CN204986395U - A adsorb natural gas transportation jar for natural gas storage and transportation - Google Patents

Abstract

The utility model discloses an adsorb natural gas transportation jar for natural gas storage and transportation, there are constant temperature system and bearing structure in transport tank's inside, the constant temperature system includes louvre and ring thermostat tube, bearing structure includes backup pad, fixed plate and riser, ring thermostat tube and riser intercommunication, bearing structure includes the fixed plate more than two, it is fixed by the riser between the fixed plate, be provided with the ring thermostat tube on the fixed plate, the backup pad has been placed on the ring thermostat tube, the active carbon has been placed to the backup pad, be provided with another fixed plate on the active carbon, it has the louvre to open in the backup pad. Still be equipped with four hand holes on the storage tank, convenient take out the active carbon change, storage tank maintenance etc.. And can be direct continuous with the intake pipe with high temperature N2, do not take out the active carbon, directly regenerate. The utility model has the characteristics of the operation is convenient, the suitability is strong, the security is good etc.

Description

A kind of absorbed natural gas transfer cask for natural gas storing and transport

Technical field

The utility model relates to natural gas storing and transport field, particularly relates to a kind of absorbed natural gas transfer cask for natural gas storing and transport.

Background technique

Rock gas is a kind of desirable clean fuel, and not only combustion efficiency is high for it, and CO, NO _x, SO ₂and CO ₂discharge amount obviously reduces than other mineral fuel.Along with the day by day serious of environmental problem and people are for the further serious hope of good air ambient, the requirement of development of new cleaning type fuel is more and more urgent.China's natural gas industrial development relatively lags behind, but after entering 21 century, rapidly, Natural Gas Consumption Using rises to 1308 billion cubic meters of 2014 from 245 billion cubic meters of 2000, and the accounting of rock gas in China's primary energy promotes further for China's natural gas industry and market for natural gas development.Further developing along with exploration technology simultaneously, China in 2014 increases newly verifies geolograph reserves more than 5000 billion cubic meters, and domestic conventional tolerance is 1250 billion cubic meters, the steady-state growth of domestic natural gas output.

Rock gas storaging and transport technology conventional at present has oil pipeline and storage (PNG), natural gas liquefaction accumulating (LNG), natural gas compressing accumulating (CNG) and Adsorption Natural Gas accumulating (ANG) technology etc., and wherein Adsorption Natural Gas storaging and transport technology is novel storaging and transport technology.ANG is the rock gas Special adsorbent loading high-ratio surface in storage tank, and the specific surface area utilizing it huge and abundant microcellular structure, make ANG reach the storaging and transport technology of the storage volume be close with CNG in normal temperature, middle pressure.

In Adsorption Natural Gas storaging and transport technology, the research and development of new adsorbent are ripe gradually through development for many years, possessed the condition of industrialization, the marketization.But absorbed natural gas tank designs does not also have clear and definite specification and unified standard, and ANG storage tank belongs to pressurized container, will consider the problem of secure context in design process.Adsorption Natural Gas is easily subject to the impact of thermal effect in adsorption desorption process simultaneously, rock gas inhales the phenomenon of heat release because the effect of intermolecular Van der Waals force can show in porous activated carbon Adsorption on Surface/desorption process, this phenomenon can make the temperature of sorbent raise or reduces and hinder adsorption and desorption process, and this negative effect is called the thermal effect in Adsorption Natural Gas process.Such as Adsorption Natural Gas is exothermic process, and the temperature of sorbent can be caused significantly to rise when rock gas adsorbs directly affect adsorption efficiency.Desorption process is then endothermic process, and adsorbent temperature can be caused to decline and affect desorption efficiency.Therefore the thermal management how solving tank inside will be considered in the design process.In addition also have other factors to need to consider for the design of tank inside structure, as sorbent periodic replacement, prevent the problems such as turnover tracheae blocking.Sorbent extent of adsorption after the certain number of times of adsorption desorption can reduce, and just can reuse after need regenerating, so the design of absorption storage tank should be taken into account in adsorbent reactivation process how to facilitate taking-up sorbent.The sorbent that present stage is commonly used is active carbon, due to the flowing of gas in rock gas adsorption desorption process, the active carbon dust in storage tank can be driven to flow inlet/outlet pipe is blocked.So above-mentioned factor is all the factor needing in Adsorption Natural Gas tank designs to consider.

