of the present embodiment two reduces.
In the present embodiment, described multistage compressing device 12 is a compression set, and first order compression set 12A is former sections of compressions of compression set, and second level compression set 12B is the rear several sections of compressions of compression set.After intensification methane gas enters compression set, in certain setting compression stage extension intensification pressurization methane gas, particularly, as in first order compression set 12A as described in corresponding in this stage to as described in methane gas compression form warming high-pressure methane gas, regulated the capacity of reflux of methane gas by the inlet temperature of compression set, thus make the inlet temperature of compression set be not less than the rated temperature of compression set.The present embodiment realizes object methane gas being formed compressed methane gas by compression set under the prerequisite not increasing compression set manufacture cost, and is finally delivered to other system follow-up.
Embodiment three:
Embodiment three is the distortion made on the basis of embodiment one or embodiment two, in order to the system of perfect recovery methane gas, improves the structure of described mixing arrangement 11, the following detailed description of:
As shown in Figure 3, described mixing arrangement 11 is arranged in described knock out drum 13, thus conserve space, the floor space of minimizing equipment, the entrance of described first order compression set 121 is connected by the outlet of pipeline with described mixing arrangement 11, and the outlet of described first order compression set 121 is connected by the refluxing opening of pipeline with described mixing arrangement 11.For the ease of between pipeline be interconnected and manufacture easy to process, described mixing arrangement 11 is wholely set with described knock out drum 13, the now outlet of described mixing arrangement 11 is exactly the outlet of described knock out drum 13, and the refluxing opening of described mixing arrangement 11 is exactly the refluxing opening of described knock out drum 13.
The following describes the working principle of methane gas reclaiming system described in the present embodiment:
Low temperature methane gas enters in described knock out drum 13 and collects, enter in described first order compression set 121 by pipeline in time collecting a certain amount of, wherein low temperature methane gas heats up before entering described first order compression set 121 and forms intensification methane gas, in described first order compression set 121, warming high-pressure methane gas is formed to described low temperature methane gas compression, part warming high-pressure methane gas flows into the refluxing opening of described knock out drum 13 by the outlet of described first order compression set 121, mix with the low temperature methane gas in described knock out drum 13, the methane gas exported through described knock out drum 13 is made to heat up thus the entrance of described first order compression set 121 can be directly inputted into, part warming high-pressure methane gas enters the entrance of described second level compression set 122 by pipeline, carries out compression and form compressed methane gas in described second level compression set 122.
Embodiment four:
Embodiment four is the distortion made on the basis of embodiment one, embodiment two or embodiment three, in order to the system of perfect recovery methane gas, the system of embodiment one, embodiment two or embodiment three adds the equipment of recycling, the following detailed description of:
As shown in Figure 4, in described compressed methane gas reclaiming system, after initial cryogenic methane gas enters described mixing arrangement 11 by described knock out drum 13, the outlet of described mixing arrangement 11 does not also form intensification methane gas, therefore the temperature exporting the methane gas flowed out from described mixing arrangement 11 is still very low, can not be directly inputted in described first order compression set 121, therefore the entrance of described first order compression set 121 and described mixing arrangement 11 are provided with heating device 14 between exporting, described heating device 14 is wound on the pipeline between described first order compression set 121 and described mixing arrangement 11, when the methane gas flowed out from the outlet of described mixing arrangement 11 enters the entrance of described first order compression set 121, after heating by described heating device 14, the methane gas temperature of described first order compression set 121 ingress is raised, can flow directly in described first order compression set 121 and carry out pressurized operation.
In order to realize the heat temperature raising by described heating device 14 pairs of methane gas, described heating device 14 is heat exchange-type equipment, which is provided with companion's hot feed mouth 141 and accompany hot discharge port 142, high temperature media flows in described heating device 14 by companion's hot feed mouth 141, flowed out by the hot discharge port 142 of described companion, thus can realize heating up to the heat exchange of low temperature methane gas in pipeline.As one distortion, the hot equipment 14 of described companion also can be heating type equipment, is heated the pipeline between from described mixing arrangement 11 to described first order compression set 121 entrance by heating type equipment, thus the temperature of described low temperature methane gas is raised.
