EJAS-18507 Camera Ready.pdf

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European Journal of Applied Sciences – Vol. 13, No. 02

Publication Date: April 25, 2025

DOI:10.14738/aivp.1302.18507.

Pirot, F., Kieslinger, J., & Lavin, C. (2025). Recycling Wind Turbine Systems with Subcritical Nuclear Power Systems. European

Journal of Applied Sciences, Vol - 13(02). 151-152.

Services for Science and Education – United Kingdom

Recycling Wind Turbine Systems with Subcritical Nuclear Power

Systems

Florent Pirot

ORCID: 0000-0003-0823-615X

Julia Kieslinger

Claire Lavin

Wind turbines represent a strong danger for birds and bats [1]. They represent a visual

pollution that endangers landscapes. The use of crematory boosts (involving crematory

antigravitons for wind fostering) converts the issue of wind power dismantling into a long-term

waste issue. In [2], is noted that « 1. The blades of fibreglass are an environmental and recycling

problem. 2. The same is true of carbon fibre blades. 3. Cables and similar composite components

constitute an important environmental problem ». This problem is made particularly acute by

the crematory contamination of the wind turbine « motors ». Olive frame subcriticals, for

instance (see [3]), or Triga subcriticals ([4]), may be used to recycle some component of the

wind turbines, especially their central component, as a nuclear power system. By using the

permanent, controlled flow of these waterpumps onto the cut wind turbines, it is possible to

ensure a permanent energy production which could involve cycling the water of (artificial)

lakes onto the turbines. This allows to protect the ecosystem while producing more energy than

winds.

A magnet made of yttrium for the rotor, indium for the stator, should be used. Indeed, the

existing magnets of wind turbines may not be powerful enough for the subcritical nuclear

power systems involved. While the permanent magnets hide the crematory component (aimed

at fostering winds with the crematory antigravitons), there are nevertheless magnets made of

e.g. neodyme for the conversion of the wind movement to electric power. These magnets are

made for small energies. This constitutes clearly an incitation to filling the olive frame

subcriticals or Triga subcriticals with crematory ashes to protect the magnets. This is why

introduction of indium for stators and yttrium for the rotors should be compulsory.

With such a design, for a single wind turbine, it should be possible to achieve 1 MWh thermal

with a single Olive frame subcritical of 10 kilograms of depleted uranium. Or of 8 kilograms of

Th232. 6,4 kilograms of uranium mine tailings would also be fitting. Indeed, the more one

descends the decay chain, the more the transitions to fissile state are immediate and the cross

sections for fission of the fissile states are high, up to Rn222 / Rn223 in particular. The magnets

are the key cooldown component. They are essential catchers of energy meant to avoid

overheat of the water released into the lake. Nevertheless, it is fitting to add another layer of

water cycling above each olive frame subcritical (in particular) to evacuate more energy into

the same rotor-stator system. With that it could be possible to come to 11 kilograms of depleted

uranium instead of 10. Or to 8,9 kilograms of thorium, or 7,3 kilograms of uranium mine

tailings. These calculations rely on depleted uranium oxide, thorium oxide and uranium mine

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European Journal of Applied Sciences (EJAS) Vol. 13, Issue 02, April-2025

tailings as oxide. This is an important point that relies on an earlier finding from a ChatGPT

discussion. It’s important to understand that oxygen moderates neutrons more than helium

which is used in the olive frame subcritical, so there is more plutonium generated with a

metallized form, and this means that the critical mass may be reached with lower amounts of

DU / thorium / uranium mine tailings.

Sunflower cement plutonium [5] use could be possible with a maximum of 6,39 kilograms of

Sunflower cement made on that fashion, in an Olive frame subcritical. 2 MWh thermal of energy

could be produced that way, which means 500 KWh electrical but can be raised to 1,2 MWh

electrical with yttrium rotors and indium stators on both sides of the wheel.

Water motors [6] may also be used to produce a water flow onto the wheel. With a 180 RPM

spin, 1,8 MWh electrical can be produced. The interest of the Water motor (and of the Triga

subcritical, less discussed because it is a trashbin for expired drugs, and not intended as a

permanent-use system, but the Pfizer drug scandal with five vaccines per inhabitant of the EU

discarded within it has shown that it can be deployed on a large scale) is the flexibility of the

systems and their easiness of opening for adding more depleted uranium (for instance). The

problem is that they may also allow the elimination of corpses within. But this always creates a

loss of efficiency and in addition to that there is a bacteriological or virological issue [7]. The

loss of efficiency allows to catch the crematory / mash practices thanks to power losses on the

networks. In addition to that, there are crematory / mash antigravitons that can be found

thanks to a special chip (the parallel mode in Fig 1.b of [8]) and that chip has been already set

up successfully on many loitering drones (and, actually, missiles) to identify and to strike such

systems.

References

[1] Shawn Smallwood K., Comparing Bird and Bat Fatality-Rate Estimates Among North American Wind-Energy

Projects Wildlife Society Bulletin 37(1):19–33; 2013; DOI: 10.1002/wsb.260

[2] Andersen, Per Dannemand; Borup, M.; Krogh, T. Managing long-term environmental aspects of wind

turbines: A prospective case study. Int. J. Technol. Policy Manag., Vol. 7, 2007, p. 339-354.

[3] Pirot F., A Concept for Subcritical Nuclear Electricity Production with Control of the Fuel – the “olive frame”

Single-piece Core, a Simple Hydropump. International Journal of Physics. 2020; 8(4):124-126. doi:

10.12691/ijp-8-4-2

[4] Pirot F., A TRIGA-like subcritical concept for biological waste management (pills, old vaccines etc.). Research

Journal of Pharmacology and Pharmacy, 2021, 5:12. DOI: 10.28933/rjpp-2021-07-1006

[5] Pirot F., Is Sunflower-Based Plutogenization Doable? An Analysis Relying on a Simple Model. International

Journal of Theoretical & Computational Physics, 2023; 4(1):1-3

[6] Pirot F., A « Water Motor » With an Accelerator, Water with High Natural Radioactivity and Fission, Int J of

Theoretical and Computational Physics, Vol. 3, issue 1, 2022, doi: 10.47485/2767-3901.1022

[7] Pirot F., A Pandora Box of Case Studies for The Pandoravirus and Other Megaviruses – Long-Term Disease

Risk Related to Crematory Ovens / Mash (from e.g., Uranium Retchlags). Trends in Internal Medicine. 2022;

2(2): 1-4

[8] Ushikoshi, D., Higashiura, R., Tachi, K. et al. Pulse-driven self-reconfigurable meta-antennas. Nat Commun 14,

633 (2023). https://doi.org/10.1038/s41467-023-36342-1