Model utility content

The purpose of this utility model is to provide a kind of absorbed natural gas transfer cask design for above-mentioned Adsorption Natural Gas storage and transport process, be intended to solve in absorbed natural gas storage and transport process, because of thermal effect, sorbent fix, adsorbent reactivation, the problem such as dust blocking be on the impact of Adsorption Natural Gas amount.For the requirement to storage tank in above-mentioned Adsorption Natural Gas storage and transport process.

The utility model realizes by the following technical solutions:

For an absorbed natural gas transfer cask for natural gas storing and transport, there are constant temperature system and supporting structure in the inside of described transfer cask; Constant temperature system comprises radiation hole and ring thermostat tube; Described supporting structure comprises dunnage, fixed plate and standpipe;

Described ring thermostat tube is communicated with standpipe; Described supporting structure comprises plural fixed plate, is fixed between described fixed plate by standpipe; Described fixed plate is provided with ring thermostat tube; Described ring thermostat tube is placed with dunnage, described dunnage is placed with active carbon, described active carbon is provided with another block fixed plate; Described dunnage has radiation hole; For the user of this storage tank, require that upstream and downstream user has a set of inflation/deflation docking facilities for this transfer cask, upstream docking facilities will have and the devices such as adsorption tanks, flowmeter, pressure regulator valve, and downstream docking facilities will have flowmeter, pressure regulator valve etc.

In said apparatus, the tank wall of described transfer cask respectively has two pairs of hand holes up and down, and symmetrical between two in described hand hole, and the circle center line connecting spatial vertical of the circle center line connecting of upper two pairs of hand holes and lower two pairs of hand holes; Also comprise thermocouple temperature measurement mouth and diffusion mouth, described thermocouple temperature measurement mouth is arranged on main tank body, and described diffusion mouth is arranged at the top of transfer cask.

In said apparatus, also comprise safety valve, refrigerant inlet tube and outer pipe; Described safety valve is arranged at tank top, and described refrigerant inlet tube is positioned at tank top; Described outer pipe is positioned at bottom.

In said apparatus, also comprise rock gas suction tude, gas outlet pipe and sewage draining exit (8); Described rock gas suction tude is positioned at tank bottom, and described gas outlet pipe is positioned at tank top; Described rock gas suction tude and gas outlet pipe are all provided with filter screen, inlet/outlet pipe have valve respectively simultaneously; Described tank bottom is provided with sewage draining exit.

In said apparatus, described dunnage is the plectane having radiation hole, and described dunnage is diametrically equally divided into four pieces, and described dunnage is placed on ring thermostat tube, and radiation hole size is less than pressed active carbon size.

In said apparatus, described standpipe is four, and in four standpipes, an open top is connected with inlet tube, and the root bottom part opening in other three is connected with outer pipe, and be communicated with outside refrigerant circulation, all the other tops are all sealed.

In said apparatus, described ring thermostat tube is elliptical tube, and described standpipe is pipe, is marked with refrigerant or phase-change material in ring thermostat tube.

In said apparatus, fixed plate is connected with four standpipes, and fixed plate is fixed on standpipe by four clips, and fixed plate has radiation hole, and radiation hole size is identical with dunnage radiation hole.

The utility model compared with prior art, has following feature:

1, maintain storage tank constant temperature, improve adsorption efficiency.Have ring thermostat tube in storage tank, ring thermostat tube is connected with standpipe, and coil pipe is built with refrigerant or phase-change material etc.Suction port is arranged on tank bottom simultaneously, and air outlet is at top.Can countercurrent flow be formed when accessing outer loop refrigerant, without the refrigerant in bottom inflow first heat release heated constant temperature coil pipe during outer loop water, making the refrigerant in ring thermostat tube form self-loopa, balancing tank inside temperature.

