Cross-linked plugging agent stimulated by high density brine and preparing method thereof

Abstract

The present invention disclosed a cross-linked plugging agent stimulated by high density brine which comprises main agent: 10 wt %-90 wt %, gelling agent: 0.5 wt %-9 wt % and pure water; wherein the main agent is selected from the group consisting of a Dipotassium phosphate (K2HPO4), a Tripotassium phosphate (K3PO4) and a Potassium pyrophosphate (K4P2O7), a Potassium Dihydrogen Phosphate (KH2PO4), a Sodium dihydrogen phosphate (NaH2PO4); the gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan. The gelling time is controlled within 0.5-12 h under an experiment temperature of 90° C.-160° C. The final gelling strength is controlled within D-H. The density is controlled within 1.0-1.55 g/cm3. The plugging agent is able to be applied in well completion and workover under high temperature, high pressure, multi-pressure series of strata oil and gas environment when temporary blockage and leak proof is required, protection of reservoir near perforations and water plugging.

Description

BACKGROUND OF THE PRESENT INVENTION

Field of Invention

The present invention relates to oilfield chemistry, which is widely applied in well completion and workover under high temperature, high pressure, multi-pressure oil and gas environment and is applied in temporary blocking agent, perforating protect fluid and water shutoff agent. The present invention is more particularly related to the cross-linked plugging agent stimulated by high density brine and the preparing method thereof.

Description of Related Arts

The reservoir development goes deeper and deeper to reach deep and ultra-deep formation where the geological condition is complicate and prone to change. Many challenges and difficulties need to be dealt with such as high temperature, high pressure, multi-pressure environment in reservoir, blowout and fluid loss. In case of drilling a well with ultra high pressure, the contradiction of well killing and fluid loss in low-pressure reservoir is the main technical difficulty which results in high cost during well completion and workover. According to the conventional principles, in case of multi-pressure oil and gas reservoir with ultra high pressure, well killing fluid is planned in advance and the killing fluid is selected based on the principle of ‘the pressure of killing fluid need to be higher than reservoir’. The high density killing fluid column brings high positive pressure on the low-pressure reservoir when the well control requirement is fulfilled. The high density killing fluid would leak into the low-pressure reservoir if the differential of pressure is bigger than the pressure bearing limitation of the reservoir. The fluid loss results in more requirements of killing fluid to keep the pressure, which increases the cost. In serious condition, the fluid loss damages the reservoir and reduces the outcome. In an even more serious condition, the fluid loss induces safety risk. The plugging and leak-prevention technology for high-density well killing fluid is critical in workover and well completion operations under high temperature and multi-pressure environment.

Well completion and workover in the high temperature and multi-pressure reservoir requires high performance plugging agent. On one hand, the plugging agent can deal with compatibility and floating problem caused by high density killing fluid used in workover and well completion operations in high pressure formation. On the other hand, the plugging agent is able to meet the requirements such as high temperature and salt endurance, easy to prepare, controllable plugging strength, low cost and environmentally friendly.

The conventional preparing method of the high density plugging agent applied on site falls into the below two categories.

(1) One of the conventional preparing method of plugging agent for high temperature and pressure well killing is based on haloid which is mainly Zinc bromide (ZnBr₂), Zinc chloride (ZnCl₂), Sodium bromide (NaBr), Calcium bromide (CaBr₂), Calcium chloride (CaCl₂) and so on, which is still an important technical objective for different big drilling fluid companies to reach and related research is carried out due to lack of corresponding strategy for deep reservoir. Technical contests are carried out and each company has its own formula which is well-kept secret. Although each company has its own production code and product naming convention, the research theory and technology adopted is similar. For example, Zhiliang Zhou uses sulfonated phenolic resin (SMP-II), calcium carbonate (CaCO₃), carboxymethyl cellulose (CMC) and so on with ZnBr₂ to prepare high density low damage plugging agent; Kexiang Peng uses SMP-II, sulfonated wood coal (SMC), sulfonated resin modified filtrate reducer GJL-1 and GJL-2 with ZnBr₂ compound to prepare filtrate reducing high density plugging agent. Haloid especially bromide solution is highly corrosive under high temperature and high density environment and difficult to degrade, which accumulates in food chain and is not environmentally friendly. Environment protection is more and more urgent than ever before and the conventional bromide high density plugging agent is gradually replaced by new low damage and pollution plugging agent.

(2) Plugging agent prepared based on formate.

