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Clint McCOWEN // Ion Power Group
Electrostatic Power

https://ionpowergroup.com
https://ionpowergroup.com/wp-content/uploads/2016/08/Ion-Power-Group-Presentation-July-update.pdf
Nanomaterial Research Breakthrough - Electricity Produced Day and Night by Harvesting Atmospheric Ions
[ PDF ]
On Feb 10th 2016, Professor of Atmospheric Physics Dr. Andreas J. Baumgaertner PhD with the German Aerospace Center, published a
ground breaking technical report titled “Power to Mars” recommending that Ion Harvesting Technology be used as part of a reliable power source on Mars, seen here :
   



http://dx.doi.org/10.5281/ze-nodo.45877
Ion Harvesting Technology
Ion Harvesting Technology, with a duty-cycle approaching 100%, is expected to become a staple of reliable electrical power generation for future NASA and Aerospace Mars missions :

https://zenodo.org/records/45877
Power to Mars // Baumgaertner, Andreas
[ PDF ]
A technical report evaluating the use of ion harvesting technology for electrical power generation on Mars

https://ionpowergroup.com/wp-content/uploads/2016/08/SHOCK-WAVE-ENGINE-PDF-website-presentation-v1-0.pdf
ELECTRICITY GENERATED FROM LOW-HEAD WATER SOURCES
Shock Wave Engine Technology
[ PDF ]
Dr. Sebastian Uppapalli
Abstract -- Shock Wave Engine technology utilizes the Water Hammer Effect
 



Patents -- Inventor: MCCOWEN CLINT // Applicant: ION POWER GROUP LLC

Energy Collection -- US9479086 // US9331603  //  US7439712 //  US7478712 //  US8686575 //  US8810049
[ PDF ]
An energy collection system may collect and use the energy generated by an electric field. Collection fibers are suspended from a support wire system supported by poles. The support wire system is electrically connected to a load by a connecting wire. The collection fibers may be made of any conducting material, but carbon and graphite are preferred. Diodes may be used to restrict the backflow or loss of energy.

Electrostatic Motor -- US2024195328
[ PDF ]

In example embodiments, an electrostatic motor is enclosed in an hermetically sealed container in which the internal air environment can be stabilized and controlled to enhance the performance of the electrostatic motor. Performance can be greatly enhanced in terms of motor efficiency, performance, longevity, reduced electrical input power and/or input voltage with improved kinetic power output. The hermetically sealed container may preserve parameters of the gas condition inside the container, such as, for example, to a specified humidity level, and/or gas pressure, and other parameters associated with gaseous environments. In an example embodiment, a gas may be added into the enclosure to enhance the performance.

ENERGY COLLECTION WITH RADIOACTIVE MATERIAL -- WO2024030156 // US2024021335
[ PDF ]

An energy collection system may collect and use the energy generated by an electric field. Collection fibers are suspended from a support system. Radioactive material is placed on or near the collection fibers. The support system is electrically connected to a load by a connecting wire. The collection fibers may be made of any conducting material, but graphene, carbon and graphite are preferred. Diodes may be used to restrict the backflow or loss of energy.

Energy Collection -- US2018026553
[ PDF ]
An electro-hydrodynamic energy collection system may collect and use the energy generated by an electric field. Collection fibers are suspended from a support system. A particle mist is injected collocated to the collection fibers. The support system is electrically connected to a load by a connecting wire. The collection fibers may be made of any conducting material, but graphene, carbon and graphite are preferred. Diodes may be used to restrict the backflow or loss of energy.

ENERGY COLLECTION -- KR20230042130
ENERGY COLLECTION -- CA3162779
Energy collection -- CY1120609
Energy Collection -- CN101390177B
Energy Collection -- JP5552236B2