Deuterium–neutron fusion

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Deuterium (Deuterium Oxide^[1]^[2]) Or Heavy Water - Neutron Fusion^[3] is a type of Particle Reaction when on contact with Neutrons the Power Generated forces and Continuant Amounts of Energy to Be Released, As the Deuterium Collapses in on itself the Neutrons Expand Rapidly^[4] as the Neutrons Expand due to Fusion^[5] then,

$D2O+DeuteriumOxide=59Megajoules(Energy)$

^[6] generating Nuclear Energy^[7], Another thing about it is Intermenstrual Process^[8], Instrumental Chemistry uses Complex Machines for example the Particle Accelerator

Beneficial Nuclear Energy[edit]

In many Cases Nuclear Energy is Beneficial compared with Pollution it is Devastating in Wildlife^[9]^[10] terms according to some it is economically Great^[11]^[12]News Reporters Approved with Nuclear Reactor Mayors^[13], Currently Deuterium Fusion Plants are Approving of the idea and is Reliable in Various Incidents.

References[edit]

↑ "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.
↑ PubChem. "Deuterium oxide". pubchem.ncbi.nlm.nih.gov. Retrieved 2022-03-12.
↑ Fardo, Stephen W.; Patrick, Dale R. (2020-12-17). Electrical Power Systems Technology. River Publishers. ISBN 978-1-003-15147-0. Search this book on
↑ "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.
↑ Raftopoulos, S.; Barnes, G.; Chrzanowski, J.; DiMattia, J.; Fedder, R.; Gallagher, D.; Gilsenan, E.; Gettelfinger, G.; Jakober, R.; Laneski, J.; LaMarche, P. "Overview of the TFTR D&D program". Proceedings of the 19th IEEE/IPSS Symposium on Fusion Engineering. 19th SOFE (Cat. No.02CH37231). IEEE. doi:10.1109/fusion.2002.1027736.
↑ "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.
↑ Zohuri, Bahman; McDaniel, Patrick (2018-08-29), "Nuclear Power Plants", Thermodynamics in Nuclear Power Plant Systems, Cham: Springer International Publishing, pp. 477–539, ISBN 978-3-319-93918-6, retrieved 2022-03-12
↑ Skoog, Douglas A.; Holler, F. James; Crouch, Stanley R. (2013). "Instrumentelle Analytik". doi:10.1007/978-3-642-39726-4.
↑ MacDonald, John D. (November 2006). "Safe and secure - Environmental effects of nuclear power plants and the nuclear fuel cycle". IEEE Power and Energy Magazine. 4 (6): 49–55. doi:10.1109/pae-m.2006.247870. ISSN 1540-7977.
↑ Rohrer, Jürg (2007-01-09). "Pros and cons of nuclear power - Time for Change". Retrieved 2022-03-12.
↑ "Nuclear Power Generation", Modern Power Station Practice, Elsevier, pp. 260–265, 1992, retrieved 2022-03-12
↑ Rohrer, Jürg (2007-01-09). "Pros and cons of nuclear power - Time for Change". Retrieved 2022-03-12.
↑ Charles A. Gentile; Erik Perry; Keith Rule; Michael Williams; Robert Parsells; Michael Viola; James Chrzanowski (2003-10-28). "The First Decommissioning of a Fusion Reactor Fueled by Deuterium-Tritium".

External Links[edit]

• Fusion of Deuterium (Volume 28) ,1997)

• The First Decommissioning of a Fusion Reactor Fueled by Deuterium-Tritium • Safety and Environmental Aspects of Deuterium--tritium Fusion Power Plants

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[1] "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.

[2] PubChem. "Deuterium oxide". pubchem.ncbi.nlm.nih.gov. Retrieved 2022-03-12.

[3] Fardo, Stephen W.; Patrick, Dale R. (2020-12-17). Electrical Power Systems Technology. River Publishers. ISBN 978-1-003-15147-0. Search this book on

[4] "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.

[5] Raftopoulos, S.; Barnes, G.; Chrzanowski, J.; DiMattia, J.; Fedder, R.; Gallagher, D.; Gilsenan, E.; Gettelfinger, G.; Jakober, R.; Laneski, J.; LaMarche, P. "Overview of the TFTR D&D program". Proceedings of the 19th IEEE/IPSS Symposium on Fusion Engineering. 19th SOFE (Cat. No.02CH37231). IEEE. doi:10.1109/fusion.2002.1027736.

[6] "The World's Largest Tokamak Just Crushed the Record for Nuclear Fusion Energy". www.popularmechanics.com. Retrieved 2022-03-12.

[7] Zohuri, Bahman; McDaniel, Patrick (2018-08-29), "Nuclear Power Plants", Thermodynamics in Nuclear Power Plant Systems, Cham: Springer International Publishing, pp. 477–539, ISBN 978-3-319-93918-6, retrieved 2022-03-12

[8] Skoog, Douglas A.; Holler, F. James; Crouch, Stanley R. (2013). "Instrumentelle Analytik". doi:10.1007/978-3-642-39726-4.

[9] MacDonald, John D. (November 2006). "Safe and secure - Environmental effects of nuclear power plants and the nuclear fuel cycle". IEEE Power and Energy Magazine. 4 (6): 49–55. doi:10.1109/pae-m.2006.247870. ISSN 1540-7977.

[10] Rohrer, Jürg (2007-01-09). "Pros and cons of nuclear power - Time for Change". Retrieved 2022-03-12.

[11] "Nuclear Power Generation", Modern Power Station Practice, Elsevier, pp. 260–265, 1992, retrieved 2022-03-12

[12] Rohrer, Jürg (2007-01-09). "Pros and cons of nuclear power - Time for Change". Retrieved 2022-03-12.

[13] Charles A. Gentile; Erik Perry; Keith Rule; Michael Williams; Robert Parsells; Michael Viola; James Chrzanowski (2003-10-28). "The First Decommissioning of a Fusion Reactor Fueled by Deuterium-Tritium".

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Deuterium–neutron fusion

Beneficial Nuclear Energy[edit]

References[edit]

External Links[edit]

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