Synthesis and Evaluation of a Water-Swelling Polymer Plugging Agent SWL-1

In this paper, to solve the problems of low water absorption and weak pressure bearing capacity of current plugging materials, acrylic acid (AA), acrylamide (AM), and sodium allyl sulfonate (SAS) are used as monomers, and soluble starch is used as grafting. Material, the use of free radical aqueous solution method to synthesize the plugging agent SWL-1 with good water absorption and strong salt resistance. The monomer ratio is set as n (AA):n (AM):n (SAS) = 5:2:1, the experimental synthesis temperature is 70˚C, and the orthogonal experiment is used to determine the experimental synthesis conditions as AA neutralization degree 80%, The amount of initiator is 0.60%, the amount of crosslinking agent is 0.50%, the ratio of monomer to starch is 7:1, and the amount of calcium carbonate is 13%. The comprehensive evaluation of the performance of the plugging agent SWL-1 shows that the water absorption performance at 60˚C is the best 268.78 g/g, and the water absorption performance in 8% NaCl, 0.9% CaCl 2 and composite brine is 21.5 g/g, 12.5 g/g and 24.9 g/g, indicating good resistance to sodium and calcium, the water retention rate is still higher than 30% after 15 days at 160˚C. The sand bed plugging test found that the maximum pressure of SWL-1 was 7 MPa, and the crack plugging test found that when the crack width was 1 mm, 2 mm, and 3 mm, the maximum compressive strength of SWL-1 was 10 MPa. The acid solubility test showed that the maximum pressure was 10 MPa. The highest rate is 86.38%.


Introduction
Lost circulation is one of the most common and common complex problems How to cite this paper: He, L., Cao, Q.C., Li, X.T. and Wang, S. (2021) Synthesis and Evaluation of a Water-Swelling Polymer encountered in the process of petroleum development. It is usually caused by the penetration of drilling fluids, completion fluids, workover fluids and other working fluids into the formation, which damages the oil layer [1] [2] [3] [4] [5].
Loss damage to the oil layer is not only reflected in the damage to the oil layer and the decline in oil production, but also the prolonged drilling cycle, the loss of drilling fluid, completion fluid and other working fluids, loss of plugging materials, interference with geological logging, etc. It will cause well collapse, sticking, and in severe cases, the wellbore will be scrapped [6] [7] [8] [9] [10]. Although there have been many researches on plugging agents at home and abroad, most of them are about gel material plugging, bridging material plugging, cement material plugging, etc., or starch grafting expansion polymer plugging. There are few reports of leakage. The main reasons are: one is that the expansion capacity of the swellable plugging agent is uncontrollable; the other is that the plugging agent expands before it enters the missing position, which makes it impossible to enter the missing position for plugging. The third is plugging. The strength of the agent is not enough [11]- [16]. Therefore, a water-swelling plugging material SWL-1 was prepared indoors, and its performance was evaluated.
2) Main experimental instruments: DHG type electric heating constant temperature blast drying oven, DF-101Z heat collecting magnetic stirrer, high temperature heat roller furnace, multi-function grinder, Soxhlet extractor, high temperature and high pressure sand bed filter loss instrument, QD-2 type plugging material experimental device.

Orthogonal Optimization of Experimental Conditions
Since the plugging agent is produced by the reaction of soluble starch, monomers, cross-linking agents, initiators and other substances, the development of the plugging agent requires many factors to consider [17] [18] [19] [20], and the monomer ratio is set as n (AA):n (AM):n (SAS) = 5:2:1, the experimental synthesis temperature is 70˚C, the dosage of initiator, monomer starch ratio, crosslinker and neutralization degree of AA were changed, the orthogonal experiment of the experiment is set to L9(3 4 ), to find an optimal experimental condition, Get the best performance plugging agent. Table 1 shows the level of orthogonal experiment factors, Table 2 shows the orthogonal experimental results, and Table 3 shows the analysis of the orthogonal experimental results.
According to the results and analysis of orthogonal experiments, the best synthetic conditions for plugging agent SWL-1 are AA neutralization degree 80%, initiator addition amount 0.60%, crosslinking agent addition amount Open Journal of Yangtze Gas and Oil 0.50%, monomer starch ratio 7:1. The order of influencing factors on swl-1 is AA neutralization degree, initiator dosage, crosslinker dosage and monomer starch ratio.

