Baltimore, MD (PRWEB) April 4, 2006
Sully Direct Current (SDC)™ what is it? Is it Direct Current (DC)? Direct current by definition flows in one direction. (SDC) changes current direction in at least two different directions per ½ cycle and at least 3 different directions (3D) in a full cycle. All within a single cell without a polarity reversal. Is it Alternating Current (AC)? Alternating current has a current reversal due to a polarity change that reverses the anode and cathode. (SDC) changes current direction within the electrodes by cyclical a change in current path origin and destination without reversing electrode polarity while maintaining a (DC) current between electrodes.
(AC) reverses anode and cathode polarity to reverse current direction. (SDC) does not need to reverse Polarity to change current direction. It uses an up and down seesaw motion through cyclical switching at both ends of the electrodes to produce multi-dimensional inter-electrode (DC) currents. Some have suggested that (SDC) is AC superimposed on DC. There’s that (AC) word again; polarity reversal is found in (AC). (SDC) does not have a reversal, just a change in direction. You only need a cyclical change of origin and destination to get (AC) EM effects. There is a lot of debate among the critics as to what to call it. Here is what we know; you need at least four wires from a DC or a rectified (AC) power supply to allow changing both origin and destination through a fluid medium such as semiconductor, gas, electrolyte or other current carrying medium. The currents within electrodes change their directions, and a zero average value can be found at the center of the electrode. At the same time the voltage between electrodes is a constant DC value (ignoring switching transients). Thus, “multidirectional DC” refers to the multidirectional intra-electrode currents that are changing direction (not reversing directions) within the electrodes with a (DC) current that moves between the anode and cathode electrodes at the same time within the same cell. Both (AC) and (DC) flowing through the same component at the same time is (SDC).
Direct current will flow in a straight line in a single solid conductor. (SDC) only works in a fluid environment that allows it to move in different directions chasing after controlled switching potentials that are constantly moving their potential paths without swapping their supply polarity. Think of currents leaving the train station (cathode) and being diverting by switching back and forth over a different set of tracks before arriving at the final destination to the (anode). (DC) in a solid conductor will not achieve the same results. It can only move forward not in other directions; (SDC) needs to be a fluid such as a gas, gel, and semiconductor or liquid to move freely in other directions. A solid conductor wire with (DC) has only one direction or dimension it can travel unless you reverse polarity to reverse direction; (SDC) has multi-directions and dimensions to travel before it reaches its final destination within the cell without a polarity reversal. (SDC) has extra dynamic multi-dimensional physical proprieties that are created by the extra current seesaw motions that are exclusive to (SDC) currents.
If you connect resistors between the anode to cathode of a (DC) circuit in an H or X bridge circuit you cannot create (SDC). It is impossible for both (AC) and (DC) currents to flow through the same resistor at the same time traveling in a one dimensional current path. (SDC) requires a multi-dimensional fluid to move freely for its capabilities to be employed.
"I’m not sure what new products will use (SDC)," said John T. Sullivan, President of Clear Energy, Inc. "I discovered it experimenting with water electrolysis. Will (SDC) replace the (AC) current in your house and DC in your car? Not likely, it will be used on very specialized technologies where (AC) and (DC) don’t work as well or at all. Could technologies that were thought to be impossible now be possible? Time will tell. Wherever you need multi-directional currents with a constant (DC) polarity (SDC) may be applied to advantage. What could be some of the new applications? Ion engine thrusters seem to be a good fit. Capacitor driven devices, electrolysis, and plasma devices that can’t have their polarity reversed but could benefit from new dynamic controlled forces with multi-dimensional currents are a good places to start. Gas production, motors, generators, and chemical processing are also candidates.
"I am an optimist. I believe that if enough creative open minded people put their heads together there will be new and exciting discoveries using this novel technology.
"I hope this clears up any misconceptions what (SDC) is, and is not."
John T. Sullivan, President
Clear Energy, Inc
1100 Wilso Drive
Baltimore, Maryland 21223 USA
(SDC) Sully Direct Current is a registered Trade Mark of Clear Energy, Inc US Patent 7,041,203, 6,890,410 All Rights reserved.
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