Non-intrusive Efficiency Improvement and Emission Reduction in Energy Consumption and Energy Production
Our core competence is to introduce coherence and improved conversion efficiency with different types of energy carriers, including electricity, gasoline, diesel, refrigerant, hydrogen, etc. Independent of respective system components and without changes in materials and processes, we support to increase the conversion efficiency in energy carriers with our disruptive solutions in mobility, energy, and cooling systems, increasing energy efficiency as well as reducing energy consumption and emissions.
For over 10 years, we have been developing customer-specific and flexible energy solutions that can be quickly and conveniently installed without intervention in software or hardware – for reduced energy consumption and reduced environmental emissions in already installed and future air conditioning, refrigeration, and fuel combustion systems. As a system solutions provider we implement individual projects for different applications together with our partners and customers. Thereby form-factors and materials can be individually and freely selected. In very close cooperation, our solutions are developed for individual and application specific products.
Improved efficiency
Reduction of energy and fuel consumption, reduction of emissions
Flexible materials
Form-factors, materials, and sizes
Non-intrusive
No interference with energy systems and no modifications of hardware or software
Versatile compatibility and installation
Easy to be placed in minutes, irrespective of manufacturer or hardware
Air conditioning (HVAC) & Refrigeration
Reduction in electricity consumption of existing HVAC and refrigeration systems by 50%
Reduction of additional power generation and network capacity to meet peaking electricity demand
Reduction of carbon emissions and operating cost
Heat Pumps
Reduction in electricity consumption up to 28%
(with a very energy-efficient and up-to-date A++ heat pump system)
Diesel and Petrol Vehicles (RDE PEMS Test)
Reduction of particle (PM2.5) emissions up to 94%
Reduction of NO2 emissions up to 50%
Improvement in fuel efficiency by 25% on average
Our Mission
Our mission is to sustainably enhance current compression processes and combustion technologies across the fields of heating and cooling, automotive transportation, and energy production, with a focus on the reduction of carbon emissions as well as the reduction of energy and fuel consumption. Our commitment is to quickly and conveniently improve an outdated method with a holistic approach that integrates the best of traditional as well as innovative and disruptive practices that are safe and based on natural science, driving innovation that optimizes energy efficiency, reduces greenhouse gas emissions, and achieves cost reductions (resources/infrastructure) by reducing fuel and energy consumption as well as consequential cost reductions by reducing emissions.
With our proven and flexible instrument for a wide range of energy applications, we aim to create a high-technology and effective energy solution.
Scientific Background
In 1924 Louis de Broglie (Nobel Prize 1929) introduced his theory of electron waves, claiming that electrons and all matter could be considered as waves. The quantum physics concept of wave-particle duality exhibits particle or wave properties in quantum entities. This duality is a fundamental aspect of the quantum world and challenges the classical perceptions about the behavior of particles.
Our Technology Approach
For 25 years, we have not focused on the behavior of particles but have centered our development and approach on waves with their resonant and individual frequencies as a contrary scientific approach. These individual frequencies trigger actions responsible for necessary events/reactions in target objects, ultimately generating natural and measurable results aligning with the initially defined goals.
The classic scientific approach with particles is about measuring discrete entities with well-defined positions and momenta. But particles do not show well-defined positions and momenta simultaneously. Instead, they are described by a probability distribution, often referred to as a waveform. In order to be able to perceive these waveforms and their frequencies, you need to possess sensory abilities, such as “perfect pitch” for example. Without these special skills, determining these individual frequencies (reading and creating them) is not possible. We own these special capabilities which permits us to determine these resonant and individual frequencies and allows us to utilize this approach to the full extent.