CN101514300A - Method for preparing gas hydrate accelerant - Google Patents

Abstract

The invention provides a method for preparing gas hydrate accelerant, which takes a high pressure gas cylinder as gas source; the high pressure gas cylinder is regulated to have proper pressure by a pressure regulating valve, and the consumed natural gas is calculated by a mass flowmeter; the temperature and the pressure in a reactor are monitored by a pressure and temperature transmitter; thermostatic waterbath is used for controlling the temperature of the liquid in a trough, thus regulating the temperature in the reactor; a data acquisition system and a computer are used for collecting data, and an opto-electrical lens is used for monitoring the forming situation of hydrate in the reactor. The composite accelerant is low in cost and little in dosage, ensures the generating condition of the hydrate to be reduced, the time to be shortened and the gas storage quantity to be increased, and effectively improves the economic benefit of the production of the hydrate.

Description

A kind of preparation method of gas hydrate accelerant

Technical field

The present invention relates to gas hydrate production and utilize technical field, refer in particular to a kind of preparation method who quickens the efficient compound promotor of gas hydrate formation.

Background technology

At present, the new technology development of using based on gas hydrate not only develops rapidly in the energy, environmental protection field, and also obtained major progress in some other field, for example the solid-state conveying of Sweet natural gas and storage, gas hydrate are as vehicle fuel, based on the new separation technology that generates hydrate (the concentrating of desalination technology, aqueous organopolysiloxane, separation of gaseous mixture and nearly critical and supercritical extraction etc.) and based on the biotechnology of hydrate and field of new etc.But hydrate is closely bound up with inhibition and promoter action that gas hydrate generates in the application in these fields, the obstruction of factor such as be subjected to that its gas storage density is low, formation speed is slow and induction time is long, the maximum technology barrier that especially current Application of Hydrate technology faces is exactly generating rate and the efficient that how to improve hydrate.For example methane pressure in static pure aquatic system be 5.76MPa,, when temperature was 4.3 ℃, the induction time that forms hydrate was more than 28 hours, the speed of growth of hydrate crystal is slow directly to influence the popularization that hydrate utilizes technology.For addressing these problems, adopted several different methods to promote the formation (Lin Yula etc. of hydrate, the chemical industry progress, 2005,24 (11): 1229-1233):, brought some other unfavorable factors again but stir: energy expenditure increase, the reduction of hydrate gas storage density etc. by stirring the speed of growth that can improve hydrate; Adopt ultrasonic atomization, increase the air-water contact area, can improve the hydrate formation speed, but the ultrasonic atomizer that system adds not only makes investment cost increase, and working cost also increases; Spray and bubble method can both increase phase contact area, thereby improve the hydrate formation speed; Add some additives and can promote hydrate to generate in hydrate formation system, improve the hydrate speed of growth, studying more both at home and abroad is to add anion surfactant in water, as sodium lauryl sulphate (SDS), tetrahydrofuran (THF) etc.Can make hydrate form induction time and shorten to 1～1.5 hour, pressure reduces by 1～2MPa than pure aquatic system.Yet, although this class tensio-active agent can make the hydrate formation speed accelerate, but can not be satisfactory, and hydrate gas storage density is not high.Therefore, studying new compound gas hydrate accelerant, is the only way that advances the hydrate industrialization.

Summary of the invention

The objective of the invention is at the deficiencies in the prior art, a kind of energy expenditure increase, hydrate gas storage density height are provided, capital cost is little, the efficient composite hydrate promotor preparation method of economical operation.For achieving the above object, the present invention adopts following technical scheme:

It is mixed as tensio-active agent as additive and sodium lauryl sulphate (SDS) by sodium-chlor (NaCl).The quality percentage composition that sodium-chlor (NaCl) accounts for solvent is 0.2～6.5%; The concentration of tensio-active agent sodium lauryl sulphate (SDS) is 0.3 * 10 ^-3～0.8 * 10 ^-3Mol/L.

The preparation facilities that the present invention adopts comprises gas cylinder, relief valve, mass flowmeter, control valve, vacuum pump, pressure, temperature transmitter, water bath with thermostatic control, tank, reactor, data collecting system, computer etc.As source of the gas, be transferred to suitable pressure by gas cylinder, with mass flowmeter stoichiometric consumption Sweet natural gas through relief valve.By the temperature and pressure in pressure, the temperature transmitter monitoring reaction device.Control fluid temperature in the tank by water bath with thermostatic control, thus temperature in the conditioned reaction device.Also form situation by data collecting system and computer data acquisition by hydrate in the photocell lens monitoring reaction device.This system works pressure is 0～30MPa, and temperature range is 1 ℃～30 ℃.

Preparation process is as follows:

1) with vacuum pump reactor, piping system are vacuumized about 40～50min of pumpdown time.

2) with the compound accelerant aqueous solution of the different concns for preparing, inject reactor, stir 3～5min, and be pre-chilled to 1 ℃～10 ℃ temperature earlier.

3) open control valve, High-Voltage Experimentation gas is charged into reactor, reacting system pressure is maintained the required pressure 1～30MPa of experiment by relief valve.

4) set 1 ℃～15 ℃ of experimental temperatures, start the temperature controlling system of experimental installation.Utilize water-bath that reactor is cooled off, the temperature in reactor reaches design temperature.

