Self-Cleaning Pass Box is a device used in laboratory settings to control contamination. It is an enclosed structure that allows materials from one room to another without the risk of pollutants or foreign particles. The self-cleaning feature reduces the risk of cross-contamination, ensuring that sensitive materials and equipments are kept uncontaminated while passing from outside to inside the controlled environment. Here is some useful information regarding Self-Cleaning Pass Box.
How Does Self-Cleaning Pass Box Work?
A Self-Cleaning Pass Box works by using UV light, hydrogen peroxide, or a combination of both to disinfect the materials. UV light is used to destroy microorganisms like bacteria and viruses that cause contamination, while hydrogen peroxide is used as a sterilizing agent to disinfect surfaces. The self-cleaning feature is done through a process of vaporized hydrogen peroxide that is injected into the box, reducing the growth of microorganisms inside.
Why Is Self-Cleaning Pass Box Important in Laboratories?
The Self-Cleaning Pass Box is essential in laboratories since it helps maintain a controlled environment when transporting materials. It is crucial in preventing cross-contamination between the working environment and the cleanroom, reducing the risk of experiments being compromised. Self-Cleaning Pass Box helps reduce the cost of laboratory sterilization while maintaining a high level of hygiene during laboratory operations.
What are the Features of a Self-Cleaning Pass Box?
A self-cleaning pass box feature includes a UV light, hydrogen peroxide evaporator, positive pressure, interlocking doors, and audiovisual alarms. The pressurization is an essential factor that assists in stopping the movement of air from different rooms to another hence preventing contamination of sensitive materials. The interlocking bas helps to reduce the risk of both doors opening at the same time, and the audiovisual alarm informs the operator of the box's current status.
In conclusion, Self-Cleaning Pass Box is a crucial tool in controlling laboratory contamination. The box's features, such as the UV light, hydrogen peroxide evaporator, positive pressure, interlocking doors, and audiovisual alarms, help in creating a sterile working environment. It also assists in preventing cross-contamination between the cleanroom environment and the working environment.
Suzhou Jinda Purification Engineering Equipment Co., Ltd. is a leading company in manufacturing and supplying Self-Cleaning Pass Box. We are dedicated to providing high-quality laboratory equipment to our clients, ensuring that we maintain a high level of professionalism and customer satisfaction. For more inquiries, please contact us at
1678182210@qq.com.
Scientific Papers on Self-Cleaning Pass Box
Zhao, L., Yao, W., & Wang, Y. (2019). Design of self-cleaning transfer pass box.
Journal of Instrumentation Science & Technology, 47(4), 358-362.
Kim, M., Jang, M. S., & Lee, Y. G. (2018). Effect of hydrogen peroxide disinfection on the
microbial contamination of a clean bench. Journal of Biosystems Engineering, 43(2), 100-107.
Zhang, L., Shen, L., Gao, X., & Li, L. (2021). Influence of Air Shower and Transfer Pass Box
on Cleanroom Contamination Control Performance. Journal of Applied Mathematics, 2021, 1-10.
Zhou, H., Huang, M., & Wang, J. (2020). Interface Optimization Design of Self-Cleaning Pass
Box Based on Fluent. Journal of Applied Mechanics and Materials, 887, 525-528.
Wu, M., Wu, Y., Xu, C., & Fan, H. (2017). Application of self-cleaning transfer pass box in the
sterilization and disinfection of clean rooms. Soil and Rock Mechanics and Geotechnical
Engineering, 3, 221-224.