nuclear reactions

A part of this report was introduced in the September 2022 issue of our periodical, “Yano E plus.”

– A Unique Phenomenon of Elemental Fusion and Nuclide Transformation Has Been Observed at Low Temperatures in Metal Crystals Where at least 10,000 Times Higher Heat Generation Has Been Seen in Conventional Chemical Reactions –

1. Energy Issues at the Root and Condensed Matter Nuclear Reactions

2. Fleischmann-Pons (F-P) Effect

3. Development to Condensed Matter Nuclear Reactions

3-1. Japan

3-2. Overseas

4. Market Size Forecast

5. Research and Development by Companies and Universities

5-1. Ooyama Power Kabushiki Kaisha

1) Significance and Concept of Confined Nuclear Fusion in Metal Crystals

2) Theory of Confined Nuclear Fusion in Metal Crystals – Metal Crystals as Special Reaction Fields for Nuclear Reactions –

3) Experiment of Confined Nuclear Fusion in Metal Crystals

i. Basic Configuration

ii. Conditions of Metal Crystals Required for Chain Reactions

iii. Estimation of Nuclear Reactions Generated in This Experiment

4) Conditions for the Formation of Room-Temperature Nuclear Fusion Reactors and Future Experiments

5-2. Clean Planet Inc.

1) What is QHe?

i. Difference from Nuclear Fission

ii. Difference from High-Temperature Fusion

iii. Heat Generation Continues for a Long Time with a Small Amount of Hydrogen

iv. The Amount of Energy Generated is at least 10,000 Times Greater Than That of City Gas

2) Potential of QHe

3) Superiority of Clean Planet

i. Superiority in Materials

ii. Superiority in Intellectual Property Strategies

iii. Start of Cooperative Development for Practical Heat Utilization

4) Future Development Plans

5-3. Tohoku University

1) What is Quantum Hydrogen Energy (QHe)?

2) Energy Generation Experiments

3) Mechanism of CMNR

4) Future Challenges

6. Future Prospects