Two types of plugging agents prepared based on formate (mainly potassium formate, cesium formate and etc.) are used in large scale. One is thickening plugging agent which is prepared by adding polymer into the formate water system to increase viscosity of the killing fluid and to reduce killing fluid filtration and loss in the low permeability reservoir, such as 4 mate series of acrylamide-sulfonated methyl propane copolymer system, xanthan gum system, CMC system and etc. produced by Cabot Corporation. The application of this type of plugging agent is limited and this type of plugging agent is not able to be used under high pressure difference. The other type is bridge plugging agent. The plugging agent dissolves in the formate water system to form small granules. One or more sizes of small granules form a bridge on the fluid loss formation, such as fine mesh calcium carbonate, modified graphite “G-Seal”, which is a mixture of, various cellulose and high strength granules. The size of the granule is important. If the size of the granule is not selected carefully, the granules easily enter the reservoir and damage the reservoir. Although the plugging agent prepared based on formate has the advantages of wide density range and effectively protecting the reservoir, the price of the formate especially cesium formate is much higher than halide salt, which restrict the use of the plugging agent.

SUMMARY OF THE PRESENT INVENTION

An object of the present invention is to provide a cross-linked plugging agent stimulated by high density brine and preparing method thereof. The present invention adopts the main agent to stimulate the gelling agent to cross link without the extra use of other crosslinking agents such as phenol formaledlyde, chromium (III) acetate and polyethyleneimine (PEI). The present invention of the cross-linked plugging agent stimulated by high density brine and the preparing method thereof is able to be applied in operations under high temperature, high pressure, multi-pressure series of strata oil and gas environment when temporary blockage and leak proof is required, protection of reservoir near perforations and water plugging. The advantages of the plugging agent of the present invention are being able to be easily prepared on site, controllable gelation time and degradation time under high temperature and high salt density, and rapid core permeability recovery after flowback.

To solve the problems of the conventional technology, the present invention provide the below technical solution.

The cross-linked plugging agent stimulated by high density brine, comprising:

main agent: 10 wt %-90 wt %, gelling agent: 0.5 wt %-9 wt % and pure water.

wherein the cross-linked plugging agent stimulated by high density brine further comprises main agent of 30 wt %-70 wt %.

Furthermore, the main agent is selected from the group consisting of a Dipotassium phosphate (K₂HPO₄), a Tripotassium phosphate (K₃PO₄), and a Potassium pyrophosphate (K₄P₂O₇).

Furthermore, the main agent further comprises a Potassium Dihydrogen Phosphate (KH₂PO₄), a Sodium dihydrogen phosphate (NaH₂PO₄)

Furthermore, the gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan.

The process of preparing a cross-linked plugging agent stimulated by high density brine comprises the following steps of:

adding main agent, gelling agent into pure water in sequence with respective percentage by mass; stirring evenly; setting an experiment temperature at 90° C.-160° C.; controlling the gelation time within 0.5-12 hours; determining the gelation time and the gelation strength of the plugging agent by gel strength codes. The final forming strength is controlled within flowing gel (gel strength code C) to slightly deformation non flowing gel (gel strength code H). The density of the plugging agent system is able to be controlled within 1.0-1.55 g/cm³.

Three type of reactions occur as below: the main agent dissolves in the pure water and releases large quantity of ions; the ions and the gelling agent cross linked to form covalent bonds; the molecular chains of various gelling agents are entangled to form compound synergist; hydrogen bond is formed between the molecular of the plugging agent and the water molecular and the plugging agent system obtains water absorption feature. The three type of reactions work together to form the cross-linked plugging agent stimulated by high density brine.

The components in the cross-linked plugging agent stimulated by high density brine do not need to be prepared in advance. The plugging agent is able to be prepared on site conveniently and the process is easy to be carried out. The main agent dissolves in the pure water to form brine which stimulates the gelling agent to induce a cross linking reaction and form a cross-linked plugging agent by compound synergy. The cross-linked plugging agent is able to endure high temperature and density salt and the gelation strength is controllable.

The gelation time and gelation strength is decided according to the Gel Strength Codes (GSC) proposed by Sydansk and Argabright in 1988. The gelation time is decided by observing the gel forms. The initial gelation time refers to the period while the form of the gelling agent changing from no detachable gel (A) to highly flowing gel (B). The final gelation time refers to the period while the form of the gelling agent changing from original polymer solution to the final strength. Normally, the gelation time refers to the period when most of the gelling agent flows to the bottle cap by gravity upon inversion (C).

