To: Industry and Government
The following letter was sent to Blacklight Power (BLP) in the hope that the original CIHT unit [now apparently redundant because of the promise and enthusiasm for their SF-CIHT project] could be revisited with a prospect of being commercially viable as perhaps, a second alternative to their main project [with the SF-CIHT]. I hope you find the following interesting
John Varney
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To Dr. Randell Mills
Dated September 3rd. 2014 -[Rev 1 dated Sept. 4th. 2014]
From John Varney
THE PRESSURIZED CIHT UNIT
Using saturated steam at 500 psig as electroyte – Generated in a small adjacent pressurized electric kettle.
The steam passes from the inlet chamber via a porous anode disc and a porous [non conductive] catalyst containment disc, through the stack of catalyst discs, to the other catalyst containment disc and then the cathode disc to the outlet chamber.
This vertical cylindrical unit with the steam inlet chamber at the top and the steam outlet chamber at the bottom will have an effective stack height of say 36 inches and a disc diameter of 12 inches.
The shell, with an internal diameter of 12.06 inches will be made of a non-conductive, non-porous material [perhaps a composite material] of suitable thickness to contain the steam pressure. The design conditions of all pressure parts shall be generous to withstand temperature excursions that may occur during the three phases of operation [ charge phase, discharge phase and idle phase ].
The complete exterior of the pressure vessel will be applied with a 4 inch layer of insulation such that little heat will be lost from the unit during operation in the charge or discharge phases.
A small, compact and simple electric steam generator or kettle [constructed of same material as pressure vessel for the CIHT unit] will provide a low feed rate of saturated steam [at a final pressure of 500 psig and derived from a distilled water feed]that will be maintained throughout all three phases of operation.
In the event of over pressure due to electrolysis in the charge phase or a temperature excursion during the discharge phase, bleeds from the top or bottom chambers will be automatically activated to re-establish the operating pressure and temperature. If some condensation is occuring within the CIHT unit then this will be handled with a steam trap serving the bottom chamber.
With regard to bleeds, [following experimentation, showing magnitude, frequency and causes of pressure/temperature excursions during the charge or discharge phases] it may be practical to initiate, on commencement of charge, a continuous micro-bleed [from the bottom chamber] and to have a slightly larger bleed to automatically cut in when serious over press/temp occurs [that can not be corrected with the micro-bleed]. The accumulative loss of steam with such a system could still be small and acceptable [energy wise] whilst enabling the unit to operate smoothely without ongoing operator interface.
Note: The unit may be mounted in a horizontal position, but care taken to drain minute condensate effectively to steam trap.
CHARGE PHASE
When the steam condition in the CIHT unit has gradually increased and is stabilized at 500 psig, the charging phase may proceed and with a 36 inch total layer of catalyst discs to be penetrated, the voltage required may be substantial [perhaps in the range of several hundred volts]. When the charging energy approaches zero, the electrolysis [charge] phase is ended and the discharge phase can begin.
DISCHARGE PHASE
Only experimentation will indicate the optimum conditions of discharge or the consistency, duration, magnitude of exported energy.
It is probable that temperature or pressure excursions will occur and will require focused attention to remedy.
One would not be surprised if the basic performance signatures of the pressurized CIHT unit were indeed found to be remarkable and encouraging.
John Varney
I trust you find the above of some interest in that it would provide a secondary option to your promising SF-CIHT unit.