5) carry out hydrate and generate experiment.

In experimentation, distilled water is with the self-control of stainless steel electrical distiller, is that the BS200S type analysis balance of 0.1g takes by weighing by precision; The tensio-active agent precision is that the TG328A type photoelectric analytical balance of 0.1mg takes by weighing.Can gather experimental data and image in real time by computer.

Beneficial effect of the present invention:

(1) it is effective that hydrate generates promoter action

Pure kinetics promotor can only be reduced the hydrate formation condition, can not reduce the hydrate rise time.Pure tensio-active agent can only reduce the hydrate rise time, can not obviously reduce the hydrate formation condition, can not improve hydrate gas storage density.And composite hydrate accelerant can reduce the hydrate formation condition and can reduce the hydrate rise time, improve hydrate gas storage density.

(2) be widely used

Can be used widely in fields such as gas hydrate storaging and transport technology, gas hydrate isolation technique and sea water desaltinations.

(3) cost is low, and is economical good

Compound accelerant cost of the present invention is low, and consumption is few, and the condition that hydrate is generated reduces, and the time shortens, and gas-storing capacity increases, and has improved hydrate production economic benefit effectively.

Description of drawings

Fig. 1 is that hydrate generates the experimental installation schema

1, gas cylinder; 2, relief valve; 3, mass flowmeter; 4, check valve; 5, gate valve; 6, vacuum pump; 7, pressure, temperature transmitter; 8, water bath with thermostatic control; 9, tank; 10, reactor; 11, data collecting system; 12, computer; 13, photocell lens.

Embodiment

Below the present invention is further described in detail, but embodiments of the present invention are not limited in this.

The experimental installation that the present invention adopts as shown in Figure 1, by gas cylinder 1; Relief valve 2; Mass flowmeter 3; Check valve 4; Gate valve 5; Vacuum pump 6; Pressure, temperature transmitter 7; Water bath with thermostatic control 8; Tank 9; Reactor 10; Data collecting system 11; Computer 12 compositions such as grade.As source of the gas, be transferred to suitable pressure with gas cylinder 1, with mass flowmeter 3 stoichiometric consumption Sweet natural gases through relief valve 2.By the temperature and pressure in pressure, the temperature transmitter 7 monitoring reaction stills 10.Control fluid temperature in the tank 9 by water bath with thermostatic control 8, thus temperature in the conditioned reaction device.Also form situation by data collecting system 11 and computer 12 image data by hydrate in the photocell lens 13 monitoring reaction devices.Vacuum pump 6 is used for aspirating liquid in the reactor.This system works pressure is 0～30MPa, and temperature range is-10 ℃～50 ℃.

Concrete preparation process:

1) with vacuum pump 6 reactor 10, piping system are vacuumized, the pumpdown time is 40～50min.

2) for getting rid of the air in reactor 10 and the piping system as far as possible, with experimental gas they are replaced twice, and then vacuumize.

3) the compound accelerant aqueous solution with the different concns for preparing injects reactor 10, stirs 3～5min, and is pre-chilled to certain temperature earlier.

4) open check valve 4, High-Voltage Experimentation gas is charged into reactor 10, reacting system pressure is maintained the required pressure of experiment by relief valve 2.

6) set experimental temperature, start the temperature controlling system of experimental installation.Utilize 8 pairs of reactors 10 of water bath with thermostatic control to cool off, the temperature in reactor 10 reaches design temperature.

7) carry out hydrate and form experiment.

Embodiment:

The compound promotor of selecting for use consists of: add aqueous quality percentage composition be 0.3～6.5% sodium-chlor (Nacl), tensio-active agent is sodium lauryl sulphate (SDS), concentration is 0.3 * 10 ^-3～0.8 * 10 ^-3Mol/L sees Table 1.Experimental procedure is the same.Hydrate generate equilibrium conditions be temperature at 1.9～5.5 ℃, pressure is 0.79～2.7Mpa.

Table 1 compound accelerant prepares concentration

Draw by experiment under these conditions, the induction time that hydrate forms is at 3～17min; Gas storage density is at 163m ³/ m ³More than.

Claims (1)

1, a kind of preparation method of gas hydrate accelerant, it is characterized in that, mix as tensio-active agent as additive and sodium lauryl sulphate by sodium-chlor, the quality percentage composition that sodium-chlor accounts for solvent is 0.2～6.5%, and the concentration of tensio-active agent sodium lauryl sulphate is 0.3 * 10 ^-3～0.8 * 10 ^-3Mol/L; Its preparation process is:

1) with vacuum pump (6) reactor (10), piping system are vacuumized, the pumpdown time is 40～50min;

2) with experimental gas to the air displacement twice in reactor (10) and the piping system, and then vacuumize;

3) the compound accelerant aqueous solution with the different concns for preparing injects reactor (10), stirs 3～5min, and is pre-chilled to 1 ℃～10 ℃ temperature earlier;

4) open check valve (4), High-Voltage Experimentation gas is charged into reactor (10), reacting system pressure is maintained 1MPa～30MPa by relief valve (2);

6) set experimental temperature, start the temperature controlling system of experimental installation, utilize water bath with thermostatic control (8) that reactor (10) is cooled off, the temperature in reactor 10 reaches design temperature;

7) carry out hydrate and form experiment.

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