TABLE 1
Gel Strength Codes
Gel strength
code	Gel name	Gel description
A	No detectable gel	No detectable gel formed: The gel appears to have the
		same viscosity as the original polymer solution
B	Highly flowing	The gel appears to be only slightly more viscous than
	gel	the initial polymer solution
C	Flowing gel	Most of the gel flows to the bottle cap by gravity upon
		inversion
D	Moderately	Only a small portion (<15%) of the gel dose not flow to
	flowing gel	the bottle by gravity upon inversion (usually
		characterized as tonguing gel)
E	Barely flowing	The gel can barely flow to the bottle cap and or a
	gel	significant portion (>15%) of the gel does not flow by
		gravity upon inversion
F	Highly	The gel does not flow to the bottle cap by gravity upon
	deformable non	inversion
	flowing gel
G	Moderately	The gel deforms about half way down the bottle by
	deformable non	gravity upon inversion
	flowing gel
H	Slightly	Only the gel surface slightly deforms by gravity upon
	deformable non	inversion
	flowing gel
I	Rigid gel	There is no gel surface deformation by gravity upon
		inversion
J	Ringing rigid gel	A tuning fork-like mechanical vibration can be felt
		upon tapping the bottle

The thermal stability of the cross-linked plugging agent stimulated by high density is good. All components of the plugging agent are innoxious and harmless. The degradation of the plugging agent is controllable. The corrosion of the oil tubing and casing by the plugging agent is little. The plugging agent is able to be widely applied in operations such as well completion and workover when temporary blockage and leak proof is required, protection of reservoir near perforations and water shutoff and profile control under high temperature, high pressure, multi pressure series of strata oil and gas environment.

Compared to the conventional technology, the present invention has the following benefits:

(1) all the components are instant soluble, easy to prepare and operate;

(2) the costs of all the components is lower than bromate plugging agent and formate plugging agent and the plugging agent is price competitive.

(3) the material safety data sheet (MSDS) of each component fulfils the requirements for food; the plugging agent is innoxious, harmless, corrosion-free and non pollutive; the degradation of the plugging agent is controllable; the plugging agent is oil casing friendly and ecofriendly;

(4) the cross-linked plugging agent stimulated by high density brine is applied in a temperature range 90° C.-160° C.; the gelation time is controlled within 0.5-12 hours; the final gelation strength is controllable within GSC C to H; the plugging agent is controllable for degradation within 20-168 hours after the plugging task is completed.

(5) the viscosity of the plugging agent is less than 100 mPa·s before gelation and the pumpability is good; the plugging agent system is a solid-free fluid after degradation, the viscosity of which is less than 50 mPa·s; the plugging agent is able to be discharged in well flushing cycle without residue and effectively protect the reservoir.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates values of elastic modulus and loss modulus in embodiment 1 of various gelling agent content after aging for three days;

FIG. 2 is a curve chart which displays viscosity and shear force of the plugging agent with 2 wt % of gelling agent content at the initial time, after two days and after five days in embodiment 2;

FIG. 3 is a shear viscosity curve chart of a cross-linked plugging agent stimulated by high density brine under different temperature in embodiment 6;

FIG. 4 is an elastic modulus curve chart of the cross-linked plugging agent stimulated by high density brine under different temperature in embodiment 7;

FIG. 5 is a loss modulus curve chart of the cross-linked plugging agent stimulated by high density brine under different temperature in embodiment 7;

FIG. 6 is a curve chart which displays flowback time and core permeability recovery rate in embodiment 8.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The below embodiments further explain the present invention. The embodiments are based on the present invention and give detailed explanation. The protection scope of the present invention does not limited by the below embodiments.

A cross-linked plugging agent stimulated by high density brine comprises:

main agent: 10 wt %-90 wt %, gelling agent: 0.5 wt %-9 wt % and pure water.

The main agent is selected from the group consisting of a Dipotassium phosphate (K₂HPO₄), a Tripotassium phosphate (K₃PO₄) and a Potassium pyrophosphate (K₄P₂O₇),

wherein the main agent further comprises a Potassium Dihydrogen Phosphate (KH₂PO₄) and a Sodium dihydrogen phosphate (NaH₂PO₄),

The gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan.