2, fix active carbon, prevent blocking.Active carbon is powder-shaped matter, is directly filled in storage tank and flow resistance can be made to increase, and just can so need briquetting to put into storage tank.If block absorbent charcoal is arbitrarily stacked in storage tank, because the concussion of car causes the extruding, friction etc. of active carbon, powder can be generated, easily blocks inlet/outlet pipe when inflation/deflation in transportation process.The utility model is provided with dunnage and fixed plate, reduces the extruding between active carbon, friction after fixing active carbon, has filter screen to prevent blocking on inlet/outlet pipe simultaneously.

3, strengthen project organization, adapt to various working.Ring thermostat tube is elliptical tube, increases and strengthens heat exchange with upper and lower interface area of contact.Standpipe is mainly supporting effect, and circle contributes to the bearing capacity improving steel pipe, strengthens the ultimate bearing capacity of tank inside structure.Inner ring thermostat tube has external interface, when gas-storing capacity is few, inflationtime is long, controls tank temperature by the existing refrigerant of ring thermostat tube.When gas-storing capacity is many, inflationtime in short-term, outer loop refrigerant can be connect.

4, facilitate active carbon to change, regenerate.Active carbon uses after certain number of times can inactivation, and need to regenerate, this movable tank tank body is provided with laterally zygomorphic four hand holes, and dunnage is plectane, and to divide equally be four parts, and convenient the taking-up by active carbon in storage tank of said structure design regenerates.Also the refrigerant in storage tank ring thermostat tube can be discharged simultaneously, pass into high temperature N2 from storage tank suction port and regenerate.

Accompanying drawing explanation

Fig. 1 is the utility model tank structure plan view;

Fig. 2 is the utility model tank structure left view;

Fig. 3 is the utility model internal structure schematic diagram;

Fig. 4 is dunnage plan view;

Fig. 5 is the partial enlarged drawing of Fig. 3.

Shown in figure: hand hole 1, thermocouple temperature measurement mouth 2, safety valve 3, refrigerant inlet tube 4, refrigerant exit pipe 5, Imported gas pipe 6, gas outlet pipe 7, sewage draining exit 8, diffuses pipeline 9, ring thermostat tube 10, radiation hole 11, dunnage 12, fixed plate 13, standpipe 14, clip 15.

Embodiment

For better understanding the utility model, below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but mode of execution of the present utility model being not limited thereto, for the process parameter do not indicated especially, can refer to routine techniques and carrying out.

As shown in Fig. 1 ~ Fig. 5, a kind of absorbed natural gas transfer cask for natural gas storing and transport, there are constant temperature system and supporting structure in the inside of described transfer cask; Constant temperature system comprises radiation hole 11 and ring thermostat tube 10; Described supporting structure comprises dunnage 12, fixed plate 13 and standpipe 14;

Described ring thermostat tube 10 is communicated with standpipe 14; Described supporting structure comprises plural fixed plate 13, is fixed between described fixed plate 13 by standpipe 14; Described fixed plate 13 is provided with ring thermostat tube 10; Described ring thermostat tube 10 is placed with dunnage 12, and described dunnage 12 is placed with active carbon, described active carbon is provided with another block fixed plate 13; Described dunnage 12 has radiation hole 11;

The tank wall of described transfer cask respectively has two pairs of hand holes 1 up and down, and symmetrical between two in described hand hole 1, and the circle center line connecting spatial vertical of the circle center line connecting of upper two pairs of hand holes and lower two pairs of hand holes; Also comprise thermocouple temperature measurement mouth 2 and diffusion mouth 9, described thermocouple temperature measurement mouth 2 is arranged on main tank body, and described diffusion mouth 9 is arranged at the top of transfer cask.

Also comprise safety valve 3, refrigerant inlet tube 4 and outer pipe 5; Described safety valve 3 is arranged at tank top, and described refrigerant inlet tube 4 is positioned at tank top; Described outer pipe 5 is positioned at bottom.

Also comprise rock gas suction tude 6, gas outlet pipe 7 and sewage draining exit 8; Described rock gas suction tude 6 is positioned at tank bottom, and described gas outlet pipe 7 is positioned at tank top; Described rock gas suction tude 6 and gas outlet pipe 7 are all provided with filter screen, inlet/outlet pipe have valve respectively simultaneously; Described tank bottom is provided with sewage draining exit 8.

