A Practical Guide to 'Free-Energy' Devices

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compact fuel generation system which is compatible with existing internal combustion engines and which has been designed to fit into a standard passenger car. While the form of apparatus herein described constitutes a preferred embodiment of the invention, it is to be understood that the invention is not limited to this precise form of apparatus, and that changes may be made therein without departing from the scope of the invention. CLAIMS 1. For an internal combustion engine having inlet means to receive a combustible fuel, fuel supply apparatus comprising: a vessel to hold an aqueous electrolyte solution; an anode and a cathode to contact the electrolyte solution within the vessel; electrical supply means to apply between said anode and said cathode pulses of electrical energy to induce a pulsating current in the electrolyte solution thereby to generate by electrolysis hydrogen and oxygen gases; gas collection and delivery means to collect the hydrogen and oxygen gases and to direct them to the engine inlet means; and water admission means to admit water to said vessel; said electrical supply means comprising a source of direct current electrical energy of substantially uniform voltage and current and electrical converter means to convert that energy to said pulses, said converter means comprising a transformer means having primary coil means energised by direct current energy from said source and secondary coil means inductively coupled to the primary coil means; a dump capacitor connected to the secondary coil means of the transformer means so as to be charged by electrical output of that coil means; oscillator means to derive electrical pulses from direct current energy of said source; a switching device switchable from a non-conducting state to a conducting state in response to each of the electrical pulses derived by the oscillator means and connected to the secondary coil means of the transformer means and the dump capacitor such that each switching from its non-conducting state to its conducting state causes the dump capacitor to discharge and also short circuits the transformer means to cause the switching means to revert to its non-conducting state; and electrical conversion means to receive the pulse discharges from the dump capacitor and to convert them to said pulses of electrical energy which are applied between the anode and cathode. 2. Fuel supply as claimed in claim 1, wherein the electrical supply means applies said pulses of electrical energy at a frequency of ranging between about 5,000 and 40,000 pulses per minute. 3. Fuel supply apparatus as claimed in claim 2, wherein the electrical supply means applies said pulses of electrical energy at a frequency of about 10,000 pulses per minute. 4. Fuel supply apparatus as claimed in claim 2, wherein the electrical supply means comprises a source of direct current electrical energy of substantially uniform voltage and current and electrical converter means to convert that energy to said pulses. 5. Fuel supply apparatus as claimed in claim 1, wherein the electrical conversion means is a voltage step-down transformer comprising a primary coil to receive the pulse discharge from said dump capacitor and a secondary coil electrically connected between the anode and cathode and inductively coupled to the primary coil. 6. Fuel supply apparatus as claimed in claim 5, wherein said cathode encompasses the anode. 7. Fuel supply apparatus as claimed in claim 1, wherein the cathode encompasses the anode which is hollow and the primary and secondary coils of the second transformer means are disposed within the anode. 8. Fuel supply apparatus as claimed in claim 1, wherein the anode is tubular and its ends are closed to form a chamber which contains the primary and secondary coils of the second transformer means and which is charged with oil. 9. In combination with an internal combustion engine having an inlet for combustible fuel, fuel supply apparatus comprising: a. an electrolytic cell to hold an electrolytic conductor; A - 854