Preparation of Plugging Agent
Weigh 3 g of soluble starch into the flask, then add 120 mL of distilled water, heat at 85˚C for half an hour, and pass nitrogen protection. After the starch is fully gelatinized, stop heating, and wait until the gelatinized starch is cooled to 60˚C. Weigh an appropriate amount of superfine calcium carbonate and dissolve it in water to prepare an emulsion and add it to it. Adjust the neutralization degree of acrylic acid to 80% with 40% NaOH, then add the monomers, initiators, and crosslinkers in sequence, and place them on a magnetic stirrer with a set temperature (70˚C) and heat for 3 hours. The obtained product is mixed with Open Journal of Yangtze Gas and Oil acetone, purified by a Soxhlet extractor, washed with absolute ethanol several times, placed in an oven with a set temperature for drying, crushed and sieved to obtain the product. The strength of the plugging agent obtained by grafting monomers acrylic acid (AA), acrylamide (AM), and sodium allyl sulfonate (SAS) through starch is lower. Adding more monomers can increase the strength of the plugging agent, but it will also increase the cost. Adding a small amount of inorganic materials to the plugging agent can not only improve the strength of the plugging agent, but also will not increase too much cost. Calcium carbonate plays a very good filling and supporting role in the space structure of the plugging agent. It can not only improve the pressure resistance of the plugging agent, but also will not cause the problem of difficult glue breaking in the later stage. Based on the above optimal synthesis conditions, superfine calcium carbonate of different proportions was added during the experiment to test the water absorption performance and salt resistance under different dosages.
It can be seen from Table 4 that calcium carbonate has a greater impact on the water absorption performance of the plugging agent SWL-1, but has a small impact on the salt resistance. With the increase of calcium carbonate, the water absorption performance of the plugging agent SWL-1 increases. When calcium carbonate is added at 13%, SWL-1 has the best water absorption performance and good salt resistance. Continuing to increase the amount of calcium carbonate added result in a decrease in the proportion of monomers, resulting in a decrease in the water absorption performance of SWL-1.

Evaluation of Water Absorption Performance
Weigh a number of 5 g plugging agent SWL-1, put them in the aging tank, add 400 mL of water, place them at different temperatures and roll them, take them out at regular intervals, and then filter out the unabsorbed water. The SWL-1 after absorbing water after standing for a period of time, the polymer mass m 2 after water absorption was weighed several times, until the mass of the plugging agent SWL-1 remained unchanged [21]. The water absorption multiple Q of the Open Journal of Yangtze Gas and Oil plugging agent is expressed by the formula: Among them, m 1 is the mass of the plugging agent before water absorption, and m 2 is the mass of the plugging agent at a certain time at a certain temperature after water absorption.
Test the water absorption performance of SWL-1 at room temperature of 20˚C, 60˚C, 100˚C, 140˚C, and 160˚C. From Table 5, it can be seen that SWL-1 has the best water absorption performance at 60˚C, and the water absorption capacity at 120 min. It is close to saturation. As the temperature increases, the water absorption performance decreases to a certain extent. It may be due to the increase in temperature that the extensibility of SWL-1 in water is weakened to a certain extent, resulting in the high temperature of SWL-1. The water absorption capacity is reduced. From Figure 1, it is found that the water absorption effect of the resin plugging agent in NaCl brine is better than that in CaCl 2 brine, indicating that the anti-Na + ability of SWL-1 is better than the anti-Ca 2+ ability, and at the same time, with the concentration of NaCl and CaCl 2 salt solutions with the increase of, the water absorption performance of SWL-1 has declined to a certain extent, but it can still show good water absorption performance. The water absorption performance in composite brine is between NaCl brine and CaCl 2 brine, and has good salt resistance. From the figure, it is found that SWL-1 performs well in the first 30 hours, and after 30 hours, it tends to be saturated.