Described dunnage 12 is for having the plectane of radiation hole 11, described dunnage 12 is diametrically equally divided into four pieces, take out when dunnage 12 is divided into four pieces to facilitate regenerating active carbon and fill active carbon, described dunnage 12 is placed on ring thermostat tube 10, and radiation hole 11 size is less than pressed active carbon size.

Described standpipe 14 is four, and in four standpipes 14, an open top is connected with inlet tube 4, and the root bottom part opening in other three is connected with outer pipe 5, and be communicated with outside refrigerant circulation, all the other ports all seal.

Described ring thermostat tube 10 is elliptical tube, and described standpipe 14 is hollow circular tube, is marked with refrigerant or phase-change material in ring thermostat tube.And refrigerant or phase-change material etc. is marked with in ring thermostat tube 10.Standpipe 14 contributes to improving the total bearing capacity of internal structure for pipe, and ring thermostat tube 10 can increase the area of contact of coil pipe and upper and lower interface, enhancing heat exchange for elliptical tube.Also have fixed plate 13 in described internal structure, every layer of dunnage 12 has one piece of fixed plate 13, fixed plate 13 is for having the plectane of radiation hole 11, and the size of fixed plate 13 and fixed plate radiation hole 11 is identical with dunnage 12; Fixed plate 13 can to reduce in transportation process the phenomenons such as active carbon extruding, friction, reduces the generation of dust, prevents blocking.

Described fixed plate (13) is connected with four standpipes 14, and fixed plate is fixed on standpipe 14 by four clips 15, fixed plate 13 has radiation hole 11, and radiation hole 11 size is identical with dunnage 12 radiation hole.

embodiment 1

Design absorption storage tank total measurement (volume) 2.25m3, diameter is 1300mm, and be highly 2700mm, concrete form structure as shown in Figure 1.Air inlet/outlet adopts metal screen (200 order), and tank body has 4 temperature-measuring ports, mouth of pipe specification is Φ 3, and temperature-measuring port will be applicable to the thermocouple being of a size of Φ 1, and each thermocouple degree of depth in absorption storage tank is identical, and can be sent to computer display.The each metal tube of absorption tank inside does not contact with each other, and gap spacing is greater than 30mm active carbon boundary dimension.Absorption tank inside is divided into 4 layers by ring thermostat tube, and floor height is 332.5mm.Gas replenishment process requires to be full of storage tank in 12 minutes, and ensure that the volume percent methane of inlet gas is greater than 90%, water content is less than 5%, inlet flow rate is less than 0.7Nm simultaneously ³/ min, pressure are less than 4.2MPa, gas cylinder internal temperature be no more than inlet temperature ± 15 DEG C.Deflation course requires to discharge in 22 minutes, and simultaneously outlet pressure is a little more than barometric pressure, outlet temperature higher than 0 DEG C, during venting gas cylinder internal temperature also require to be no more than inlet temperature ± 15 DEG C.

Gas replenishment process:

Rock gas is come in from upstream pipe network, first pressure regulation after the pre-adsorption tanks of station, when pressure reaches 4.0MPa, first after the batching unit of station, connects suction tude 6, opens inlet valve, regulates charge flow rate and pressure by the needle-valve before flowmeter.Inflate that total duration is 10 minutes, inlet flow rate is 0.66Nm3/min, inlet pressure 3.9MPa, inlet temperature is 25 DEG C, and gas cylinder internal thermocouple value is 36 DEG C.

Reach required flow when flowmeter has shown, absorption tank inside thermocouple value has changed not quite, when absorption pressure of storage tank is stabilized in 4.0MPa, first closes gas inlet 6 pressure regulator valve lentamente, then closes reservoir inlet valve.