Described high temperature media can be water or other fluid, in order to energy saving, avoids waste, flows out high temperature media can continue to utilize for miscellaneous equipment from the hot discharge port 142 of described companion; Described heating type equipment can be the heating plant of the common form such as electric heating.
Embodiment five:
The present embodiment five is the distortion made on the basis of embodiment one or embodiment two, in order to the system of perfect recovery methane gas, the system of embodiment one or embodiment two adds the monitoring equipment for controlling gas the automatic recovery, the following detailed description of:
As shown in Figure 5, present embodiments provide a kind of compressed methane gas recovery control system, be provided with the methane gas controlled in described knock out drum 13 between described knock out drum 13 and described mixing arrangement 11 and enter to be provided with between the Stress control interlock 15 of described mixing arrangement 11 and the entrance of described mixing arrangement 11 and described first order compression set 12A and control the temperature that described multistage compressing device 12 opens and closes and control interlock.
In the present embodiment, described Stress control interlock 15 methane gas controlled in described knock out drum 13 flows in described mixing arrangement 11, and when the outlet pressure of described knock out drum 13 is greater than the first predefined value, methane gas flows in described mixing arrangement 12; When the outlet pressure of described knock out drum 13 is less than the second predefined value, methane gas can not flow in described mixing arrangement 12.Described temperature controls the keying that interlock 16 controls described multistage compressing device 12, particularly, when the temperature of the methane gas flowed out from described mixing arrangement 12 is in setting range, starts described first order compression set 12A; When the temperature of the part intensification methane gas that described first order compression set 12A flows out is in setting range, start described second level compression set 12B, the normal startup of described multistage compressing device 12 when the setting range of wherein said temperature is between-10 ° to 0 °, can be ensured.The present embodiment controls by described Stress control interlock 15 and described temperature the keying that interlock 16 directly controls whole system, realizes automatically working, avoids people for manually-operable, labor-saving while, has also increased substantially reuse efficiency.
In the present embodiment, described Stress control interlock 15 comprises the methane gas controlled in described knock out drum 13 and enters the first cut-off valve 151 of described mixing arrangement 11 and the methane gas after regulating pressurization to heat up and enter the second modulating valve 153 that the first modulating valve 152 of described mixing arrangement 11 flow and the methane gas after regulating pressurization to heat up enter described second level compression set 12B.Particularly, described first cut-off valve 151 is arranged between described knock out drum 13 and described mixing arrangement 11, described first modulating valve 152 is arranged between described first order compression set 12A and described mixing arrangement 11, and described second modulating valve 153 is arranged between described first order compression set 12A and described first order compression set 12B.Described Stress control interlock 15 is provided with pressure high-value and pressure low-value, wherein the scope of pressure high-value is between 0.5Mpa to 0.7Mpa, pressure high-value described in prioritizing selection is 0.6Mpa, the scope of described pressure low-value is between 0.1Mpa to 0.3Mpa, pressure low-value described in prioritizing selection is 0.2Mpa, if the pressure that described knock out drum 13 exports is higher than described pressure high-value, then start described first cut-off valve 151 and described first modulating valve 152 and described second modulating valve 153, methane gas in described knock out drum 13 flows in described mixing arrangement 11, described first modulating valve 152 and described second modulating valve 153 is controlled according to the temperature that described mixing arrangement 11 exports, the flow that aperture can ensure compression set minimum load opened by wherein said first modulating valve 152, if the pressure that described knock out drum 13 exports is lower than described pressure low-value, then closed described first cut-off valve 151, makes methane gas stop entering in described mixing arrangement 11, simultaneously closed described multistage compressing device 12, thus ensure system as far as possible a working time longer, avoid frequent unlatching.
