CN1148660A - Mineralizing gradient water-filling method for low-permeable reservoir - Google Patents
Mineralizing gradient water-filling method for low-permeable reservoir Download PDFInfo
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- CN1148660A CN1148660A CN 96119421 CN96119421A CN1148660A CN 1148660 A CN1148660 A CN 1148660A CN 96119421 CN96119421 CN 96119421 CN 96119421 A CN96119421 A CN 96119421A CN 1148660 A CN1148660 A CN 1148660A
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- water
- salinity
- filling
- reservoir
- injection
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Abstract
The present invention relates to a low-permeability reservoir mineralization water injection method. According to the theory of activity balance, firstly the injection water whose mineralization is near to that of stratum is injected into stratum, then the injection water mineralization is progressively reduced, and after several cycles of water injection, the normal fresh water is injected, so that it can retain the relative balance of injected water mineralization and stratum water mineralization, and can greatly reduce the reservoir permeability damage resulted from clay hydration swelling, and possesses the advantages of low cost, convenient construction and retaining oil field stable water injection for a long period, so that it can be extensively used for conversion well of oil field.
Description
The invention belongs to the method for oil field underground water-injection operation raising water injection rate, particularly relate to a kind of salinity gradient water-filling method that improves low-permeability reservoirs that is applicable to.
The oil field is for high yield steady in a long-term, need remain on the mining type under the original formation pressure state, and adopt to the stratum water filling is to improve a kind of of oil recovery factor to have measure also to be used widely, this has meaning of crucial importance for improving oil recovery factor how to keep stablizing water filling, in band rule water filling operation, in order to reduce the injury of injecting the water reservoir, not only need injecting outside water quality handles, also will add clay stabilizer and cause the in-place permeability infringement and bring the low consequence of water injection rate, but this method is difficult to realize to prevent the reservoir hydration and expansion of clay to the serious stratum of down-hole water sensitivity; 1986-1995 " american petroleum digest " and " external oil gas science and technology " low permeability reservoir are developed new direction and new technology " Oil-Gas Field Development Engineering collected translation " by retrieval in addition, all be engaged in number of research projects aspect the exploitation of low-permeability oil deposit both at home and abroad as can be seen from the situation of retrieval, many concrete grammars have also been proposed, have for the measure of abroad taking under low permeability reservoir and the argillic horizon content condition with higher: hot-water flooding, the circulation water filling, CO
2-foam flooding or the like, and overseas utilization salinity gradient injection technique is utilized in the exploitation of day polymer injection more.These all are the very strong measures of specific aim, and wherein hot-water flooding and circulation water filling steam have also all been obtained better effects, and adopt straight the present of method of the present invention not to be reported.
Task of the present invention is that propose for the shortcoming that overcomes said method a kind of can be in the salinity gradient water-filling technology of low infiltration sandrock reservoir.So as to improving the injection rate of injecting well.
Implementation of the present invention is:
The present invention is mainly to be to be caused by osmosis according to underground reservoir hydration and expansion of clay principle, in water injection well in oil fields, be lower than under the salinity situation of stratum mud shale moisture content especially owing to injecting water salinity, cause hydration and expansion of clay when injecting to make clay particle generation surface hydration and percolating water occur after water enters the stratum, when the two salinity difference is very big, osmotic pressure strengthens, clay swell phenomenon in stratum is also encouraged evil more, suppress this chemosmotic generation, reduce hydration and expansion of clay and can only take following chemical method, be artificial to make that to inject water identical with formation water salinity or chemical potential, glue the activity of water in soil when identical injecting water activity and stratum, allow and inject water activity and mud shale activity balance, chemical potential equates that at this moment osmotic hydration has not just existed yet.But often difference is very big owing to injecting water salinity and formation water salinity in actual water injection technology is produced, if improve the activity balance that the injection water salinity no doubt can keep system with inorganic salts, but must need a large amount of inorganic salts, be difficult to so in actual applications realize, therefore, method of the present invention is to select for use the injection water of close formation water salinity to inject the stratum, reduce the sand degree that injects water later on more gradually, inject all after dates through some months like this, change normal injection again over to, can keep injecting the salinity and the formation water salinity relative equilibrium of water, promptly kept chemical potential to equate, thereby alleviated greatly because of reservoir medium clay soil percolating water expands to the extent of damage of permeability, raising neighbour of the present invention advances to inject water salinity injection stratum way and can realize by following approach:
1, at first determines to inject well reservoir formation salinity, add inorganic salts: KCL, Nacl, NH toward injecting in the water according to concentration
4CL, CaCL
2, MgCL
2, make it to reach the balance of injection water and formation water salinity chemical potential in case hydration and expansion of clay effect generation.
2, in each water injection cycle, reduce the consumption that injects inorganic salts in the water according to the salinity of underground reservoir thickness and preliminary treatment water filling radius gradually after, continue water filling in the well.
