Sterilization verification services
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Dry Fog Hydrogen Peroxide Sterilization System - Laboratory Sterilization Solution Dry Fog Hydrogen Peroxide Sterilization System
Laboratory Sterilization Solution - Leading a New Era of "Ecological Sterilization"
Technology Overview
Fumigation is a technology that uses fumigant compounds to kill pests, pathogens, spores, or other harmful microorganisms in enclosed spaces. Fumigation can effectively eliminate stubborn microorganisms including spores. However, with the rapid advancement of technology, especially the emergence of "dry fog" sterilization systems, fumigation has become relatively outdated.
Dry fog sterilization overcomes many shortcomings of fumigation sterilization, such as complicated operation, excessively long sterilization time, and harm to human health and the environment, successfully leading a new era of "ecological sterilization".
The dry fog hydrogen peroxide sterilization system is an efficient, safe, and environmentally friendly laboratory sterilization solution. By converting hydrogen peroxide solution into micron-level dry fog particles, it achieves comprehensive sterilization of laboratory spaces, significantly reducing enterprise costs while fully meeting sterilization requirements and greatly shortening sterilization time.
Log6 Kill Rate5μm Dry Fog Particles2-6h Sterilization Cycle0 Harmful ResidueShortcomings of Traditional Fumigation
Toxicity Hazards
Traditional fumigants are toxic, causing significant harm to humans or the environment, requiring special protection for operators.
Complex Operation
Sterilization operation is complex, process difficult to control, requiring professional personnel operation.
Excessive Time
Sterilization time is too long, traditional methods require several days, affecting normal laboratory operation.
The most notable feature of traditional fumigation is its low cost, but they all share some common shortcomings: toxic, causing significant harm to humans or the environment; complex sterilization operation, process difficult to control; excessively long sterilization time, which are precisely what modern enterprises find difficult to tolerate.
Advantages of Dry Fog Sterilization System
High-Level Sterilization Requirements
Meets high-level laboratory sterilization requirements, achieving 6-log reduction against Bacillus subtilis var. niger.
Non-Corrosive
Significantly reduced concentration compared to traditional hydrogen peroxide, ensuring color steel plates and equipment are not corroded.
No Residue
No residue after product disinfection, comprehensive verification data, compliant with environmental requirements.
Excellent Diffusion
5-micron dry fog effect, close to gaseous state, ensuring diffusion and disinfection effect for complex layouts.
Working Principle of Dry Fog Sterilization System
The dry fog sterilization system uses specially designed atomizing devices to convert hydrogen peroxide solution into dry fog particles with a diameter of about 5 microns. These tiny particles undergo Brownian motion in the air, enabling uniform diffusion to every corner of the space, including areas difficult to reach by traditional methods.
Dry fog particles have the characteristics of non-settling, non-aggregating, and non-wetting surfaces, allowing them to remain suspended in the air for extended periods, fully contacting microorganisms, and destroying microbial cell structures through strong oxidation, achieving efficient sterilization.
Application Scope
Dry fog hydrogen peroxide sterilization systems are widely used in various laboratory environments, including biosafety laboratories, pharmaceutical clean areas, hospital operating rooms, laboratory animal facilities, and other places requiring high-level disinfection and sterilization.
The system can be safely used for surface and space disinfection of various materials including stainless steel, plastic, glass, floors, and walls, especially suitable for scenarios with strict material compatibility requirements.
Verification Standards
The sterilization effect of the dry fog hydrogen peroxide sterilization system can be comprehensively verified, including sterilization efficacy verification, residue verification, and material compatibility verification.
Using Bacillus subtilis as the challenge test bacterium, a kill rate of 10³-10⁶ can be achieved, i.e., a reduction of 3-6 logarithmic units, proving the system's ability to kill various microorganisms during space sterilization.
Comparison with Traditional Methods
Comparison Item Dry Fog Hydrogen Peroxide Sterilization Traditional Fumigation Methods Sterilization Time 2-6 hours to complete the entire sterilization process Requires at least 48 hours or more Toxicity Hazards Non-toxic, harmless, safe for operators Toxic, requires special protection Operation Complexity Simple operation, high degree of automation Complex operation, requires professional personnel Residue Issue No harmful residues, decomposes into water and oxygen Has residues, requires neutralization and cleaning Material Compatibility Good compatibility with most materials May corrode equipment surfaces Verification Difficulty Complete verification data, easy to pass GMP verification Complex verification process Operation Process
The standard operating procedure of the dry fog hydrogen peroxide sterilization system is simple and intuitive:
1Preparation
Clean the sterilization space, transfer relevant personnel, close doors and windows
2Equipment Placement
Place the sterilization equipment in a suitable position, connect to power source
3Parameter Setting
Set sterilization parameters according to space volume, add disinfectant
4Start Sterilization
Start the equipment, dry fog hydrogen peroxide evenly diffuses throughout the space
5Completion and Ventilation
Ventilate after sterilization completion, detect residual concentration
The entire sterilization process takes only 2-6 hours, significantly shortening sterilization time compared to traditional fumigation methods, improving laboratory utilization efficiency, while the sterilization effect meets high-level laboratory requirements.