In the present embodiment, described temperature controls interlock 16 and regulates described first modulating valve 152 and described second modulating valve 153 according to the outlet temperature of described mixing arrangement 11, if the outlet temperature of described mixing arrangement 11 is higher than the rated temperature value of described multistage compressing device 12, as as described in the outlet temperature of mixing arrangement 11 higher than 0 ° time, then turn described first modulating valve 152 down, and tune up described second modulating valve 153, the flow making methane gas enter described mixing arrangement 11 reduces, thus ensures that the outlet temperature of described mixing arrangement 11 is between-10 ° to 0 °; If the outlet temperature of described mixing arrangement 11 is lower than the rated temperature value of described multistage compressing device 12, as as described in the outlet temperature of mixing arrangement 11 lower than-10 ° time, then tune up described modulating valve 152, and turn described second modulating valve 153 down, the flow making methane gas enter described mixing arrangement 11 increases, thus ensures that the outlet temperature of described mixing arrangement 11 is between-10 ° to 0 °.
Embodiment six
The present embodiment six is the distortion made on the basis of embodiment five, in order to the control system of perfect recovery compressed methane gas, the system of embodiment five adds the monitoring equipment for controlling gas the automatic recovery, the following detailed description of:
As shown in Figure 6, heating device 14 is provided with between the entrance of described first order compression set 12A and described mixing arrangement 11, described heating device 14 is wound on the pipeline between described first order compression set 12A and described mixing arrangement 11, wherein, described heating device 14 is heat exchange-type equipment, which is provided with companion's hot feed mouth 141 and accompany hot discharge port 142, high temperature media flows in described heating device 14 by companion's hot feed mouth 141, flowed out by the hot discharge port 142 of described companion, thus can realize heating up to the heat exchange of methane gas in pipeline.
In order to realize the keying automatically controlling described heating device 14, companion's hot feed 141 of described heating device 14 is provided with the second cut-off valve 143, medium for controlling described companion's hot feed mouth 141 flows in described heating device 14, the temperature of the methane gas exported when described mixing arrangement 11 is lower than the rated temperature value of described multistage compressing device 12, as as described in the outlet temperature of mixing arrangement 11 lower than-10 ° time, open described second cut-off valve 143, the medium of described companion's hot feed mouth 141 is made to flow in described heating device 14, the methane gas of described first order compression set 12A ingress is made to be warming up between-10 ° and 0 °, can flow directly in described first order compression set 12A and carry out pressurized operation, the temperature of the methane gas exported when described mixing arrangement 11 is higher than the rated temperature value of described multistage compressing device 12, as as described in the outlet temperature of mixing arrangement 11 higher than-10 ° time, closed described second cut-off valve 143, and the outlet temperature of described mixing arrangement 11 is between-10 ° to 0 °, open described multistage compressing device 12.
As one distortion, the hot equipment 14 of described companion also can be heating type equipment, is heated, thus the temperature of described methane gas is raised by heating type equipment to the pipeline between from described mixing arrangement 11 to described first order compression set 12A entrance.
Embodiment seven:
The present embodiment provides a kind of compressed methane gas recovery method, utilize embodiment one, embodiment two, embodiment three or embodiment four any one described in compressed methane reclaiming system reclaim methane gas, it specifically comprises the steps:
Step S1: methane gas heat exchange is heated up and forms intensification methane gas; Step S2: the pressurization of intensification methane gas is formed warming high-pressure methane gas; Step S3: part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas; Part warming high-pressure methane gas is mixed with the methane gas in described step S1 simultaneously, the methane gas in described step S1 is heated up and forms intensification methane gas, enter described step S2 and start circulation.
Compressed methane gas recovery method described in the present embodiment, in described step S1, heats up the methane gas heat exchange of low temperature and forms intensification methane gas; In described step S2, the pressurization of intensification methane gas is formed warming high-pressure methane gas; In described step S3, part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas, therefore can form compressed methane gas by direct weighting because the methane gas temperature after intensification significantly raises, thus significantly improve working efficiency; Part warming high-pressure methane gas is mixed with the low temperature methane gas in described step S1 simultaneously, the low temperature methane gas in described step S1 is heated up and forms intensification methane gas, enter described step S2 and start circulation.The present invention forms intensification methane gas owing to utilizing the step of compression to make low temperature methane gas heat up, and mix with the low temperature methane gas before compression, eliminate the heat exchange of other medium, therefore effectively save energy, meanwhile, the intensification of low temperature methane gas is made to realize the step of directly carrying out pressurizeing.
