OOYAMA Power Inc. | Pioneer of cold fusion reactor


Finally, the principle of the "cold fusion" will be disclosed by the following book.

Under acclaimed sale from May 1

Cold Fusion Reactor
-Metal crystal confinement fusion reactor-

Kazuo Ooyama  Cold Fusion Reactor
It describes the past experimental results of cold fusion, the analysis and theory of the mechanism, and the circumstances of actually producing an experimental reactor of a cold fusion reactor and starting up successfully.

  Published Japanese version from Ooyama Power Inc. on April 8 (Japan time), 2019, and then release the English version.

You can purchase this at Japan Amazon.
The price is 15,000 yen (excluding tax).
Table of Contents
Chapter 1: The Ultimate Energy Source
1-1. Humanity and Energy Sources
1-2. Advantages of cold fusion reactor
Chapter 2: Main experiments of cold fusion and theoriesso so far
2-1. Electrolytic experiment of heavy water
2-2. Experiment of deforming Pd with solid solution of deuterium
2-3. Nano powder system experiment
2-4. Transmutation experiment
2-5. Previous theories and authors' thoughts
Chapter 3: Exploration of cold fusion mechanism
3-1. God's Jigsaw Puzzle
3-2. Jigsaw puzzle of the whole picture only
3-3. Remaining pieces
3-4. Maximum lost piece (nuclear fusion reaction cross section problem)
Chapter 4: Special phenomena of metal and ion beam
4-1. Shielding effect
4-2. Abnormal value of shielding energy
4-3. Channeling phenomenon
4-4. D-D-D 3 nucleus fusion occurring in metal
Chapter 5:Inner metal crystals nuclear fusion mechanism
5-1. Ignition reaction
5-2. Confirming the current status of the jigsaw puzzle
5-3. Binary nucleus model
5-4. Burning reaction (fusion chain reaction)
Chapter 6: Physics has been wrong since 100 years ago.
6-1. Nuclear power potential image
6-2. Modified nuclear force potential
6-3. Completion of the theory of inner metal crystals nuclear fusion mechanism
6-4. Potential image from neutron cross section
Chapter 7: Reactions that occurred in each experiment
7-1. Reaction occurred in transmutation experiment
7-2. Imperfect burning occurred in transmutation experiment
7-3. Reaction caused by electrolytic experiment
7-4. Summary of phenomena and reactions occurring in each experiment
Chapter 8: Cold fusion experiment experimental reactor
8-1. Basic composition of cold fusion reactor
8-2. 6Li concentration suitable for burning reaction
8-3. Experimental reactor startup and history
8-4. Consideration of dose and experimental results
8-5. Improvement plan
Chapter 9: Conceptual diagram of cold fusion power generation system
Chapter 10: Issues
10-1. Ignition method
10-2. Output control method
10-3. Homogenization of deuterium concentration of metal heating element
10-4. Radiation control
10-5. Metal heating element
10-6. Transmutation and metal heating element support structure
Cited document
A postcard

Cold Fusion Reactor? Metal Crystal confinement Fusion Reactor?

 The cold fusion reactor is a type of nuclear reactor, but in principle it is an ideal nuclear reactor that does not generate radiation.
  Since the newspaper article on the occurrence of excessive fever due to the electrolysis experiment of Fleischmann and Ponds on March 23, 1989, as well as the fact that the information is unclear and some questions remain, and the cold fusion has not been reproduced well, so it is becoming to be treated as a pseudoscience.
  However, as the Toyota Central Research Institute succeeded in reproducing the transmutation test of Mitsubishi Heavy Industries in 2013, we has trusted this transmutation experiment and studied it as the same kind of reaction as cold fusion It was.
  As a result, we concluded that nuclear reactions occurring in metal crystals causing transmutation are classified as "ignition reaction", "burning reaction (nuclear fusion chain reaction)" and "transmutation reaction". The reaction occurring in the 'phase with a high deuterium concentration in the Pd metal crystal is an "ignition reaction", which generates neutrons and ion beams such as tritium as well as the conventional D-D nuclear fusion. This ion beam enters the phase with low deuterium concentration, causing "burning reaction". This is a large amount of heat generated after electrolysis in electrolytic experiment of heavy water, so-called "heat after death". "Transmutation reaction" occurs due to the ion beam generated in the "burning reaction".
  With Ooyama Power, we continue research, thinking that we can create a "cold fusion reactor" that does not emit radiation with strong permeability if we utilize "combustion reaction" within these.
  This "cold fusion reactor" should be called "metal crystal confinement nuclear fusion reactor" as a term corresponding to the "magnetic confinement nuclear fusion reactor" currently aiming for realization under international cooperation.