. a first hollow cylindrical electrode disposed within said cell and provided about its outer surface with a series of circumferentially spaced and longitudinally extending flutes; c. a second hollow cylindrical electrode surrounding said anode and segmented into a series of electrically connected longitudinally extending strip; said strips being equal in number to the number of said flutes, said strips having a total active surface area approximately equal to the total active surface area of said flutes, and said strips being in radial alignment with the crests of said flutes; d. current generating means for generating a flow of electrolysing current between said first and second electrodes; e. gas collection and delivery means to collect hydrogen and oxygen gases from the cell and to direct them to said fuel inlet of the engine; and f. water admission means to admit water to the cell. 10. The combination claimed in claim 9, wherein said current generating means comprises a transformer situated inside said first electrode. 11. The combination claimed in claim 10, wherein the secondary winding of said transformer is connected whereby said first electrode operates as an anode and said second electrode operates as a cathode. 12. The combination claimed in claim 11, wherein said current generating means further comprising means to generate a pulsed current in the primary winding of said transformer. 13. The combination claimed in claim 9, wherein the roots of said flutes are cylindrically curved. 14. The combination claimed in claim 10, wherein said current generating means comprises a source of direct current; a transformer means having primary coil means energised by direct current energy from said source and secondary coil means inductively coupled to the primary coil means; a dump capacitor connected to the secondary coil means of the transformer means so as to be charged by electrical output of that coil means; oscillator means to derive electrical pulses from direct current energy of said source, a switching device switchable from a non-conducting state to a conducting state in response to each of the electrical pulses derived by the oscillator means and connected to the secondary coil means of the transformer means and the dump capacitor such that each switching from its non-conducting state to its conducting state causes the dump capacitor to discharge and also short circuits the transformer means to cause the switching means to revert to its non-conducting state; and electrical conversion means to receive the pulse discharges from the dump capacitor and to convert them to said pulses of electrical electrical which are applied between said first and second electrodes. 15. The combination claimed in claim 10, wherein the electrical conversion means comprises a voltage step-down transformer having a primary coil to receive the pulse discharge from said dump capacitor and a secondary coil electrically connected between said first and second electrodes. 16. The combination of an internal combustion engine having an inlet to receive a combustible fuel and fuel supply apparatus comprising: a vessel to hold an aqueous electrolyte solution; a first hollow cylindrical electrode disposed within said vessel and provided about its outer surface with a series of circumferentially spaced and longitudinally extending flutes; a second hollow cylindrical electrode surrounding the first electrode and segmented into a series of electrically connected longitudinally extending strips; said strips being equal in number to the number of said flutes and being in radial alignment with the crests of said flutes; current generating means for generating a pulsating current between said first and second electrodes to produce hydrogen and oxygen gases within the vessel; gas collection and delivery means to collect the hydrogen and oxygen gases and to direct them to the engine inlet means; and water admission means to admit water to the vessel. A - 855
