化学驱油技术相关进展.ppt

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1、Surface tension determination with the maximum differential pressure method,Wang Zengbao,2012.11,EXPERIMENT 1,1. Experimental purposes,(1)Master the principles and methods of maximum differential pressure method for the determination of surface tension.(2)Measure the surface tension of n-butyl alcoh

2、ol solution, and understand the concept of surface tension and influencing factors.(3)Learn Gibbs equation and its applications.,2. Experimental principles,Polyacrylamide can be synthesized from acrylamide triggered by ammonium persulfate:,Polyacrylamide can hydrolyze in alkaline solution, which gen

3、erates partially hydrolyzed polyacrylamide:,（1）,The additional pressure which is formed when the water drops down in the wide mouth bottle,The curvature radius of the bubble,The surface tension （N/m）,2. Experimental principles,Therefore, at the same temperature, once the P1, P2 are measured, and the

4、 IFT of the liquid(water) whose IFT is known is found out according to the temperature table,then we can calculate the IFT of the unknown liquid from the formula 。,（1）,2. Experimental principles,3.Apparatus and reagents,Apparatus One set of device to measure the IFT with the method of maximum differ

5、ential pressure,Bottle, rubber pipette bulb. ReagentsN-butyl alcohol (analytically pure), distilled water.,4.Experimental procedures,(1)Wash the external case and the capillary tube of the instrument used to measure surface tension with lotion. First add a little lotion into the external case,rotati

6、on it inclined so that the lotion can contact with the external case(be careful not to let the lotion outflow from the side of the tube).Then insert the capillary tube and maintain the inclined external case still.Rotate the capillary tube to make the lotion contact with the capillary tube.Adsorb so

7、me lotion with the rubber pipette bulb to the capillary tube to wash the inside of the capillary tube.Pull the spent lotion to its original bottle and wash the external case and the capillary tube with running water fully.Finally,wash the external case and the capillary tube with distilled water thr

8、ee times respectively.Then we can go on with the following experiences.,4.Experimental procedures,(2)Put some distilled water into the external case(regard as liquid of known IFT. See Appendix II to get its surface tension).Insert the capillary tube into the external case and plug the plug tightly a

9、nd let the tip of the capillary tube touch the liquid surface exactly.Read out the zero level h0 of the tube beneath the inclined tube manometer(At this point both ends of the inclined tube manometer connect with the atmosphere).Install the device according to figure2-1,where the separatory funnel i

10、s filled with tap water.,4.Experimental procedures,(3)Open the piston of the separatory funnel to let the water in it drip slowly into the wild-mouth bottle.Then the pressure inside the bottle increase gradually and bubbles will pass through the end of the capillary tube.Read out the highest level h

11、1 from the inclined tube manometer when the first bubble pass through it.Repeat the same procedures three times and calculate the average value h2.,4.Experimental procedures,(4)Drain the distilled after the maximum differential pressure has been measured.Wash the external case and the capillary tube

12、 once with butanol with the concentration of 0.002mol/L.Then add the solution and measure its maximum differential pressure just like the distilled water.Measure the maximum differential pressure of the butanol solution with the concentration of 0.05,0.10,0.15,0.20,0.25,0.30,0.35mol/L . (Note: every

13、 time the solution is changed, we should use the Pending liquid to wash the external case and the capillary tube),(5) Record the experimental temperature.,(1)Isolate the surface tension of distilled water at experimental temperature from the appendix. (2)Calculate the surface tension of solution wit

14、h different concentration of normal butyl alcohol by (3)Using surface tension as vertical ordinate,concentration as horizontal scale,draw the -c figure of nomal butyl alcohol solution on the coordinate paper.(4)Select some points from the-c figure and draw the tangents of different concentration cur

15、ve .Then calculate the surface adsorptive capacity according to the Gibbs equation ;and draw the isothermal adsorption curve of nomal butyl alcohol solution,5.Experimental results processing,6.Questions,(1)During experiment ,if the capillary insert the liquid surface by 1mm ,how much error will brin

16、g about?(2)During experiment ,why do we slow the barbotage ?(3)During experiment,why do we measure the surface tension of different concentration solution from from low to high.,Preparation and electrophoresis of colloids,Wang Zengbao,2011.4,EXPERIMENT 3,1. Experiment purposes,（1）Learn the basic pri

17、nciples of preparation of sol (colloid), and master the main methods of preparation sol;（2）Mensurate the electrokinetic potential of AgI (silver iodide) sol by measuring the movement of interface.,2. Experiment principles,Colloidal sol is a highly dispersed system with solid of very small solubility

18、 dispersing in liquid. Its diameter changes in the range of 10-7 to 10-9 meter.,The formation of stable colloidal material involves two facets: the dimension of the dispersed phase within the colloidal range; the particles dispersed in liquid should not aggregate, so stabilizing agent usually added.