3, after to the stratum cyclic waterflooding, can make the reservoir salinity be placed on the injection water salinity, just can change normal water filling (referring in well, inject fresh water) subsequently over to.
The present invention is owing to adopt the salinity gradient water-filling technology of low infiltration sandrock reservoir, alleviate with having prevented the permeability decrease that the reservoir medium clay soil brings because of hydration swelling and influence the drawback of injecting effect, for certain oil field, use the present invention can make oil field water filling steady in a long-term and have cost and hang down characteristics such as easy construction, therefore, can promote the use of new the throwing in the converted production well.
The present invention is provided by following examples:
Embodiment 1:
The alleged method of the present invention need be looked different regions and be selected the inorganic salts consumption.
Flourish 1 4-38 well gradient water-filling in the oil field, Rong Xing village
The former salinity 6000mg/l in this well reservoir, this well formation water salinity is that 6000mg/l injects water adding NaCL6 kilogram every side then during the 1st cyclic waterflooding, day injection water 60-65m
3, 12 meters of water filling radiuses, water injection cycle 15 days, water filling second round salinity is 3/4 former stratum water salinity, water injection cycle is 12 days, day water filling 60-65m
3, giving the water filling radius is 10 meters; Period 3 water filling salinity is 1/2 former stratum water salinity, water injection cycle 10 days, day water filling 65m
3, estimate 9 meters of water radiuses, like this, after three cyclic waterfloodings, change the normal water filling that does not add inorganic salts over to, by the end of in March, 95, the balance water filling 16 months of this well, accumulative total water filling 30,000 sides; Only water filling 4000 is in many ways and compare certain well with certain offset well of the equal conditions of areal.
Embodiment 2: 2 gradient water-filling wells are handed in the oil field, Kailu.
This piece formation water total salinity 3290.57mg/l adopts every 1m during the first gradient cyclic waterflooding
3Adding inorganic salts in the entry is respectively 2.6kg/m
3(NaCL:2.225KG/m wherein
3, CaCL
20.195/m
3, (H
2O)
6MgCL
2: 0.130kg/m
3) the water filling salinity is that 2600mg/l annotated 400 sides in average month and is total to side surplus the water filling 25 days 10000, adopts every 1m during the second gradient cyclic waterflooding
3Injecting water adding inorganic salts is respectively 16kg/m
3(NaCL:1.4Kg/m wherein
3, CaCL
2: 0.12kg/m
3(H
2O) mgcl
2, 0.80kg/m
3), the injection water salinity is 1600mg/L, day annotates 670 side's water, annotates 25 days 16750,16750 side's water altogether, period 3 each rice during gradient water-filling
3Add inorganic salts 1.1kg/m
3, be respectively: Nacl:0.961kg/m
3, Cacl:0.083kg/m
3/ (H
2O)
6MgC/i:0.055kg/m
3The injection water salinity is 1100mg/l, and day notes 920 side's water were annotated 13800 sides altogether 15 days.Period 4 is during gradient water-filling, each rice
3Add inorganic salts 0.6kg/m
3Be respectively NaCL:0.525kg/m
3, CaCL
2: 083kg/m
3/ (H
2O)
6MgC/i:0.055kg/m
3The injection water salinity is 110mg/l, and day notes 920 side's water were annotated 13800 sides altogether 15 days.Period 4 is each rice during gradient water-filling
3Add inorganic salts 0.6kg/m
3, be respectively NaCL:0.525kg/m
3, CaCL
2: 0.046kg/m
3, (H
2O)
6Mgcl
20.029kg/m
3Inject water salinity 600mg/l, day notes 920 sides annotate 15 days 13800 side's water altogether; Accumulative total is injected 70 days 55270 side's water, changes the water filling of conventional water source then over to, shared NaCL:66.71 ton, CaCL
25.76 ton (H
2O) mgcl
23.83kg ton, inject water salinity respectively by 2600mg/l, 1600mg/l, fade to 600mg/l because the method for implanting that has adopted injection water and formation water to move closer to, thereby the reservoir formation water salinity in the just artificial reduction water injection well has significantly reduced low mineralization injects water to formation damage, has prevented to be stained with in the reservoir serious the expansion taken place, and causes the reservoir permeability disadvantage that declines to a great extent, thereby played the water injection rate that has improved oil well, increased the effect of well oil output.
Claims (3)
1, a kind of mineralizing gradient water-filling method for low-permeable reservoir is characterized in that at first determining to inject well reservoir formation salinity when reservoir water filling in well, adds inorganic salts KCL, NaCL, NHCL, CaCL again in well according to the salinity concentration
2Or MGCL
2, then according to known underground reservoir layer thickness and water filling radius, reduce the consumption that injects inorganic salts in the water more gradually, and continue water filling in the past well, after several cyclic gradient water fillings, press normal procedure at last again and recover water filling fresh water the stratum.