Page 1 and 2: JUAN AGUERO Patent Application EP04
Page 3 and 4: the exhaust manifold. This heats so
Page 5 and 6: combustion chambers. The hydrogen i
Page 7 and 8: 21. The system of claim 20, charact
Page 9 and 10: electrolysis of water at such a rat
Page 11 and 12: Fig.4 is an elevation view of the h
Page 13 and 14: Fig.10 is a cross-section on the li
Page 15 and 16: Fig.16 is a cross-section on the li
Page 17 and 18: Fig.23 is an enlargement of part of
Page 19 and 20: Fig.33 is a perspective view of a v
Page 21 and 22: A - 843
Page 23 and 24: through a resistor R4 to provide tr
Page 25 and 26: The installation of the above circu
Page 27 and 28: cathode in the upper region of the
Page 29 and 30: transformer and, assuming an input
Page 31: valve apparatus to control engine s
Page 35 and 36: CHRISTOPHER ECCLES UK Patent App. 2
Page 37 and 38: Fig.1 is a circuit diagram of fract
Page 39 and 40: If a large electric field is applie
Page 41 and 42: The pulses R1 and S1 are of the sam
Page 43 and 44: DISCLOSURE OF THE INVENTION The inv
Page 45 and 46: A - 867
Page 47 and 48: Fig.5B shows a stylised representat
Page 49 and 50: Fig.6 shows a gas collection system
Page 51 and 52: Fig.8A and Fig.8B are views of a se
Page 53 and 54: A - 875
Page 55 and 56: Figs.16-30 are graphs supporting th
Page 57 and 58: A - 879
Page 59 and 60: A - 881
Page 61 and 62: A - 883
Page 63 and 64: A - 885
Page 65 and 66: A - 887
Page 67 and 68: If it is the case that the hydrogen
Page 69 and 70: plate shown in Fig.1A and Fig.1B an
Page 71 and 72: is in equilibrium where the 10 watt
Page 73 and 74: The previously mentioned prior art
Page 75 and 76: The stores of high pressure gases c
Page 77 and 78: unit to retain operational gas pres
Page 79 and 80: HENRY PAINE This is a very interest
Page 81 and 82: Henry Paine’s apparatus would the
Page 83 and 84:
some form of distortion of space. I
Page 85 and 86:
superconductive disk is made part o
Page 87 and 88:
Fig.2A and Fig.2B are diagrams, pre
Page 89 and 90:
Fig.4A and Fig.4B are diagrams, pre
Page 91 and 92:
#1 hollow superconductive shield #2
Page 93 and 94:
Fig.2B shows the counter-clockwise
Page 95 and 96:
In this example, the difference bet
Page 97 and 98:
CHARLES POGUE US Patent 642,434 12t
Page 99 and 100:
Fig.3 is a horizontal sectional vie
Page 101 and 102:
Fig.9 and Fig.10 are detail section
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having a valve 52 in it. Chamber 50
Page 105 and 106:
CHARLES POGUE US Patent 1,997,497 9
Page 107 and 108:
Fig.4 is a detail sectional view of
Page 109 and 110:
A low-speed or idling jet 25 has it
Page 111 and 112:
DESCRIPTION OF THE DRAWINGS Fig.1 i
Page 113 and 114:
Fig.5 is a detail sectional view on
Page 115 and 116:
Vapour formed by air bubbling throu
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From the foregoing description it w
Page 119 and 120:
Fig.2 is an enlarged view of the de
Page 121 and 122:
Fig.6 is a section taken along line
Page 123 and 124:
ROBERT SHELTON US Patent 2,982,528
Page 125 and 126:
Fig.4 is a transverse sectional vie
Page 127 and 128:
HAROLD SCHWARTZ US Patent 3,294,381
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182,420 now abandoned. The present
Page 131 and 132:
DESCRIPTION OF THE INVENTION The ca
Page 133 and 134:
THOMAS OGLE US Patent 4,177,779 11t
Page 135 and 136:
In accordance with other aspects of
Page 137 and 138:
Fig.3 is a sectional view of the va
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Fig.7 is a partial side, partial se
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The cooling system of the vehicle c
