Product Introduction

The Mobile Ionized Hydrogen Peroxide Sterilizer is a groundbreaking new product introduced by Shinva. It integrates ionized hydrogen peroxide (iHP) technology with Automated Guided Vehicle (AGV)technology enabling a single unit to achieve an effective sterilization volume of up to 500 cubic meters. It is suitable for widespread application in large-scale space sterilization,such as within Grade B production areas of clean-rooms and biosafety laboratories.

Working Principle of Ionized Hydrogen Peroxide

• The concentration of hydrogen peroxide is less than 8%

• A high-voltage electric field is applied to facilitate efficient ionization and subsequent diffusion of hydrogen peroxide

• generating a micro-aerosol containing hydroxyl radicals

Working Feature of Ionized Hydrogen Peroxide

Use of<8% Hydrogen Peroxide

The equipment utilizes a 7.99 hydrogen peroxide solution. Through an ultra-high-speed fan and vortex nozzle structure, the solution is broken down into micron-sized droplets with a particle size of less than 2um. This low concentration is safe,readily available,and easy to manage.

Superior Diffusion Effect

A high-voltage electric field imparts a positive charge to the micron-sized H202 droplets. Leveraging the physical phenomenon where surfaces in the space typically carry a negative charge, the principle of opposite charges attracting enables the droplets to efficiently target and cover all surfaces for disinfection. Furthermore, as all droplets carry a positive charge, the principle of like charges repelling promotes superior diffusion and uniform distribution throughout the clean area.

Powerful Sterilization Capability

The high-voltage electric field ionizes the 7.9% hydrogen peroxide, generating a nigh concentration of hydroxyl radicals. These radicals exploit their extremely strong oxidizing power (redox potential of 2.8 V) to attack various components of pathogenic microorganisms-including lipids, proteins, and DNA-thereby disrupting microbial structures res and achieving a log6 reduction in sterilization.

High Level of Automation

The system employs an AI visual positioning algorithm to analyze the spatial structure in real-time, achieving centimeter-level precision, It intelligently integrates multi-source data from ultrasonic sensors, LiDAR, and obstacle-avoidance cameras to construct a dynamic perception system. This system can adaptively identify obstacles of different materials and make rapid,reliable decisions for obstacle avoidance.