In the present embodiment, before described step S1, also comprise the step of carrying out methane gas to collect buffering, consider the unstability that LNG filling station methane gas discharges, carrying out collection buffering to diffusing methane gas, entering again in described step S1 in time collecting a certain amount of, thus avoiding the continuous service of system.
Forming the step of intensification methane gas to realize low temperature methane gas being heated up in described step S1, can carry out heating by the hot equipment of described companion 14 pairs of methane gas the object realizing heating up.
In the present embodiment, in order to realize that the pressurization of intensification methane gas is formed warming high-pressure methane gas, in described step S2, intensification methane gas being derived stage by stage in pressure process thus forms warming high-pressure methane gas.
Embodiment eight:
The present embodiment provides a kind of compressed methane gas recycling and control method, and utilize the compressed methane recovery control system described in embodiment five to reclaim methane gas, it specifically comprises the steps:
Step S1: the methane gas that will reclaim carries out collection buffering by knock out drum 13, judges the described outlet pressure of knock out drum 13 and the size of preset pressure value, when the outlet pressure of described knock out drum 13 is higher than the first predefined value, enters step S2; When the outlet pressure of described knock out drum 13 is lower than the second predefined value, continues to collect the outlet pressure of methane gas to described knock out drum 13 higher than the first predefined value, enter step S2; Step S2: methane gas heat exchange heated up and form intensification methane gas, judges that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3; Step S3: the pressurization of intensification methane gas is formed warming high-pressure methane gas; Step S4: part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas; Meanwhile, the methane gas in part warming high-pressure methane gas and described step S1 is carried out being mixed to form intensification methane gas, circulate from described step S3.
In methane gas recycling and control method described in the present embodiment, in described step S1, the Stress control interlocking methane gas filled in the described knock out drum of 15 control 11 is utilized to enter described mixing arrangement 11, when the outlet pressure of described knock out drum 13 is higher than the first predefined value, particularly, if the pressure that described knock out drum 13 exports is higher than described pressure high-value, then start described first cut-off valve 151 and described first modulating valve 152 and described second modulating valve 153, methane gas in described knock out drum 13 flows in described mixing arrangement 11, enters step S2; When the outlet pressure of described knock out drum 13 is lower than the second predefined value, particularly, if the pressure that described knock out drum 13 exports is lower than described pressure low-value, then closed described first cut-off valve 151, and close described multistage compressing device 12 simultaneously, make methane gas stop entering in described mixing arrangement 11, continue to collect the outlet pressure of methane gas to described knock out drum 13 higher than pressure high-value, methane gas flows into described mixing arrangement 11, enters step S2.In described step S2, utilize described temperature to control interlock 16 and judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, if the temperature of intensification methane gas is between-10 ° to 0 °, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.In described step S3, the pressurization of intensification methane gas is formed warming high-pressure methane gas.In described step S4, part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas; Meanwhile, the methane gas in part warming high-pressure methane gas and described step S1 is carried out being mixed to form intensification methane gas, circulate from described step S3.Described step S4, the methane gas in step S1 is not only made to heat up, and make the warming high-pressure methane gas in step S4 meet the rated temperature of compression set, directly again pressurize and form compressed methane gas, therefore achieve recycling of energy, abundant energy saving, significantly improve capacity usage ratio, the floor space of effective minimizing equipment, moreover, the present invention by interlocked control thus realize equipment automatic safe run, effectively reduce human cost simultaneously.
Described step S4 comprises the step judging described intensification methane gas temperature, if the temperature of intensification methane gas is in setting range, enters step S3; If the temperature of intensification methane gas is not in setting range, continue to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3, particularly, if the temperature of intensification methane gas is not in setting range, make the temperature of intensification methane gas in setting range by the large I regulating pressurization intensification methane gas to enter described mixing arrangement 11 flow.