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Upon initial starting of the engine
Page 145 and 146:
(f) A filter positioned in the vapo
Page 147 and 148:
with the magnitude of the current a
Page 149 and 150:
Fig.1B is a perspective view of the
Page 151 and 152:
Fig.3 is a top view of the motor of
Page 153 and 154:
Fig.7 is an isometric view showing
Page 155 and 156:
Fig.10 is a top view showing the ro
Page 157 and 158:
Fig.13 is a top view of a pair of r
Page 159 and 160:
Extending in opposite diametric dir
Page 161 and 162:
Fig.5 shows the state of the switch
Page 163 and 164:
otor magnets 42 - 49 when in the ho
Page 165 and 166:
Fig.9 and Fig.10 show a second arra
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constructed otherwise than as speci
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12. The motor of claim 11 wherein t
Page 171 and 172:
timer or a control mechanism mounte
Page 173 and 174:
Fig.4 is a view similar to Fig.3 bu
Page 175 and 176:
Fig.10 is a view similar to Fig.3 f
Page 177 and 178:
Fig.13 is a schematic circuit diagr
Page 179 and 180:
Fig.16 is a simplified embodiment o
Page 181 and 182:
Fig.22 to Fig.25 are similar to Fig
Page 183 and 184:
Referring to Fig.2, the permanent m
Page 185 and 186:
Fig.7 shows a modified embodiment w
Page 187 and 188:
them, will depend upon the order in
Page 189 and 190:
Fig.14, shows another embodiment 14
Page 191 and 192:
Fig.18 shows the air coil 210 posit
Page 193 and 194:
Figs. 22-25 show four different pos
Page 195 and 196:
movement with the first permanent m
Page 197 and 198:
a shaft and means journaling the sh
Page 199 and 200:
CLAUDE MEAD and WILLIAM HOLMES US P
Page 201 and 202:
Fig.2 is a front elevation of the w
Page 203 and 204:
impactors and drills. The turbine d
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(a) fourth rotating means responsiv
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path to the other side of the perma
Page 209 and 210:
Fig.3 is an oscilloscope waveform t
Page 211 and 212:
DETAILED DESCRIPTION OF THE PREFERR
Page 213 and 214:
although it is by no means obvious
Page 215 and 216:
second diode connected at its posit
Page 217 and 218:
In the present invention, a permane
Page 219 and 220:
Fig.4 is a circuit diagram, illustr
Page 221 and 222:
and Fig.3. In practice, this coil m
Page 223 and 224:
y a simultaneous magnetic accelerat
Page 225 and 226:
Mr. P.G. Mallory started out in 191
Page 227 and 228:
All models have a 30 Watt power rat
Page 229 and 230:
In the auto racing circles it has a
Page 231 and 232:
BATTERY + _ SIMPLIFIED MULTIVIBRATO
Page 233 and 234:
Schematic Wiring Diagrams for two P
Page 235 and 236:
motor. What is not generally known,
Page 237 and 238:
Mark McKay's investigation of Edwin
Page 239 and 240:
Investor Photo #012D Popping a coil
Page 241 and 242:
capacitors connected in series, wit
Page 243 and 244:
Page 245 and 246:
PULSE WIDTH TIME IN mS went to the
Page 247 and 248:
TOP DEAD CENTER 0° REFERENCE Accor
Page 249 and 250:
Page 251 and 252:
The recovery and simple analysis of
Page 253 and 254:
FILTER CAPACITOR + 2 OHM 200 WATT R
Page 255 and 256:
Subject: CSET design Date: Sun Feb
Page 257 and 258:
Date: Fri Feb 28, 2003 8:25 pm (Tim
Page 259 and 260:
(Tad Johnson) I'm being as careful
Page 261 and 262:
SANGAMO ENERGY DISCHARGE CAPACITOR
Page 263 and 264:
(Alan Francoeur) But I also measure
Page 265 and 266:
Subject: Progress Date: Sun Mar 30,
Page 267 and 268:
● all electrical connections were
Page 269 and 270:
Mark Gray claims that the heart and
Page 271 and 272:
Mark Gray claims that some potentia
Page 273 and 274:
Radio Frequency (RF) Generator Gene
Page 275 and 276:
Page 277 and 278:
Some time during 1987 - 1988, Gray
Page 279 and 280:
The two-channel trace from the osci
Page 281 and 282:
What “maximum squareness” means
Page 283 and 284:
Zo = 112 Ohms Td of 293 nS. 50 KV 8