2, salinity gradient water-filling method according to claim 1; It is characterized in that when salinity in the reservoir being: during 6000mg/l, in first water injection cycle, per 1 side injects water and adds NaCL
6Kilogram, 3/4 concentration adding NaCL by former reservoir salinity in second water injection cycle prepares injection water injection stratum, the 3rd water injection cycle adds the Nacl preparation by former reservoir salinity 1/2 concentration and injects water injection stratum, after cyclic gradient water filling in three months, (total injection rate is 30,000 sides), and then in well, inject fresh water.
3, salinity gradient water-filling method according to claim 1; It is characterized in that when salinity in the reservoir is 3290.57mg/l, in first water injection cycle, add inorganic salts: NaCL:2.23kg/m whenever annotating side's water
3, CaCL
20.195kg//m
3(H
2O)
6MgCL
2: 0.130/m
3, adding the back and inject water salinity 2600mg/l, each Fang Shui adds inorganic salts NaCL:1.4kg/m in the second gradient water-filling cycle
3, CaCL
2: 0.12kg/l, (H
2O)
6Mgcl
2: 0.80kg/m
3, adding the back, to inject water salinity be 1600mg/l, second round, each Fang Shui added inorganic salts: NaCL:0.961kg/m during gradient water-filling
3, CCL
20.083kg/m
3, (H
2O) mgCL
20.055kg/m
3, adding the back, to inject water salinity be 1100mg/l, the period 4 during gradient water-filling per 1 side's water add inorganic salts NaCL0.525kg/m
3, CaCL
2: 0.046kg/m
3, (H
2O)
6MgCL
20.029kg/m
3, add back water filling salinity 600mg/l, annotate 70 days 55,270 side's water altogether.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN96119421A CN1052524C (en) | 1996-09-16 | 1996-09-16 | Mineralizing gradient water-filling method for low-permeable reservoir |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN96119421A CN1052524C (en) | 1996-09-16 | 1996-09-16 | Mineralizing gradient water-filling method for low-permeable reservoir |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1148660A true CN1148660A (en) | 1997-04-30 |
| CN1052524C CN1052524C (en) | 2000-05-17 |
Family
ID=5125682
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN96119421A Expired - Fee Related CN1052524C (en) | 1996-09-16 | 1996-09-16 | Mineralizing gradient water-filling method for low-permeable reservoir |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN1052524C (en) |
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100501130C (en) * | 2004-04-30 | 2009-06-17 | 北京科技大学 | Single-purpose water filling penetration stick and method for production |
| WO2012012235A1 (en) * | 2010-07-23 | 2012-01-26 | Saudi Arabian Oil Company | Oil recovery process for carbonate reservoirs |
| US8550164B2 (en) | 2010-07-23 | 2013-10-08 | Saudi Arabian Oil Company | Oil recovery process for carbonate reservoirs |
| CN107907654A (en) * | 2017-11-07 | 2018-04-13 | 北京拓普莱博油气田开发技术研究院 | A kind of method and device of the definite LIMESTONE RESERVOIR injection optimal salinity of water |
| CN114687714A (en) * | 2022-04-12 | 2022-07-01 | 中国矿业大学 | Nano-particle composite low-salinity water-enhanced CO2Method of injection capability |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1076758A (en) * | 1993-03-17 | 1993-09-29 | 吉林省油田管理局扶余采油三厂 | A kind of thermochemical method increasing injection and driving oil for water injection well in oil field |
-
1996
- 1996-09-16 CN CN96119421A patent/CN1052524C/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100501130C (en) * | 2004-04-30 | 2009-06-17 | 北京科技大学 | Single-purpose water filling penetration stick and method for production |
| WO2012012235A1 (en) * | 2010-07-23 | 2012-01-26 | Saudi Arabian Oil Company | Oil recovery process for carbonate reservoirs |
| US8550164B2 (en) | 2010-07-23 | 2013-10-08 | Saudi Arabian Oil Company | Oil recovery process for carbonate reservoirs |
| US8550163B2 (en) | 2010-07-23 | 2013-10-08 | Saudi Arabian Oil Company | Oil recovery process for carbonate reservoirs |
| CN107907654A (en) * | 2017-11-07 | 2018-04-13 | 北京拓普莱博油气田开发技术研究院 | A kind of method and device of the definite LIMESTONE RESERVOIR injection optimal salinity of water |
| CN114687714A (en) * | 2022-04-12 | 2022-07-01 | 中国矿业大学 | Nano-particle composite low-salinity water-enhanced CO2Method of injection capability |
Also Published As
| Publication number | Publication date |
|---|---|
| CN1052524C (en) | 2000-05-17 |
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