General

Dry fogging technology is a method that uses specialized devices to produce fine droplets of liquid, creating a mist that can efficiently cover surfaces for applications such as disinfection. It is designed to be non-damaging and effective in various settings.

Dry fogging works by breaking down a liquid disinfectant into tiny droplets, creating a mist. These fine droplets linger in the air, reaching and covering surfaces more thoroughly than traditional methods.

Automated fogging devices are machines equipped with the capability to disperse a mist or fog automatically. They are designed to streamline and enhance the efficiency of the fogging process.
 

Dry fogging technology can be applied in various settings, including homes, offices, healthcare facilities, schools, gyms, public spaces, and more.

Yes, dry fogging is designed to be non-damaging to sensitive equipment, electronics, fabrics, and other materials.

Dry fogging is highly effective in disinfection as the fine droplets can reach and cover surfaces, including hard-to-reach areas, providing thorough sanitation.

Automated dry fogging offers precision, consistency, and time efficiency compared to manual methods. It ensures even distribution and minimizes the margin for error.

No, it cannot replace traditional methods. While dry fogging decontamination provides comprehensive coverage of surfaces, it has limited penetration due to the relatively lower disinfectant quantities. Aerosol technology serves as an additional safety measure to enhance microbiological risk mitigation.
 

Eco-friendly disinfectants are formulated with ingredients that have minimal impact on the environment. They are biodegradable, non-toxic, and do not contribute to harmful chemical residues.
 

Yes, our eco-friendly disinfectants are safe for humans and pets. They are formulated to be non-toxic and pose minimal health risks.

Disinfection is eradicating pathogenic and various other microorganisms through physical or chemical methods. Disinfectants, classified as antimicrobial agents, are applied to inanimate objects to eliminate microorganisms, a procedure known as disinfection.

Sterilization eliminates all transmissible agents (such as bacteria and viruses) from a surface, equipment, food or biological culture medium.
 

Deodorizing involves the inhibition of bacteria growth responsible for generating odours.

Sterilization denotes the complete removal of all transmissible agents, such as bacteria and viruses, from surfaces, equipment, food, or biological culture media.

A pesticide is any substance or combination designed to prevent, destroy, repel, or mitigate pests. Pesticides can take the form of chemical substances, superoxidated water, or biological agents, combating pests ranging from insects and plant pathogens to weeds and microbes that interfere with human activities.

A biocide is a chemical substance capable of eliminating various forms of living organisms. It encompasses pesticides like fungicides, herbicides, algicides, and rodenticides, as well as antimicrobials such as germicides, antibiotics, antibacterial, antivirals, antifungal, antiprotozoal, and antiparasitic.

An antiseptic prevents the growth and reproduction of diverse microorganisms (bacteria, fungi, protozoa, viruses) on living tissues or skin. Some function as true germicides, actively destroying bacteria, while others inhibit or prevent their growth, with the goal of reducing the risk of infection.

Fungicides are chemical compounds employed to hinder the proliferation of fungi in gardens and crops, preventing potential harm to plants. They are also utilized in combating fungal infections.
 

A bactericide is a substance designed to eliminate bacteria exclusively. Bactericides can manifest as disinfectants, antiseptics, or antibiotics, targeting bacteria for eradication.

A sporicide is a substance effective in killing spores or spore-forming fungi and bacteria, contributing to comprehensive microbial control.
 

Reducing the impact on the environment by employing ingredients that can naturally break down over time, promoting ecological sustainability.

Capable of undergoing natural decomposition; composed of materials that break down relatively swiftly due to bacterial activity; can be disintegrated into elements like carbon, contributing to natural recycling processes.

Misting is a process of dispersing a fine spray or mist of liquid into the air. This is often done using a device like a misting system (aerosols), which releases tiny droplets of water or another liquid, creating a fine mist.

Spraying is the process of applying a liquid, typically in the form of a fine mist or spray, onto a surface or into the air. This is commonly done using a spray gun or other spraying devices. Spraying is a versatile technique used for various purposes, including painting, cleaning, disinfecting, and applying various liquids.
In the context of disinfection, spraying is often employed to distribute a disinfectant solution evenly over surfaces, covering a wide area efficiently. This method ensures that the liquid reaches and coats surfaces effectively, providing thorough sanitation. Spraying is widely used in cleaning applications, agriculture, pest control, and other fields where an even distribution of liquid is essential.
 

Microbe Log Reduction measures the decrease in the number of microorganisms achieved through a disinfection process. It quantifies the effectiveness of a disinfectant in reducing the microbial population.

A 99.9999% Log Reduction indicates an even more substantial reduction in microorganisms, leaving only 0.0001% of the original population. This level of reduction is particularly critical in environments requiring a high level of sterility.

A 99.9% Log Reduction means that the disinfection process has successfully reduced the microbial population by 99.9%, leaving only 0.1% of the original microorganisms.

Achieving a 99.9999% Log Reduction involves a thorough and potent disinfection process, suitable for environments where an extremely low microbial presence is crucial. This level of reduction is often vital in medical and laboratory settings.

Certain environments, like healthcare facilities and laboratories, demand an exceptionally high level of microbial reduction to minimise the risk of infections and ensure a sterile setting for critical procedures.

HOCl's rapid and powerful action makes it effective in achieving different Log Reduction levels. Its versatility allows for customisation based on the required level of microbial reduction in various environments.

HOCl (Hypochlorous Acid) typically demonstrates a higher Microbe Log Reduction compared to traditional disinfectants like Dettol. This is because HOCl is a powerful and fast-acting oxidising agent, providing a more effective and comprehensive microbial kill.

HOCl's mode of action involves rapid oxidation and denaturation of microbial proteins, leading to a swift and efficient reduction in the microbe population. This characteristic sets HOCl apart, especially when compared to traditional disinfectants that may not achieve the same level of log reduction.

Yes, HOCl is known for its rapid and effective action, often achieving higher Microbe Log Reduction in a shorter period compared to traditional disinfectants. This efficiency is crucial in ensuring thorough and swift disinfection processes.

The higher the Microbe Log Reduction, the more effective the disinfectant is in eliminating harmful microorganisms. HOCl's ability to achieve significant log reductions ensures a more thorough and reliable disinfection process, which is critical for maintaining a safe and sanitised environment.

While Microbe Log Reduction is a crucial factor, other considerations include the spectrum of microorganisms targeted, contact time, and the disinfectant's compatibility with various surfaces. HOCl, in addition to high log reduction, is effective against a broad range of pathogens.

Yes, HOCl has demonstrated efficacy against antibiotic-resistant strains, similar to or even better than some traditional disinfectants. This is advantageous in preventing the development of resistance in microorganisms.

HOCl is generally considered safe for use, and it has a milder impact on the environment and human health than traditional disinfectants. Its biocompatibility adds to its appeal in various applications.

Yes, the production and application of HOCl often contribute to environmental sustainability. It can be generated on-site, reducing the need for transportation and packaging associated with traditional disinfectants and aligning with eco-conscious practices.

HOCl's ability to achieve significant Microbe Log Reduction, coupled with its rapid action, broad-spectrum efficacy, and environmentally friendly profile, positions it as a preferred choice for effective and sustainable disinfection.