Page 285 and 286:
MIKE BRADY’S “PERENDEV” MAGNE
Page 287 and 288:
Fig.3 is a perspective view showing
Page 289 and 290:
Fig.7 is a perspective view showing
Page 291 and 292:
In the rotor assembly 30 of Fig.2,
Page 293 and 294:
Fig.7 shows a typical magnetic sour
Page 295 and 296:
DONALD A. KELLY ABSTRACT Patent US
Page 297 and 298:
This series of magnetic oscillating
Page 299 and 300:
Because there is no natural, lock-i
Page 301 and 302:
Fig.3 is an enlarged top view of on
Page 303 and 304:
An arm 9, is fastened to a flat fac
Page 305 and 306:
Fig.2 is a vertical transverse cros
Page 307 and 308:
Fig.6 is a vertical, longitudinal,
Page 309 and 310:
Working inside the cylinders 12 are
Page 311 and 312:
Leroy K. Rogers Patent US 4,292,804
Page 313 and 314:
Preferred embodiments of a method a
Page 315 and 316:
Fig.6 is a cross-sectional view of
Page 317 and 318:
Page 319 and 320:
tapped hole in the cylinder 20 typi
Page 321 and 322:
A second embodiment of a valve actu
Page 323 and 324:
otates faster, the other end 98 of
Page 325 and 326:
In normal operation (as seen in Fig
Page 327 and 328:
Eber Van Valkinburg Patent US 3,744
Page 329 and 330:
Referring to the drawings in detail
Page 331 and 332:
Since the pump depends for its supp
Page 333 and 334:
Briefly, in one aspect the engine o
Page 335 and 336:
Page 337 and 338:
Fig.12 is a cross-sectional view si
Page 339 and 340:
Fig.14 is a schematic diagram of an
Page 341 and 342:
A - 1163
Page 343 and 344:
A - 1165
Page 345 and 346:
Figs.20A-20F are schematic diagrams
Page 347 and 348:
Note: Corresponding reference chara
Page 349 and 350:
Integral with the piston bodies are
Page 351 and 352:
The piston has a generally semi-tor
Page 353 and 354:
Referring back to Fig.13A, for engi
Page 355 and 356:
As piston 39A reaches BDC, distribu
Page 357 and 358:
mixture and do not combine because
Page 359 and 360:
These wires are about twelve gauge,
Page 361 and 362:
cold-cathode tube 391, and an x-ray
Page 363 and 364:
Fig.17D), polariser 289, branch B17
Page 365 and 366:
Robert Britt US Patent 3,977,191 31
Page 367 and 368:
Fig.3 is an elevational view of the
Page 369 and 370:
Fig.7 is an electrical schematic of
Page 371 and 372:
Referring now to Fig.3 of the drawi
Page 373 and 374:
and drives Q1 into conduction. The
Page 375 and 376:
Floyd Sweet Recently, some addition
Page 377 and 378:
The day when we witnessed the VTA d
Page 379 and 380:
up to see Floyd. Floyd was with the
Page 381 and 382:
Energy cannot enter a space of zero
Page 383 and 384:
electromagnetic and gravitational f
Page 385 and 386:
or in another form: So, the e.m.f.
Page 387 and 388:
Example 2: Suppose the conductor wi
Page 389 and 390:
Meguer Kalfaian There is a patent a
Page 391 and 392:
Fig.2 illustrates a controlled top
Page 393 and 394:
Fig.9 is a modification of Fig.6; a
Page 395 and 396:
the outer periphery of the magnet,
Page 397 and 398:
wobbling top is sufficient, as proo
Page 399 and 400:
Theodore Annis & Patrick Eberly US
Page 401 and 402:
BRIEF DESCRIPTION OF THE DRAWINGS F
Page 403 and 404:
Fig.6 is a schematic diagram of a s
Page 405 and 406:
DETAILED DESCRIPTION OF THE PREFERR
Page 407 and 408:
Fig.5 is a detail drawing of an alt
Page 409 and 410:
In the preferred implementation of
Page 411 and 412:
William McDavid junior US Patent 6,
Page 413 and 414:
This sloping floor causes the drive
Page 415 and 416:
FIG.3 is a side elevational view of
Page 417 and 418:
FIG.9 is a horizontal cross-section
Page 419 and 420:
otational downstream annular chambe
Page 421 and 422:
In Fig.5 is shown a perspective vie
Page 423 and 424:
small hydro-electric version of the
Page 425 and 426:
Fig.10 is a perspective view of a s
Page 427 and 428:
longitudinally mounted in the upstr
Page 429 and 430:
shaft in the central aperture, said
Page 431 and 432:
Scientific Papers The following lin
Page 433 and 434:
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