Deflation course:

Steam outlet pipe 7 is connected with downstream user, first by valve closing before and after downstream flow meter, opens the valve in flowmeter by-pass valve and downstream, confirm the pressure needed for the pipe network of downstream, and the pressure regulation force value needed for the setting of downstream pressure regulating valve.Rock gas from absorption outlet out, by needle-valve before flowmeter, regulates gas outlet flow, then after flowmeter metering, and through downstream pressure regulator valve pressure regulation to required pressure.Total duration of exitting is 20 minutes, and outlet pressure is 1.1MPa, outlet temperature 10 DEG C, and tank inside temperature is 7 DEG C.When the complete emptying of tank inside gas, close downstream pressure regulator valve and valve, then close the outlet valve of storage tank.

Storage tank regenerative process:

By blow-down pipe 9, the pressure of absorption storage tank is let out micro positive pressure.With high temperature hose, N2 and ANG is adsorbed storage tank suction port to connect, regulate the pressure of regeneration gas after electric heater is heated to 200 DEG C, to pass into ANG to 0.3MPa, N2 and adsorb storage tank, open reservoir inlet valve, carry out the regeneration of absorption storage tank.Record current absorption pressure of storage tank and temperature, regeneration gas pressure and temperature, recovery time.When absorption pressure of storage tank is constant and identical with high temperature N2 pressure, when the temperature fluctuation of absorption tank inside is little, can stop the regeneration of absorption storage tank.By blow-down pipe 9, the high temperature N2 in storage tank is discharged.

Above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to mode of execution of the present utility model.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.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.

Claims (8)

1., for an absorbed natural gas transfer cask for natural gas storing and transport, it is characterized in that: there are constant temperature system and supporting structure in the inside of described transfer cask; Constant temperature system comprises radiation hole (11) and ring thermostat tube (10); Described supporting structure comprises dunnage (12), fixed plate (13) and standpipe (14);

Described ring thermostat tube (10) is communicated with standpipe (14); Described supporting structure comprises plural fixed plate (13), is fixed between described fixed plate (13) by standpipe (14); Described fixed plate (13) is provided with ring thermostat tube (10); Described ring thermostat tube (10) is placed with dunnage (12), (12) are placed with active carbon to described dunnage, described active carbon are provided with another block fixed plate (13); Described dunnage (12) has radiation hole (11).

2. according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, the tank wall of described transfer cask respectively has two pairs of hand holes (1) up and down, and symmetrical between two in described hand hole (1), and the circle center line connecting spatial vertical of the circle center line connecting of upper two pairs of hand holes and lower two pairs of hand holes; Also comprise thermocouple temperature measurement mouth (2) and diffusion mouth (9), described thermocouple temperature measurement mouth (2) is arranged on main tank body, and described diffusion mouth (9) is arranged at the top of transfer cask.

3., according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, also comprise safety valve (3), refrigerant inlet tube (4) and outer pipe (5); Described safety valve (3) is arranged at tank top, and described refrigerant inlet tube (4) is arranged at tank top; Described outer pipe (5) is positioned at bottom.

4., according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, also comprise rock gas suction tude (6), gas outlet pipe (7) and sewage draining exit (8); Described rock gas suction tude (6) is positioned at tank bottom, and described gas outlet pipe (7) is positioned at tank top; Described rock gas suction tude (6) and gas outlet pipe (7) are all provided with filter screen, inlet/outlet pipe have valve respectively simultaneously; Described tank bottom is provided with sewage draining exit (8).

5. according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, described dunnage (12) is for having the plectane of radiation hole (11), described dunnage (12) is diametrically equally divided into four pieces, described dunnage (12) is placed on ring thermostat tube (10), and radiation hole (11) size is less than pressed active carbon size.

6. according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, described standpipe (14) is four, in four standpipes (14), an open top is connected with inlet tube (4), a root bottom part opening in other three standpipes (14) is connected with outer pipe (5), be communicated with outside refrigerant circulation, all the other tops are all sealed.

7., according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, described ring thermostat tube (10) is elliptical tube, and described standpipe (14) is pipe, is marked with refrigerant or phase-change material in ring thermostat tube.

8. according to claim 1 for the absorbed natural gas transfer cask of natural gas storing and transport, it is characterized in that, fixed plate (13) is connected with four standpipes (14), fixed plate is fixed on standpipe (14) by four clips (15), fixed plate (13) has radiation hole (11), radiation hole (11) size is identical with dunnage (12) radiation hole.