
Do you want to know the secret to creating a successful and effective sanitizing tunnel design? It’s all about creativity and thinking outside the box. In this article, we will discuss some innovative ideas for sanitation tunnel design that can help keep everyone safe.
Automated disinfection systems:
One of the most innovative features in modern thorough disinfection is the integration of automated disinfection systems. These systems use sensors to detect the presence of individuals or objects, triggering the disinfection process only when needed. This reduces wastage of disinfectant and ensures that the spray is applied precisely where it’s needed. Automated systems can also control the volume and pressure of disinfectant, ensuring optimal coverage while minimising the risk of overuse or underuse.
UV-C light integration:
UV-C light technology has gained significant attention in sanitizing applications for its ability to kill harmful bacteria and viruses. Incorporating UV-C light into the sanitizing tunnel design can further improve disinfection by targeting pathogens that may not be eradicated by chemical disinfectants alone. This approach is particularly beneficial for sanitizing sensitive surfaces or objects that may be damaged by liquid disinfectants. UV-C lights can be strategically placed within the tunnel to ensure that every surface receives adequate exposure.
Airflow and ventilation systems:
An innovative design for sanitizing tunnels also includes the integration of advanced airflow and ventilation systems. Proper air circulation helps to ensure that disinfectants do not build up in enclosed spaces, reducing the risk of harmful chemical exposure. Additionally, ventilation systems can help dry people and objects quickly after the disinfecting process, preventing the buildup of moisture, which can promote the growth of mould or mildew. A well-designed airflow system maintains a comfortable and safe environment for users.
Touchless operation:
To improve user experience and reduce contact with surfaces, touchless features are becoming an important component of sanitizing tunnel design. From automatic entry gates to motion-sensing dispensers, touchless technology makes the process smooth and hygienic. This feature is especially important in environments where large numbers of people pass through the tunnel frequently, such as airports, hospitals, or shopping malls. It ensures that the risk of cross-contamination is minimised.