Views: 0 Author: Site Editor Publish Time: 2025-08-07 Origin: Site
Core Advantages of Ozone Micro-Nano Bubble Technology in Laundry Stain Removal
Ozone Micro-Nano Bubble technology combines the strong oxidizing power of ozone with the unique physicochemical properties of micro-nano bubbles, offering an efficient and sustainable innovative solution for modern laundry cleaning. Its core advantages are demonstrated across five key dimensions:
I. Deep Cleaning & Broad-Spectrum Stain Removal
Ozone acts as an efficient oxidizer, decomposing various organic stains (oils, proteins, natural pigments like red wine/coffee/grass stains). Micro-nano bubbles (diameter range: hundreds of nanometers to micrometers) possess an exceptionally large specific surface area, enabling them to carry high concentrations of ozone deep into fabric fibers and pores, significantly increasing contact area with stains and reaction efficiency. The localized high-pressure, high-temperature conditions, and free radicals generated during bubble collapse synergistically enhance the removal of stubborn stains and microorganisms. This combined effect demonstrates prominent effectiveness against protein-based stains (e.g., blood stains), which are often challenging for conventional detergents.
II. Efficient Sterilization & Source-Level Odor Elimination
Ozone possesses recognized broad-spectrum microbial inactivation capability (bacteria, viruses, fungi). Micro-nano bubbles substantially improve ozone solubility and retention time in water, ensuring uniform distribution and maintenance of effective concentrations throughout fabric fibers and the washing system. This technology not only eliminates pathogenic microorganisms but also oxidizes and decomposes organic compounds responsible for odors (e.g., sweat, mildew, tobacco smells) at the molecular level, achieving genuine deodorization (not masking). This significantly enhances post-wash hygiene, cleanliness, and freshness of laundry.
III. Energy Savings & Cost Optimization
This technology delivers excellent stain removal and sterilization performance at low temperatures (ambient or cold water). Compared to conventional thermal washing, it can significantly reduce (or partially replace) the energy consumption (electricity/gas) required for heating. By reducing, or even partially replacing, the use of chemical detergents, bleaches, and fabric softeners, it directly lowers chemical costs. Furthermore, since ozone ultimately decomposes into oxygen without leaving residues, it reduces the number of rinse cycles required, shortens washing cycles, and saves water consumption and overall operational costs.
IV. Environmental Friendliness & Fabric Protection
Ozone decomposes into oxygen after washing, eliminating emissions of harmful chemical residues. Significantly reducing the use of synthetic chemical detergents lowers the risk of post-wash wastewater eutrophication and reduces the burden on subsequent sewage treatment. The washing process predominantly operates at low temperatures in near-neutral to slightly alkaline environments, avoiding the damage, fading, and accelerated aging caused to various fabric fibers (especially delicate fabrics like silk, wool) by high temperatures and strong alkalis. This helps in prolonging the service life of high-quality garments.
V. Penetrating Cleaning & Operational Convenience
The powerful penetrating capability of micro-nano bubbles synergizes with ozone's oxidizing power to achieve deep cleaning at the fiber level, reducing both stain and chemical residues. As ozone itself possesses cleaning efficacy, it reduces reliance on surfactants (foaming agents), resulting in significantly less foam in the wash liquor. This dramatically reduces rinsing difficulty, water consumption, and time, enhancing overall washing process efficiency.