19、Basically, the preparations of colloidal systems involve either degradation of bulk matter or aggregation of small molecules, ions or particles.,Electrophoresis of colloidsUnder an external electric field the colloidal particles moving to the positive electrode or negative electrode, this phenomena

20、is called electrophoresis. Electrophoretic potential can be measured by electrophoresis through two methods: microscopic method and macroscopic method.,2. Experimental principles,3.Apparatus and reagents,ApparatusElectrophoresis apparatus; Electrophoresis tube; Stopwatch; Pt electrode, 2; 100mL Beak

21、er, 3; Plastic head dropper ,2;25mL Graduated flask, 2 , and so on.ReagentsSilver nitrate solution (0.01mol/L); Potassium iodide solution (0.01mol/L); Potassium chloride solution (0.005mol/L),Preparation of AgI negative solution20mL 0.01mol/L KI (Potassium iodide) solution is added to a 100mL beaker

22、, 18.7mL 0.01mol/L AgNO3 (Silver nitrate ) solution is dropwise added to the beaker under stirring, AgI negative colloid is prepared.,4.Experiment procedures,Determination of potential (1) The electrophoresis apparatus should be washed clean (2) Fixed the electrophoresis apparatus vertically on the

23、iron support stand (3)Close the piston, Add colloid through the funnel with plastic head dropper(4) Assistant solution is added into the U-tube (5) Open the piston slowly, when colloid up to 0-tick，close the piston (6)Gently insert two electrodes, immerge assistant solution 1cm(7)Push the electropho

24、resis apparatuss “start” button, and record the time that the interface rising 0.5, 1.0, 1.5 cm cost with a stopwatch. (8)Turn off the power, measured the distance of two electrodes by a ruler. Wash the apparatus,4.Experiment procedures,（1）Summarize the method of preparation of colloid;（2）Calculate

25、potential of AgI negative colloid.,5.Experiment results processing,6.Questions,（1）What are the similarities and differences among different preparation methods?（2）Why must the conductivity of the assistant solution be equal to that of the colloid? What is the function of that for calculating the pot

26、ential?（3）What are the reasons that cause the color, definition and moving speed differences between the rising interface and declining interface?（4）What are removed through dialysis of Fe (OH)3? Is there any way to detect degree of purification? Is it to remove all the ions dispersed in the solutio

27、n during dialysis?,Coagulation of Inorganic Electrolyte and Flocculation of High Molecule Polymer,Geng Jie,2012.11,EXPERIMENT 4,1. Experiment purposes,(1) Master principle and method of sol coagulation.(2) Verify coagulation symbol and valence number rule of electrolyte.(3) Understand the flocculati

28、on of the water-soluble polymer to the sol.,2. Experiment principles,(1) Coagulation of inorganic electrolyte,The entire process that the sol losses coagulation stability and then losses dynamic stability is called coagulation. The sol can be caused to coagulate by electrolyte. The reason is that th

29、e electrolyte can decrease potential of sol, and the higher electrolyte concentration, the lowerpotential is. When thepotential drops to a certain value, the sol will lose coagulation stability, and then will occur coagulation.The higher ion valence number of opposite sign, the greater coagulation a

30、bility of electrolyte is. This is consistent with SchlZe-Hardy Rules. M+:M2+:M3+（25150）（0.52）（0.010.1）,The mutual coagulation phenomenon is that mixing the two sols with the opposite electric charge can also cause coagulation. There are usually two mechanisms.Electric nature neutralization about two

31、 kinds of sol particles of opposite electric charge.A sol with high counter-ion of opposite electric charge sol.,2. Experimental principles,(2) Mutual coagulation phenomena,When the concentration of polymer is very low, main manifestation of polymer is flocculation for sol. Flocculation is created d

32、ue to bridging of polymer to sol particles. Bridging theory: When the concentration of polymer is very low, polymer chains can be absorbed on several colloidal particles at the same time. Several particles join together through bridging. Due to rotation and vibration of polymer chains, colloidal par

33、ticles join together and subside.,2. Experimental principles,(3) Flocculation of high polymer,3. Instruments and Chemicals,Instruments 722 spectrophotometer, 100mL conical flask, 10mL micro-burette, 5mL pipette, 10mL pipette, 10mL test tube, 20mL test tube, 50mL plug graduated cylinder, 50mL beaker,

34、 100mL beaker. Chemicals0.01mol/L KCl, 0.001mol/L K2SO4, 0.001mol/L K3(COO)3C3H4OH, Fe(OH)3 sol，clay sol.,(1) Coagulation of electrolyte to solIn the three clean, dry 100mL conical flasks, add 10mL Fe (OH)3 sol with pipette respectively. Then instill electrolyte solution listed in Table 4-1 with mic

35、ro-burette respectively, and add each drop with fully oscillation. Sol does not appear roily at least one minute before adding the second. Record the volume of electrolyte solution when just appear roily, and list in Table 4-1.,4.Experiment procedures,4.Experiment procedures,Table4-1 coagulation rec

36、ord about different electrolytes to sol,(2) Mutual coagulation between clay sol and Fe(OH)3 solTake six dry test tubes, and add the amount of Fe (OH)3 sol according to Table 4-2 in each test tube. Then add the clay sol in all test tubes, so that the total volume of the sol is 6mL in each test tube.

