Patent ID: 11858018
Assignee: GUIZHOU UNIVERSITY
Field: Other special machines (Mechanical engineering)
Classification: CPC B  A | IPC A  B

Claim 0:
1. An in-situ remediation method for a lead-zinc slag dump, comprising following steps:
step 1, providing a curing agent layer, a clay barrier layer and a planting soil layer on a surface of the lead-zinc slag dump in sequence, and providing an interceptor ditch and a retaining wall at a highest position and a lowest position of the lead-zinc slag dump respectively;
step 2, planting ground covers and shrubs in the planting soil layer;
step 3, providing baffle plates and a plurality of groups of regulating assemblies in lead-zinc slag, wherein each of the plurality of regulating assemblies comprises a water tank, a blind ditch and a first isolation plate, the water tank is semi-circular, the blind ditch is located in the water tank, a bottom of the water tank is uniformly provided with deflector holes, a sliding groove is provided in a wall of the water tank, wherein an extension direction of the sliding groove is consistent with a length direction of the water tank, the sliding groove is communicated with the deflector holes, the first isolation plate is slidably connected in the sliding groove, the first isolation plate is provided with first water through holes corresponding to the deflector holes, water outlet ends of the water tank and the blind ditch are connected with a reservoir, and ends of the plurality of water tanks and blind ditches of the regulating assemblies away from the reservoir are fixedly connected through the baffle plates; providing water spraying components in the planting soil layer, wherein each of the water spraying components comprises a water supply pipe, a second isolation plate and a plurality of sprinklers, the plurality of sprinklers are installed in a top of the water supply pipe and are communicated with the water supply pipe, the sprinklers extend to the planting soil layer outside, a bottom of the water supply pipe is uniformly provided with diversion holes, the second isolation plate is slidably connected to an inner bottom of the water supply pipe, the second isolation plate is provided with second water through holes corresponding to the diversion holes, the water supply pipe is connected with a pool, submersible pumps are provided in the pool, and each of the submersible pumps is communicated with the water supply pipe; each of the second water through holes is connected with a shunt pipe, and an end of the shunt pipe away from the second water through holes is communicated with the blind ditch; the first isolation plate and the second isolation plate are both connected to power components driving them to slide;
step 4, watering the ground covers and the shrubs through the pool, wherein the second isolation plate is driven to move through the power components, so that diversion holes on the second isolation plate are staggered with the second water through holes, the submersible pumps are started, water in the pool is pumped into the water supply pipe by the submersible pumps, and then the ground covers and the shrubs are watered through the sprinklers; at a same time, by applying a medicine or a liquid fertilizer to the pool, applying the medicine or spraying the liquid fertilizer to the ground covers and the shrubs; and
step 5, providing nutrients for microorganisms in the lead-zinc slag through the pool, wherein the first isolation plate and the second isolation plate are driven to move simultaneously by the power components, so that the first water through holes are communicated with the deflector holes, the nutrients are injected into the pool, the nutrients in the pool are pumped into the water supply pipe by the submersible pumps, then enter the blind ditch through the shunt pipe, and finally enter the lead-zinc slag from the deflector holes of the water tank.