The cross-linked plugging agent stimulated by the high density brine is able to be applied in well completion and workover under high temperature, high pressure, multi pressure series of strata oil and gas environment when temporary blockage and leak proof is required, protection of reservoir near perforations and water plugging, which is exclusively designed according to geological characteristics of the reservoir, well temperature and plugging agent consumption. The plugging agent is prepared by the following steps of: adding main agent, gelling agent into pure water in sequence with respective percentage by mass; stirring evenly; setting an experiment temperature at 90° C.-160° C.; and determining a gelation time and a gelation strength of the plugging agent by gel strength codes.

Embodiment 1

A cross-linked plugging agent stimulated by high density brine for temporary blockage comprises the mixture of main agent of 70 wt %, gelling agent of 5 wt %-8 wt % and pure water. The experiment temperature is 120° C. The gelation time and a gelation strength are shown in the below table 2.

TABLE 2
gelation time and a gelation strength in embodiment 1
Gelling agent	Aging time/gel strength code
content Wt %	Initial	2 h	4 h	12 h	1 D	3 D	5 D	7 D	9 D	12 D
5	A	D	G	G	G	G	G	G	G	G
7	A	D	G	G	G	G	G	G	G	G
8	A	D	G	G	G	G	G	G	G	G

As shown in Table 2, the gelation time is within 2-4 hours; the final forming strength is G; no syneresis happens within 12 days.

As shown in FIG. 1, the values of elastic modulus and loss modulus of various gelling agent content after aging for three days prove that the strength of the plugging agent is able to be adjusted by adjusting the gelling agent content.

Embodiment 2

A cross-linked plugging agent stimulated by high density brine for protection of reservoir near perforations comprises main agent of 70 wt %, gelling agent of 1.5 wt %-3 wt % and pure water. The experiment temperature is 160° C. The gelation time and a gelation strength are shown in the below Table 3.

TABLE 3
gelation time and a gelation strength in embodiment 2
Gelling agent	Aging time/gel strength code
content Wt %	Initial	4 h	8 h	1 D	2 D	3 D	4 D
1.5	A	B	D	D	D	D	A
						syneresis
2	A	B	D	D	D	D	D
							syneresis
2.5	A	B	E	E	E	E	E
							syneresis
3	A	B	E	E	E	E	E

As shown in table 3, the gelation time is within 4-8 hours; the final forming strength is D or E; syneresis and degradation occur on the third day; the plugging agent degrades to solid-free and low viscosity fluid 48 hours after syneresis begins.

As shown in FIG. 2, the viscosity and shear force curve of the plugging agent with 2 wt % of gelling agent content at the initial time, after two days and after five days illustrates the viscosity of the plugging agent at the initial time is below 100 mPa·s and is able to be pumped easily; the viscosity of the plugging agent increases significantly after two days and the plugging agent is high viscosity liquid; the plugging agent degrades to solid-free fluid after five days and the viscosity is below 50 mPa·s, which is able to be discharged in well flushing cycle without gel breaking.

Embodiment 3

A cross-linked plugging agent stimulated by high density brine for temporary blockage comprises main agent of 70 wt %, gelling agent of 6 wt %-8 wt % and pure water. The experiment temperature is 90° C. The gelation time and a gelation strength are shown in the below table 4.

TABLE 4
gelation time and a gelation strength in embodiment 3
Gelling agent	Aging time/gel strength code
content Wt %	Initial	2 h	4 h	12 h	1 D	3 D	5 D	7 D	9 D	12 D
6	A	D	F	F	F	F	F	F	F	F
7	A	D	F	G	G	G	G	G	G	G
8	A	D	G	H	H	H	H	H	H	H

As shown in table 4, the gelation time is within 2-4 hours; the final forming strength is F, G or H; no syneresis happens within 7 days. The plugging agent is able to be applied in temporary blockage and water plugging when different gel strength is required.

Embodiment 4

A cross-linked plugging agent stimulated by high density brine for protection of reservoir near perforations comprises main agent of 70 wt %, gelling agent of 2.5 wt %-4 wt % and pure water. The experiment temperature is 90° C. The gelation time and a gelation strength are shown in the below table 5.

TABLE 5
gelation time and a gelation strength in embodiment 4
Gelling agent	Aging time/gel strength code
content Wt %	Initial	2 h	4 h	12 h	1 D	3 D	5 D	7 D	9 D	12 D
2.5	A	A	B	B	B	C	C	C	C	C
3	A	A	C	D	D	D	D	D	D	D
3.5	A	B	D	E	E	E	E	E	E	E
4	A	C	D	E	E	E	E	E	E	E

As shown in table 5, the gelation time is within 2-4 hours; the final forming strength is C, D or E; no syneresis happens within 7 days. The plugging agent is able to be applied in protection of reservoir near perforations when different gel strength is required.