37、Shake each test tube, rest 10 minutes, and record the coagulation phenomena of each test tube.,4.Experiment procedures,4.Experiment procedures,Table4-2 the record sheet about mutual coagulation of sols,(3) Flocculation of high polymer Take three 50mL plug graduated cylinder with similar internal dia

38、meter, respectively add 30mL clay sol with pipette, respectively add the 0.02% partially hydrolyzed polyacrylamide (HPAM) solution of 2106 molecular weight 2drops10drops and 40drops and fro turn 10 times, rest 2 minutes, draw 5mL solution at 2cm department under the surface, with 722 spectrophotomet

39、er (the Appendix eight), at the wavelength of 420nm, measure optical density with the distilled water as blank, and fill the data into Table 4-3.,4.Experiment procedures,4.Experiment procedures,Table4-3 the record sheet of flocculation about HPAM to clay sol,*Ar is the ratio of sol optical density w

40、ith HPAM and without HPAM. If Ar=1, that is not complete flocculation and if Ar = 0, that is complete flocculation. So Ar can show the degree of flocculation.,(3) Flocculation of high polymer In this study, the volume of HPAM added is not fixed, only for reference. Because the best flocculated conce

41、ntration change with the molecular weight of HPAM, degree of hydrolysis, the sol concentration and preparative conditions. Therefore, the amount of HPAM added can make appropriate changes based on the actual situation.,4.Experiment procedures,(1) Particularly observe various phenomena in experiment,

42、 record these phenomena and data and fill in the form with the data.(2) According to the results, determine the electric nature of Fe (OH)3 sol and clay sol.(3) Compare the coagulation values of different electrolytes, and verify SchlZeHardy law.(4) Draw up Ar-c curve with the quality percentage of

43、HPAM as X-axis and flocculation efficiency Ar as Y-axis, and explain it.,5.Experiment results processing,6.Questions,(1) Why must the Fe (OH)3 sol go through dialysis before flocculation test?(2) Whether is the coagulation values of different electrolysis to the same sol same? Why?(3) When the conce

44、ntration of polymer is higher in the sol, what will arise, and why?,Preparation identification and breakdown of emulsion,Wang Zengbao,2012.12,EXPERIMENT 5,1. Experimental purposes,（1） Preparation of different types of emulsion;（2） Understand some method of the emulsion preparation;（3） Familiar with

45、some damage emulsion method.,2. Experimental principles,Emulsion is a liquid dispersed in another immiscible liquid in the form of dispersion. There are two types of emulsion, namely oil in water type (O/W) and oil-water type (W/O). Only two immiscible liquids can not form a stable emulsion. To form

46、 a stable emulsion, emulsifier must exist. In general emulsifiers are mostly surface active agent. Surfactant could reduce the surface energy and form protective film of the droplet surface, or make the droplet surface charged to stabilize the droplet emulsion.,2. Experimental principles,Emulsifiers

47、 could also be divided into oil in water emulsifier and oil-water emulsifier. Generally monovalent metal fatty acid soap (eg sodium oleate) is hydrophilic than hydrophobic, so its oil in water emulsifier. Divalent or trivalent fatty acid soap (such as magnesium oleic acid) is lipophilic than hydroph

48、ilic, so is the water-in-oil emulsifier.,The following three methods could identify the two types of emulsions:,（1）Dilution,（2）Conductivity method,（3）Staining,2. Experimental principles,Add one drop of emulsion in the water, if it spreads out immediately, it means that the dispersion medium is water

49、, so it is oil in water emulsion; And it is water in oil emulsion if it is not immediately disperse.,（1） Dilution,2. Experimental principles,Water phase generally contains ions, so its conductivity is much greater than the oil phase. When the water medium is dispersion medium (continuous phase), the

50、 conductivity of emulsion is large; the other hand, if oil is continuous phase and water is the dispersed phase, water droplets are not continuous, so the conductivity of emulsion is weak. Two electrodes which are connected to DC power supply and ammeter are inserted into the emulsion solution. If there is significant deflection of ammeter, the emulsion is oil in water solution; if the pointer does not move, the emulsion is water in oil emulsion.,