20240009721. VEHICLE-MOUNTED IN-SITU MAGNETIC FIELD DECONTAMINATION DEVICE FOR HEAVY METAL CONTAMINATED SOIL WITH RETRACTABLE BAFFLE simplified abstract (INSTITUTE OF SOIL SCIENCE, CAS)
VEHICLE-MOUNTED IN-SITU MAGNETIC FIELD DECONTAMINATION DEVICE FOR HEAVY METAL CONTAMINATED SOIL WITH RETRACTABLE BAFFLE
Organization Name
INSTITUTE OF SOIL SCIENCE, CAS
Inventor(s)
VEHICLE-MOUNTED IN-SITU MAGNETIC FIELD DECONTAMINATION DEVICE FOR HEAVY METAL CONTAMINATED SOIL WITH RETRACTABLE BAFFLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240009721 titled 'VEHICLE-MOUNTED IN-SITU MAGNETIC FIELD DECONTAMINATION DEVICE FOR HEAVY METAL CONTAMINATED SOIL WITH RETRACTABLE BAFFLE
Simplified Explanation
The abstract describes a vehicle-mounted device for decontaminating heavy metal contaminated soil using an in-situ magnetic field. The device includes a mounting frame, magnetic rods that move along the frame, and a lifting regulator that supports the frame. A magnetic particle recovery assembly is located below the frame, and a retractable baffle assembly with baffle springs and non-magnetic baffles is attached to the magnetic rods. The device also has a turn-over channel for the movement of the retractable baffle assembly, compression flaps on both sides of the channel, and an ejection flare for the non-magnetic baffles.
- The device is mounted on a vehicle and can be used to decontaminate heavy metal contaminated soil.
- It uses an in-situ magnetic field to attract and recover magnetic particles from the soil.
- The magnetic rods move along the mounting frame, allowing for efficient decontamination.
- The retractable baffle assembly helps to separate the magnetic particles from the non-magnetic ones.
- The compression flaps and ejection flare aid in the ejection of the non-magnetic baffles.
Potential applications of this technology:
- Environmental remediation: The device can be used to clean up heavy metal contaminated soil in various settings, such as industrial sites or agricultural fields.
- Mining industry: It can be utilized to remove heavy metal contaminants from mining waste or tailings.
- Construction sites: The device can help in decontaminating soil at construction sites where heavy metals may be present.
Problems solved by this technology:
- Efficient decontamination: The device allows for the effective removal of heavy metal contaminants from soil, reducing the risk of environmental pollution.
- Time-saving: The vehicle-mounted design enables faster and more efficient decontamination compared to manual methods.
- Cost-effective: The use of magnetic field decontamination can be a cost-effective solution compared to traditional soil remediation methods.
Benefits of this technology:
- Improved soil quality: The device helps in restoring the quality of contaminated soil by removing heavy metal pollutants.
- Environmental protection: By decontaminating soil, the technology helps in preventing the spread of heavy metal pollutants to surrounding areas, protecting ecosystems and human health.
- Versatility: The device can be easily mounted on different vehicles, making it adaptable to various decontamination projects.
Original Abstract Submitted
a vehicle-mounted in-situ magnetic field decontamination device for heavy metal contaminated soil with a retractable baffle is provided and includes a mounting frame, a plurality of magnetic rods circumferentially move along the mounting frame, the mounting frame and a lifting regulator are hinged with an agricultural machinery frame body, and an upper end of the mounting frame is supported by the lifting regulator. a magnetic particle recovery assembly is arranged below the upper end of the mounting frame. a retractable baffle assembly includes baffle springs and non-magnetic baffles, which each sleeve a corresponding magnetic rod. a turn-over channel for the retractable baffle assembly to move is provided at a middle part of mounting frame. compression flaps are provided at both sides of turn-over channel, and an ejection flare for the ejection of the non-magnetic baffles is formed between free ends of the compression flaps at both sides.