US 11,982,065 B1
Method for reinforcing soft ground by post-grouting combined with air-boosted vacuum preloading
Binhua Xu, Nanjing (CN); Ning He, Nanjing (CN); Yanbin Jiang, Nanjing (CN); Zhangchun Wang, Nanjing (CN); Zhikun Yan, Nanjing (CN); Yanzhang Zhou, Nanjing (CN); Guirong Zhang, Nanjing (CN); Yajun Qian, Nanjing (CN); Xinjie Zhan, Nanjing (CN); Zhongliu Zhang, Nanjing (CN); Bin He, Nanjing (CN); Denghua Li, Nanjing (CN); Yang Kong, Nanjing (CN); Yuting Xie, Nanjing (CN); and Xiang Yin, Nanjing (CN)
Assigned to Nanjing Hydraulic Research Institute, Nanjing (CN)
Filed by Nanjing Hydraulic Research Institute, Nanjing (CN)
Filed on Oct. 24, 2023, as Appl. No. 18/492,792.
Claims priority of application No. 202211303366.7 (CN), filed on Oct. 24, 2022.
Int. Cl. E02D 3/12 (2006.01); E02B 11/00 (2006.01); E02D 5/38 (2006.01)
CPC E02D 3/12 (2013.01) [E02B 11/00 (2013.01); E02D 5/385 (2013.01); E02D 2250/0007 (2013.01); E02D 2250/003 (2013.01); E02D 2300/0018 (2013.01); E02D 2300/0079 (2013.01); E02D 2300/0085 (2013.01)] 5 Claims
OG exemplary drawing
 
1. A method for reinforcing soft ground by post-grouting combined with air-boosted vacuum preloading (AVP), comprising:
step 1, leveling a site to form a construction work surface of granular material piles; laying out ends of prefabricated vertical drains (PVDs) and air-boosted pipes to pipe shoe positions of pile pipes of an immersed pile driver in advance, driving the pile pipes to a design depth, and then using a delivery pipe to inject a filling material into each pile pipe and vibrating the filling material; after the filling material reaches to a ground surface, cutting off the PVDs and the air-boosted pipes at a height of 0.5-1 m above ground, then pulling out the pile pipes while avoiding to bring out the PVDs and the air-boosted pipes, and forming the granular material piles; the PVDs and the air-boosted pipes being left in the granular material piles, and repeating the above step to complete setting of the granular material piles within a ground treatment range, the granular material piles being arranged in rows and columns within the ground treatment range;
step 2, laying out main drainage pipes and main air-boosted pipes horizontally on the ground surface, and using branch pipes and sealing joints to seal the PVDs and the air-boosted pipes left in the granular material piles with the main drainage pipes and the main air-boosted pipes; connecting the main drainage pipes to vacuum pumps through sealed connecting pipes, and installing controllable valves at joint positions; connecting ends of the main air-boosted pipes to air-boosted pumps, connecting other ends of the main air-boosted pipes to grouting pumps, and installing controllable valves at joint positions; wherein the main drainage pipes on the ground surface form a vacuum pumping system with the branch pipes, the PVDs and the vacuum pumps; the main air-boosted pipes on the ground surface form an air-boosted system with the branch pipes, the air-boosted pipes and the air-boosted pumps; and the main air-boosted pipes form a grouting system with the branch pipes, the air-boosted pipes and the grouting pumps;
step 3, laying out geotextiles and sealing membranes sequentially on a pipe network in the ground treatment range, and digging sealing ditches around the ground treatment range, and pressing the sealing membranes into the sealing ditches with clay or silt;
step 4, performing vacuum drainage by turning on all the vacuum pumps in the ground treatment range and turning off all the air-boosted pumps and the grouting pumps; when a soil consolidation degree increases slowly, turning on the vacuum pumps and the air-boosted pumps in two adjacent rows alternately, that is, turning on the vacuum pump connected to the PVDs in the discharge material piles in a first row, and at the same time turning off the air-boosted pump connected to the air-boosted pipes in the first row, turning on the air-boosted pump in a second row, and turning off the vacuum pump in the second row at the same time; after a period of time, performing an alternation again, that is, turning off the vacuum pump in the first row of the vacuum pumping system for vacuum drainage and turning on the air-boosted pump in the first row, and turning on the vacuum pump in the second row of the vacuum pumping system adjacent to the first row of the vacuum pumping system and turning off the air-boosted pump in the second row, performing vacuum pre-pressurization drainage and air-boosted pre-pressurization drainage alternately, stopping pressurization when the soil consolidation degree reaches to a design requirement;
step 5, turning off all the air-boosted pumps and corresponding connecting valves in the ground treatment range, turning on the vacuum pumps and the grouting pumps and their corresponding connecting valves in adjacent two rows, that is, starting the vacuum pumps in first and third rows for vacuuming, and turning on the grouting pumps in second and fourth rows at the same time; injecting reinforcement grout into the second and fourth row of the granular material piles and surrounding soil through the grouting pumps until the ground surface;
after the second and fourth rows of grouting are completed, turning off the grouting pumps in the second and fourth rows, and turning off the vacuum pumps in the first and third rows at the same time; and then turning on the grouting pumps in the first and third rows, through the grouting pumps in the first and third rows, injecting reinforcement grout into the granular material piles in the first and third rows and surrounding soil until the ground surface.