MIEEG

MIEEG is a Start-Up, established in 2019, that is developing an innovative energy generator.

The MIEEG generator, powered by hydrocarbons or hydrogen (which can be sourced even from wastewater), delivers high power in a compact size (approximately 80-100kWe in a volume of about 15 liters and a weight of 15 kilograms). The invention boasts unique characteristics in versatility, applications, and technical solutions.

Founded by engineer Angelo Minotti, a former researcher specializing in space propulsion, MIEEG has grown to a team of around 20, predominantly engineers with PhDs. The company is also supported by an advisory board comprising internationally recognized experts from industry, business, and institutional sectors.

MIEEG's assets include a laboratory equipped with supercomputing capabilities (around 700 cores with hyperthreading), a hydrogen-oxygen test bench for combustion chambers, a vacuum chamber certified for altitudes up to 50 kilometers, and a patent granted in key countries worldwide. The company is already involved in developing H2-turbine-based energy generators and has a strong record of awards and achievements.

The MIEEG generator uses specially designed miniaturized components that achieve high efficiency despite their small size. The technology is patent-filed in 47 countries and already granted in Italy, China, Hong Kong, the United States, Japan, Israel, Canada, the European Union, South Korea, and India, covering a market of over 5.3 billion people and more than 72% of global GDP.

This versatility enables a wide range of applications, thanks to its two configurable designs:

  •  Range Extender for Full Electric Systems: Ideal for electric vehicles (EVs), unmanned aerial vehicles (UAVs), unmanned ground vehicles (UGVs), shipping, and more. It addresses the primary limitations of electric systems—short endurance, high weight/volume, and long recharging times—by extending their range and reducing the weight and volume of the powertrain.
  • Hybrid Energy Generators: These can be integrated with green energy systems, such as wind or solar power. Hybridization allows for the self-production of hydrogen from wastewater or rainwater by utilizing excess energy from wind or solar systems. This integration increases their annual capacity factor (ACF), ultimately aiming to achieve innovative, energy-independent stationary concepts.