PMnB is an advanced water and wastewater treatment technology deployed worldwide across municipal, industrial, agricultural, and environmental applications.
Up to
BOD
reduction
Up to
TSS
removal
Up to
energy
cost savings
Up to
chemical-free
Explore how PMnB is applied across different treatment challenges and operating environments.
A wastewater treatment upgrade reduced effluent quality in a 390,000 m³ reservoir. PMnB restored treatment performance using floating ozone nano bubble systems.
Poor reservoir water quality threatened reliable irrigation and crop health. PMnB was installed to control algae and biofilm in irrigation water.
A municipal facility required a chemical-free alternative for tertiary disinfection. PMnB implemented ozone nano bubble disinfection using floating units.
A 300,000 m³ reservoir receiving secondary-treated municipal effluent did not meet Ministry of Health quality requirements for irrigation reuse. PMnB was deployed using floating ozone nano bubble systems to improve oxidation and stabilize effluent quality without chemical dosing.
A large municipal wastewater reservoir system (500,000 m³ total volume, 2,500 m³/day flow) required advanced oxidation to meet Ministry of Health quality requirements for irrigation reuse. PMnB implemented floating ozone nano bubble systems to enhance oxidation efficiency and improve effluent quality.
An offal slaughterhouse facility required reliable sulfide reduction to meet discharge limits. PMnB was installed after anaerobic treatment to improve oxidation.
A PMnB ozone nano bubble system was installed on an effluent reservoir recirculation line to improve secondary effluent quality. The reservoir had become anaerobic with poor water quality (high BOD/COD, high turbidity). PMnB ozone nano bubbles restored oxygen levels and significantly improved effluent quality within practical operating timelines.
Severe odors from a wastewater reservoir in an industrial area caused public complaints. PMnB restored aerobic conditions across the reservoir.
A 370,000 m³ reservoir storing tertiary-treated wastewater experienced algae growth and declining effluent quality following irregular discharge during 2023, leading to disqualification for irrigation reuse. PMnB implemented floating ozone nano bubble systems to restore oxidation efficiency, control algae, and stabilize reservoir water quality.
A drinking water operator needed to reduce pathogens while significantly lowering chlorine use. PMnB implemented ozone-based nano bubble disinfection to improve treatment performance.
High iron and manganese levels had taken critical drinking water wells out of service. PMnB applied ozone nano bubble oxidation with sand filtration to restore well operation without chlorination infrastructure.
A 30,000 m³ irrigation reservoir required algae and biofilm control to protect irrigation performance. PMnB improved water clarity and stabilized reservoir conditions.
Poor soil oxygenation and root disease pressure were impacting avocado tree health and long-term productivity. PMnB was installed as a bypass on the irrigation line to deliver oxygen nano bubbles directly into the root zone.
Bring your treatment target, system layout, and current challenge. We’ll help you evaluate fit, integration requirements, and the role PMnB can play in your process.
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PMnB has been deployed in extensive municipal wastewater reservoirs ranging from 300,000 m³ to 3,000,000 m³, improving effluent quality without replacing existing wastewater treatment plants.
In multiple case studies:
Floating ozone nano bubble systems integrate with centralized systems and municipal sewers without major infrastructure changes.
Yes. Several case studies demonstrate that PMnB was implemented:
The systems are modular and deployable without rebuilding treatment plants or modifying sanitary sewer infrastructure, and can also be integrated into decentralized treatment configurations, including septic systems and on-site wastewater solutions.
Across municipal and industrial wastewater treatment facilities, PMnB has delivered:
Operators benefit from lower chemical dependency while maintaining compliance with quality standards.
Industrial wastewater management and reservoir systems often experience variable influent quality.
Case studies show:
This demonstrates resilience under real operating conditions.
Energy consumption is a major cost driver in treatment plants.
Results achieved across deployments:
This significantly improves lifecycle cost performance.
Yes. Documented case studies demonstrate scalable deployment:
The technology supports both centralized wastewater treatment plants and decentralized reservoir-based systems.
Several case studies show restoration of irrigation reuse approval through improved wastewater treatment performance.
Outcomes include:
This enables safe reuse of treated municipal wastewater in agriculture and aquaculture environments.