Embodiment nine:
The present embodiment provides a kind of methane gas recycling and control method, and utilize the compressed methane gas recovery control system described in embodiment six to reclaim methane gas, the place different from methane gas recycling and control method described in embodiment eight is step S2, the following detailed description of:
In step S2 described in the present embodiment, methane gas heat exchange is heated up and forms intensification methane gas, judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, enters step S3, if the temperature of intensification methane gas is not in setting range, continue to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3, because the temperature of initial methane gas is very low, can not directly enter in described step S3, can be heated up to methane gas heat exchange by the second cut-off valve 143 opened on companion's hot feed mouth 141 of the hot equipment 14 of companion and form intensification methane gas, and judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, closed described second cut-off valve 143, start described first order compression set 12A, enter step S3, if the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.
Compression set of the present invention can be compressor; The compressed methane gas of finally discharging from described multistage compressing device 12 can directly utilize, and also can leave methane in and deposit in tank.
To sum up, above technological scheme of the present invention has the following advantages:
1. compressed methane gas recovery control system of the present invention, the keying that interlock directly controls whole system is controlled by described Stress control interlock and described temperature, be provided with the methane gas controlled in described knock out drum between wherein said knock out drum and described mixing arrangement to enter to be provided with between the Stress control interlock of described mixing arrangement and the entrance of described mixing arrangement and described first order compression set and control the temperature that described multistage compressing device opens and closes and control interlock, the present invention realizes automatically working, avoid people for manually-operable, labor-saving while, also reuse efficiency has been increased substantially.
2. compressed methane gas recovery control system of the present invention, companion's hot feed of described heating device is provided with the second cut-off valve, flows in described heating device for the medium controlling described companion's hot feed mouth, realizes the keying automatically controlling described heating device.
3. compressed methane gas recycling and control method of the present invention, in described step S1, the methane gas utilizing Stress control to interlock in the described knock out drum of dress control enters described mixing arrangement, when the outlet pressure of described knock out drum is higher than the first predefined value, then start described first cut-off valve and described first modulating valve and described second modulating valve, methane gas in described knock out drum flows in described mixing arrangement, enters step S2; When the outlet pressure of described knock out drum is lower than the second predefined value, then closed described first cut-off valve, and close described multistage compressing device simultaneously, methane gas is made to stop entering in described mixing arrangement, continue to collect the outlet pressure of methane gas to described knock out drum higher than pressure high-value, methane gas flows into described mixing arrangement, enters step S2.In described step S2, utilize described temperature to control interlock and judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.In described step S3, the pressurization of intensification methane gas is formed warming high-pressure methane gas.In described step S4, part warming high-pressure methane gas is pressurizeed again and forms compressed methane gas; Meanwhile, the methane gas in part warming high-pressure methane gas and described step S1 is carried out being mixed to form intensification methane gas, circulate from described step S3.Described step S4, the methane gas in step S1 is not only made to heat up, and make the warming high-pressure methane gas in step S4 meet the rated temperature of compression set, directly again pressurize and form compressed methane gas, therefore achieve recycling of energy, abundant energy saving, significantly improve capacity usage ratio, the floor space of effective minimizing equipment, moreover, the present invention by interlocked control thus realize equipment automatic safe run, effectively reduce human cost simultaneously.
4. compressed methane gas recycling and control method of the present invention, in described step S2, can be heated up to methane gas heat exchange by the second cut-off valve opened on companion's hot feed mouth of the hot equipment of companion and form intensification methane gas, and judge that the temperature of intensification methane gas is whether in setting range, if the temperature of intensification methane gas is in setting range, closed described second cut-off valve, starts described first order compression set, enters step S3; If the temperature of intensification methane gas is not in setting range, continues to be warming up to the temperature of intensification methane gas in setting range to methane gas heat exchange, enter step S3.
Obviously, above-described embodiment is only for clearly example being described, the restriction not to mode of execution.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all mode of executions.And thus the apparent change of extending out or variation be still in the protection domain of the invention.