Start Saving Fuel with MAGNETIZER®

Industrial Fuel Saving with MAGNETIZER® by Mundi.

Due to the diverse nature of FORTUNE 500 companies and their operations, a specific consolidated figure of NG used in production is only sometimes readily available. The amount these corporations spend annually on fuel can vary significantly depending on industry, company size, and economic conditions. However, it likely amounts to billions of dollars collectively across all these corporations. 

Mundimex, Inc., with its MAGNETIZER® Technology, offers a viable method for industrial fuel saving.

MAGNETIZER® operates on the principle of applying a magnetic field to fuel molecules to induce changes in their structure and behavior, ultimately aiming to improve combustion efficiency and reduce emissions. It strictly follows the principles of the 1970 Nobel Prize-winning science in physics as applied to fluid dynamics.

Here’s a summary of the key points:

  1. Permanent Dipole Moment: The technology imparts a permanent dipole moment to fuel molecules by applying a powerful, focused monopolar charge, which helps break apart clusters of molecules and reorganize their molecular structure in a desired way.
  2. Para-to-Ortho Conversion by the monopolar MF (magnetic field) changes the electron spin and hydrogen’s isomeric para-hydrogen form to a more volatile (combustible) ortho-hydrogen form. This conversion destabilizes long molecules, making them easier to break up, ionize, and atomize, resulting in smaller, more combustible hydrocarbon species.
  3. Improved Oxygen Bonding: MAGNETIZER® attracts oxygen atoms to the hydrocarbon molecules, enhancing oxygen bonding and fuel oxidation, which can lead to a more efficient combustion process.
  4. Reduction in Viscosity and Surface Tension: Downstream of MAGNETIZER®, there is a reduction in viscosity and surface tension due to the action of the monopolar MF with the presence of smaller hydrocarbon molecules and para-to-ortho conversion. It can contribute to improved fuel atomization and combustion efficiency.
  5. Application of Magnetic Field: The technology applies a properly focused magnetic field to ionize the fuel entering the combustion chamber. This process aims to maximize fuel economy, enhance fuel efficiency, and reduce pollutant emissions.
  6. Implementation: MAGNETIZER® technology involves mounting permanent magnetic alloys encapsulated by a “Flux Driver Plate”™ on the air and fuel inlet lines. The magnetic field strength is selected at a properly determined Gauss level to ensure optimal performance without over-magnetizing the fuel.


Overall, MAGNETIZER® technology optimizes combustion by manipulating fuel molecules using properly focused monopolar-in-applied charge magnetic fields. Real-world effectiveness may vary depending on fuel composition, burner type, and operating conditions. Evaluation through controlled testing and validation has been crucial to assess its practical benefits in various industrial applications. In Morocco, e.g., MAGNETIZER® regularly brings 17% NG savings on smaller types of burners with 1″ OD fuel lines.
Large industrial setups (aluminum furnace in a Volkswagen plant in Puebla, Mexico) amounted to 14-20% NG savings. Usually, we guarantee a min. of 6% fuel savings, but get 9% and more in real-life conditions. However, we prefer to underpromise and overdeliver as a company marketing policy.

We welcome you to explore the possibilities and fuel savings MAGNETIZER® will bring to your operational environment.

Monopolar design vs. inline devices

Improved equipment longevity & health with Magnetizer®.

In today’s rapidly evolving industrial landscape, optimizing processes for efficiency and sustainability is paramount. One of the critical aspects of this optimization is industrial water treatment, a fundamental process that ensures the longevity of machinery, enhances productivity and promotes environmental responsibility. 

Industrial Water Treatment: Ensures Softness and Longevity.

Industrial water treatment is a multifaceted process designed to condition water used in various industrial applications. Water, often sourced from rivers or underground reservoirs, contains impurities that can corrode machinery and hinder operational efficiency. Industrial water treatment systems remove contaminants through chemical, physical, and biological processes, ensuring the water’s purity and preventing equipment deterioration. 

Magnetizer® is the natural, non-chemical, physical, i.e., magnetic method to achieve, if not surpass, the results of other traditional treatment methods.

One of the key benefits of Magnetizer water treatment is its contribution to environmental conservation. Industries reduce their ecological footprint by eliminating chemical pollutants before discharge and preserving natural water bodies and aquatic life. Moreover, treated water can be recycled within industrial processes, conserving precious resources and reducing water consumption.

Advanced Industrial Water Treatment Systems: Pushing the Boundaries of Innovation

Recent years have witnessed remarkable advancements in industrial water treatment systems. Cutting-edge technologies such as membrane filtration, ion exchange, electrocoagulation, and magnetic fluid treatment have revolutionized the industry. Membrane filtration, for instance, employs semipermeable membranes to remove microscopic contaminants, ensuring exceptionally pure water for industrial use. Ion exchange processes involve the replacement of undesirable ions with more desirable ones, effectively purifying the water.

Conversely, electrocoagulation utilizes electrically generated metal hydroxide species to neutralize charges on suspended particles, facilitating their removal.

Magnetic fluid dynamics ensures soft water behavior, pH stabilization, full oxidation, sulfur suppression, and more. This innovation enhances treated water quality and significantly reduces energy consumption, making industrial processes more sustainable and cost-effective.

Industrial Fuel Savings System: Paving the Way for a Greener Future

In pursuing sustainable industrial practices, the focus extends beyond water treatment to encompass fuel savings systems. Industries heavily reliant on energy consumption, such as manufacturing and transportation, are exploring innovative solutions to reduce fuel usage and minimize their environmental impact.

One such solution involves the integration of smart sensors and data analytics to optimize fuel consumption. By monitoring equipment performance in real-time, industries can identify inefficiencies and implement timely adjustments, leading to substantial fuel savings. Additionally, adopting alternative fuels, such as biofuels and hydrogen, holds immense promise. Another one is Magnetizer® Fuel Saving through polarization and atomization of fuel molecules. These eco-friendly alternatives reduce greenhouse gas emissions and contribute to energy diversification, ensuring a more resilient industrial infrastructure.

In conclusion, the synergy between traditional industrial water treatment, advanced treatment systems, and fuel savings innovations exemplifies industries’ commitment to sustainable practices. By prioritizing water purity, embracing cutting-edge technologies like Magnetizer®—the foundation of which is the Nobel Prize-winning science of magneto-hydro-dynamics—and exploring alternative energy sources, industries are enhancing operational efficiency and safeguarding the environment for future generations. This holistic approach signifies a paradigm shift towards a greener, more sustainable industrial future, where innovation and environmental stewardship go hand in hand, shaping a world where progress and conservation coexist harmoniously.