Embodiment 5

A cross-linked plugging agent stimulated by high density brine for temporary blockage comprises main agent of 70 wt %, gelling agent of 5 wt %-8 wt % and pure water. The experiment temperature is 90° C. The gelation time and a gelation strength are shown in the below table 6.

TABLE 6
gelation time and a gelation strength in embodiment 5
Gelling agent	Aging time/gel strength code
content Wt %	Initial	2 h	4 h	12 h	1 D	3 D	5 D	7 D	9 D	12 D
5	A	D	F	F	G	G	G	G	G	G
6	A	D	F	G	G	G	G	G	H	H
7	A	E	G	H	H	H	H	H	H	H
8	A	F	H	H	H	H	H	H	H	H

As shown in table 6, the gelation time is within 2-4 hours; the final forming strength is C, D or E; no syneresis happens within 7 days. The plugging agent is able to be applied in temporary blockage and water plugging when different gel strength is required.

Embodiment 6: The Relation of Shear Force and Viscosity of the Cross-Linked Plugging Agent Stimulated by High Density Brine Under Different Temperature is as Below

The formula of the plugging agent stimulated by high density brine in the embodiment is the main agent which density is 1.5 g/cm³ and gelling agent of 3 wt %. The prepared plugging agent is put into a laboratory oven ageing for four hours under 90° C., 120° C., 140° C., and 160° C. respectively. The plugging agent is assumed to be pumped to reservoir in four hours. FIG. 3 shows the viscosities of the plugging agent when the plugging agent passes through the casing or oil tube and reaches the target place. The viscosity of the plugging agent sample decrease with the rising temperature after ageing for four hours, which reaches a magnitude of 10⁴ mPa·s. The plugging agent is in a semi-solid status, which does not easily loss in the reservoir and is able to bear pressure.

Embodiment 7: The Elastic and Loss Features of the Cross-Linked Plugging Agent Stimulated by High Density Brine Under Different Temperature

The formula of the plugging agent stimulated by high density brine in the embodiment is the main agent which density is 1.5 g/cm³ and gelling agent of 6 wt %. The prepared plugging agent is put into a laboratory oven ageing for four hours under 90° C., 120° C., 140° C., and 160° C. respectively. The observed elastic and loss modulus are shown in the FIG. 4 and FIG. 5. The elastic modulus reaches the magnitude of 10³ Pa and the gel strength is high enough to fulfill the requirement for temporary blockage and leak-proof task under pressure difference (no fluid loss in the reservoir under 20 MPa pressure difference after temporary blockage shown in embodiment 8).

Embodiment 8

The formula of the plugging agent stimulated by high density brine in the embodiment is the main agent which density is 1.5 g/cm³ and gelling agent of 6 wt %. The core (with saturated formation water) is put in an integrated displacement equipment. Sufficient plugging agent stimulated by high density brine covers a front end of the simulated well casing. Pure water is injected on the plugging agent stimulated by high density brine to simulate the working fluid. Pressure is applied on the front end of the core to simulate the pressure difference on the well casing. The chart 7 shows the observed the fluid loss from a back end of the core.

CHART 7
data sheet of the pressure bearing capability of the core
			Pressure
	No. of	Kgi(Dry)/Kgi(Swc)	difference	Fluid loss rate
	core	(mD)	(MPa)	(ml/min)
	1	54.25/5.49	20	0
	5	528/219	20	0.012
	7	2056/961	20	0.05

wherein K_gi(dry) stands for the gas permeability of the dry core; K_gi(Swc) stands for the gas permeability at irreducible water saturation S_wc.

After being blocked for two hours under a pressure difference of 20 MPa, filter cake forms on the contact surface of the core and the gelling agent. The filter cake prevents the gelling agent from leak deep into the core (no more than 3 mm-5 mm) and fluid loss. The permeability is able to be rapidly recovered after the filter cake is being removed.

Chart 8 and FIG. 6 show the permeability recovery of the flowback after the blockage. After the being blocked for two hours under a pressure difference of 20 MPa, the filter cake on the front end of the core is being removed, the core is put in the displacement equipment and the displacement is reversed by gas to simulate the well cleaning process during the flowback and the induced flow of the reservoir. The experiment result shows: the permeability is able to recover to 80% of permeability before the blockage after the reservoir being blocked under 20 MPa and the flow is induced under 3 MPa negative pressure difference.

