Ultra-high temperature resistant cement slurry system for cementing and preparation method and use thereof

The invention claimed is: 1. An ultra-high temperature resistant cement slurry system for cementing, comprising by weight: 100 parts of cement, 15-50 parts of an ultra-high temperature strength stabilizer, 15-50 parts of an ultra-high temperature reinforcing material, 0-140 parts of a density regulator, 1-6 parts of an ultra-high temperature suspension stabilizer, 0-2 parts of a dispersant, 2-9 parts of a fluid loss additive, 0.1-9 parts of a retarder, 0.1-0.5 part of a defoaming agent, and 40-120 parts of water, wherein the ultra-high temperature suspension stabilizer comprises by weight: 1-3 parts of an ether-based starch, 1-3 parts of an aluminosilicate, and 1-2 parts of a polyalcohol polymer. 2. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the ether-based starch comprises one or more of carboxymethyl starch, carboxyethyl starch, carboxypropyl starch, carboxyhexyl starch, sulfoethyl starch, and sulfo-2-hydroxypropyl starch. 3. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the aluminosilicate is a nano-sized aluminosilicate. 4. The ultra-high temperature resistant cement slurry system for cementing according to claim 3 , wherein the nano-sized aluminosilicate comprises one or more of nano-sized orthoclase, nano-sized zeolite, nano-sized anorthite, and nano-sized halloysite. 5. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the polyalcohol polymer comprises one or more of polyvinyl alcohol, polyethylene glycol, and polyethylene oxide. 6. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the ultra-high temperature reinforcing material comprises one or more of halloysite, mullite and tricalcium phosphate. 7. The ultra-high temperature resistant cement slurry system for cementing according to claim 6 , wherein the ultra-high temperature reinforcing material comprises a mixture of halloysite, mullite and tricalcium phosphate in a weight ratio of (1-2):(1-2):(1-2). 8. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein: the ultra-high temperature strength stabilizer comprises quartz sand; the density regulator comprises refined iron mine powder and/or glass microbead; the dispersant comprises an aldehyde-ketone polycondensate-based dispersant and/or a polystyrene sulfonate-based dispersant; the fluid loss additive comprises an acrylamide polymer-based fluid loss additive; the retarder comprises an acrylamide polymer-based retarder and/or a 2-acrylamide-2-methylpropanesulfonic acid polymer-based retarder; and the defoaming agent comprises one or more of an organic ester, polyoxypropylene glycerol ether and polydimethylsiloxane. 9. The ultra-high temperature resistant cement slurry system for cementing according to claim 8 , wherein: the ultra-high temperature strength stabilizer comprises high purity acid-washed quartz sand of 100-1500 mesh and/or high purity quartz sand of 100-1500 mesh; the refined iron mine powder has a density of 5.05-7.20 g/cm 3 ; and the glass microbead has a density of 0.44-0.65 g/cm 3 . 10. The ultra-high temperature resistant cement slurry system for cementing according to claim 8 , wherein the organic ester comprises tributyl phosphate. 11. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the cement comprises a class G oil well cement. 12. The ultra-high temperature resistant cement slurry system for cementing according to claim 1 , wherein the cement slurry system has a density of 1.35-2.35 g/cm 3 , an applicable temperature of 30° C.-240° C., and a density variation of not more than 0.04 g/cm 3 in the applicable temperature range. 13. The ultra-high temperature resistant cement slurry system for cementing according to claim 12 , wherein the cement slurry system has an applicable temperature of 200° C.-240° C., and a density variation of not more than 0.04 g/cm 3 in the applicable temperature range. 14. The ultra-high temperature resistant cement slurry system for cementing according to claim 13 , wherein the cement slurry system has an applicable temperature of 220° C.-240° C. 15. A method for preparing the ultra-high temperature resistant cement slurry system for cementing according to claim 1 , comprising the steps of: (1) homogeneously mixing by weight 100 parts of cement, 15-50 parts of the ultra-high temperature strength stabilizer, 15-50 parts of the ultra-high temperature reinforcing material, 0-140 parts of the density regulator, 1-6 parts of the ultra-high temperature suspension stabilizer, and 0-2 parts of the dispersant, to obtain a dry mix; (2) homogeneously mixing by weight 2-9 parts of the fluid loss additive, 0.1-9 parts of the retarder, 0.1-0.5 part of the defoaming agent and 40-120 parts of water, to obtain a wet mix; and (3) under stirring, uniformly adding the dry mix obtained from step (1) into the wet mix obtained from step (2), and continuing to stir for a period of time, to obtain the ultra-high temperature resistant cement slurry system for cementing. 16. The method for preparing the ultra-high temperature resistant cement slurry system for cementing according to claim 12 , wherein in step (3), the dry mix obtained from step (1) is uniformly added into the wet mix obtained from step (2) at a rotational speed of 4,000±200 r/min, and then the stirring is continued for 35-50 s at a rotational speed of 12,000±500 r/min, to obtain the ultra-high temperature resistant cement slurry system for cementing. 17. A method of using the ultra-high temperature resistant cement slurry system for cementing according to claim 1 , comprising the step of applying the slurry system to a deep well, an ultra-deep well, and/or an extra-ultra-deep well at high and/or ultra-high temperatures. 18. The method according to claim 17 , wherein the high and/or ultra-high temperatures are 200° C.-240° C., the deep well has a depth of 4,500-6,000 m, the ultra-deep wells has a depth of 6,000-9,000 m, and the extra-ultra-deep wells has a depth of 9,000 m or more. 19. The method according to claim 18 , wherein the high and/or ultra-high temperatures are from 220° C. to 240° C.