Richard H. Hicks - Rail Road Flat CA, US Ben C. Song - Palo Alto CA, US
Assignee:
H2OIL, Inc. - Hayward CA
International Classification:
C10L 1/32
US Classification:
44301, 44302
Abstract:
A micro-emulsion forming (nanotechnology) fuel additive composition is disclosed which improves the fuel economy and reduces the exhaust emissions of internal combustion machines when used at a cost effective dose level of about 20 to 500 ppm in the fuel.
Richard H. Hicks - Railroad Flat CA, US Ben C. Song - Palo Alto CA, US
Assignee:
H2Oil Corporation - Hayward CA
International Classification:
C10M 107/34
US Classification:
508579, 508583
Abstract:
A micro-emulsion forming (nanotechnology) oil additive composition is disclosed which improves the fuel economy and reduces the exhaust emissions of internal combustion machines when used at a cost effective dose level of about 20:1 to 2,000:1 in the crankcase lubricating oil.
Richard Hicks - Rail Road Flat CA, US Ben Song - Palo Alto CA, US
International Classification:
C10L001/32
US Classification:
044/447000, 044/451000
Abstract:
High surfactant to water ratios on the order of 2.5 to 1 in a concentrated a micro-emulsion forming fuel additive produces improved hydrocarbon fuel combustion at only 5 to 95 parts per million of additional water.
Physics-Based Compact Model Generation From Electromagnetic Simulation Data
Ben Song - San Jose CA, US Jinsong Zhao - Palo Alto CA, US
Assignee:
LORENTZ SOLUTION, INC. - Santa Clara CA
International Classification:
G06F 17/50
US Classification:
703 14
Abstract:
Some embodiments of the present invention provide a method of circuit design and circuit simulation. A method for electrical modeling of passive structures of a circuit design wherein the passive structures have DC properties is disclosed. The method comprises constructing a physical topology based on the passive structures of the circuit design, mapping the physical topology to a network of EM modeling elements, and determining parameters of the EM modeling elements to model the passive structures based on electromagnetic simulation data.
Device For Magnetically Treating Hydrocarbon Fuels
This invention provides a device for magnetically treating fluid hydrocarbon fuels. The device provided by this invention is a simplified device which is effective because of the use of flat circular magnets having an opening in the center of the magnets. The device is configurated so that the fuel passes only through the center opening in the magnet and is thereby uniformly treated by the uniform focused field in the center of the circular magnet. The magnetic field is further focused and intensified by the use of pole plates which are also circular having a circular opening in the center wherein the pole plate circular opening is smaller than the circular opening in the flat circular magnet. In one form this invention provides an inline device where the fluid passes through the device and through the center openings in the magnets. In another aspect this invention provides a similar device in a form of an assembly of a circular magnets adapted to receive a nonmagnetic conduit through the center openings in the circular magnets and pole plates whereby the fluid is passed through the nonmagnetic conduit, and is treated in the uniform focused magnetic fields in the center openings of the circular magnets and pole plates.