Water Retention Performance at Different Temperatures
Weigh several parts of the plugging agent per unit mass, add them to a beaker with sufficient water, take out after fully absorbing the water, and then filter out the excess water. After standing for a while, weigh the mass of the plugging agent Experiments have tested the water retention capacity of the resin at 20˚C, 60˚C, 1000˚C, 140˚C, and 160˚C. From Figure 2, at low temperatures, temperature has little effect on the water retention performance of the resin. As the temperature rises, the water retention capacity of the resin the capacity has declined, but the water retention rate of SWL-1 can still be maintained above 10% after more than 20 days at high temperature, showing good water retention performance and temperature resistance.

Plugging Performance
According to the "Experimental Test Method of Bridging Plugging Material for Drilling" (SY/T5840-2007) [22], the QD-2 type plugging material experimental device is used to test the plugging ability of the plugging agent. The drilling fluid formula used for plugging is distilled water + 5% sodium bentonite, and then 3%, 4%, and 5% SWL-1 are added to perform sand bed plugging test.
It can be seen from Table 6 that SWL-1 has a good plugging effect in the sand bed, and its pressure-bearing capacity is greater than 6MPa. Comparing GWS-1 [23] and KP [24], SWL-1 has a good pressure-bearing strength or in terms of total leakage, it has obvious advantages. It can be seen from Table 7 that the plugging agent has a good plugging ability for cracks of 1 to 3 mm. In the case of different dosages, the pressure bearing capacity is greater than 6 MPa, and the highest can reach 10 MPa. Comparing GWS-1 and KP, SWL-1 has high compressive strength and small leakage in 1 -3 mm crack plugging, and it can plug the cracks well.

Acid Solubility
Not only is it required that the plugging agent SWL-1 has a good pressure bearing capacity, but it must also be required not to affect the later removal of the plugging. In the experiment, SWL-1 with a calcium carbonate addition amount of 13% was selected, and dilute hydrochloric acid with a concentration of 36% was used to prepare a hydrochloric acid solution with a pH of 1 to 7, and a cer-Open Journal of Yangtze Gas and Oil tain amount of plugging agent SWL-1 was added at 3 h, 6 h, and 6 h respectively. 9 h filter and weigh.
It can be seen from Table 8 that the plugging agent SWL-1 dissolves very well in acid, with a maximum of 86.38%. Under acidic conditions, with the decrease of pH, the acid solubility of SWL-1 increases, which does not affect the later removal of plugging.

Conclusions
1) Using orthogonal experiment to determine the optimal conditions for the experiment are AA neutralization degree 80%, initiator addition amount 0.60%, crosslinking agent addition amount 0.50%, monomer starch ratio 7:1, calcium carbonate addition amount 13%.
2) Test the water absorption, salt resistance, water retention, plugging test and acid dissolution test of the plugging agent SWL-1. The best water absorption performance is 268.78 g/g at 60˚C, in 8% NaCl, the water absorption properties of 0.9% CaCl 2 and composite brine are 21.5 g/g, 12.5 g/g and 24.9 g/g, respectively. The water retention rate is still greater than 30% after 15 days at a high temperature of 160˚C, showing good water retention and resistance temperature. The sand bed can be under pressure of 7 MPa in the plugging test, and the sealing plate plugging experiment can plug the cracks of 1 to 3 mm. The effect is very good, and the pressure strength is 8 MPa, and the acid solubility rate can reach 86.38%, which does not affect the later removal of the plugging.

Funding
National Natural Science Foundation of China "Research on Fundamental Theory of Shale Oil and Gas Efficient Development" (No. 51490650).