CHART 8
the recovery of permeability of the core
			Flowback
			breakthrough	Permeability recover
No. of	Kgi(Swc)	Kgf	pressure	rate after two hours
core	(mD)	(mD)	(MPa)	(%)
1	5.49	5.00	2.74	91
5	219	186	2	85
7	961	788	1.8	82

wherein K_gi(Swc) stands for the gas permeability at irreducible water saturation S_wc. K_gf stands for the gas permeability after flowback breakthrough by air.

The embodiments above are just an exemplary and based on the contrivance of the present invention. The embodiments are not a limitation of the present invention. All modifications and alterations are within the protection scope of the present invention.

Claims

1. A cross-linked plugging agent stimulated by high density brine, comprising: main agent: 10 wt %-90 wt %, gelling agent: 0.5 wt %-9 wt % and pure water; wherein the main agent is selected from the group consisting of a Dipotassium phosphate (K2HPO4), a Tripotassium phosphate (K3PO4) and a Potassium pyrophosphate (K4P2O7) a Sodium dihydrogen phosphate (NaH2PO4); wherein the gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan.

2. The cross-linked plugging agent stimulated by high density brine, as recited in claim 1, further comprising main agent of 30 wt %-70 wt %.

3. The cross-linked plugging agent stimulated by the high-density brine, as recited in claim 1, wherein the main agent further comprises a Potassium Dihydrogen Phosphate (KH2PO4) and a Sodium dihydrogen phosphate (NaH2PO4).

4. The cross-linked plugging agent stimulated by the high-density brine, as recited in claim 1, wherein a density of the plugging agent is controlled within 1.0-1.55 g/cm3.

5. A method of preparing a cross-linked plugging agent stimulated by high density brine, comprising following steps of: adding main agent, gelling agent into pure water in sequence with respective percentage by mass; stirring evenly; setting an experiment temperature at 90° C.-160° C.; and determining a gelation time and a gelation strength of the plugging agent by gel strength codes; wherein the main agent is 10 wt %-90 wt % and the gelling agent is 0.5 wt %-9 wt %, wherein the main agent is selected from the group consisting of a Dipotassium phosphate (K2HPO4), a Tripotassium phosphate (K3PO4) and a Potassium pyrophosphate (K4P2O7); wherein the gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan.

6. The method of preparing a cross-link plugging agent stimulated by high density brine, as recited in claim 4, wherein the main agent is further of 30 wt %-70 wt %.

7. The method of preparing a cross-link plugging agent stimulated by high density brine, as recited in claim 4, wherein the main agent further comprises a Potassium Dihydrogen Phosphate (KH2PO4), a Sodium dihydrogen phosphate (NaH2PO4).

8. The method of preparing a cross-linked plugging agent stimulated by high density brine, as recited in claim 3, wherein a density of the plugging agent is controlled within 1.0 g/cm3-1.55 g/cm3.

9. A method of applying a cross-linked plugging agent stimulated by the high density brine, comprising a step of applying the plugging agent in well completion and workover under high temperature, high pressure, multi pressure series of strata oil and gas environment when temporary blockage and leak proof is required, protection of reservoir near perforations and water plugging; wherein the cross-linked plugging agent stimulated by the high density brine comprises main agent which is 10 wt %-90 wt %, gelling agent which is 0.5 wt %-9 wt % and pure water, wherein the main agent is high density brine; wherein the main agent is selected from the group consisting of a Dipotassium phosphate (K2HPO4) and a Tripotassium phosphate (K3PO4) and a Potassium pyrophosphate (K4P2O7); wherein the gelling agent is selected from the group consisting of a Xanthan gum and a kappa carrageenan.

10. The method of preparing a cross-link plugging agent stimulated by high density brine, as recited in claim 7, wherein the main agent further comprises a Potassium Dihydrogen Phosphate (KH2PO4), a Sodium dihydrogen phosphate (NaH2PO4).

11. The method of applying a cross-linked plugging agent stimulated by the high density brine, as recited in claim 5, comprising a step of applying the plugging agent in well completion and workover under high temperature, high pressure, multi pressure series of strata oil and gas environment when temporary blockage and leak proof is required, protection of reservoir near the perforations and water plugging; wherein a density of the plugging agent is controlled within 1.0-1.55 g/cm3.