PowerPoint Presentation:
Reactor off- de –energized. This is the revised electrical system that I would consider the very basic bare bones electrical for a LENR experiment. This method using the basic electrical system to start LENR experimentation is in fact the best method to begin using the Universal Reactor. TS = Temperature switch FC1 = Manual Flow Control Gauges have also been added for clarity purposes. The numbers added to those gauge faces in the following figures are for example only and are added for the better communication of this text, for operating this LENR- Universal Reactor Slide 9 in the LENR Fundamentals Power Point has the component names for clarity. 9/21/2012 2 lenrreactor@deighta.com
PowerPoint Presentation:
Start Cooling System S1 Emergency Shutdown is closed making the low side dc voltage and current available to it’s connected conductors. S1 = 1 S2 Coolant Circuit Switch is closed making the high side dc voltage and current available to it’s connected conductors. S2 = 1 S3 = 0 Coolant pump operates and gauge activates as S1 & S2 = 1. +Vdc present at top terminal coolant pressure switch in Accumulator A = 0. Low side current flows through pump motor and through the contacts of PR and into PD switch S2 and furthered into high side Cat battery. AT = Auxiliary coolant Tank. FC1 has been opened to bleed air from the reactor cooling system. 9/21/2012 3 lenrreactor@deighta.com
PowerPoint Presentation:
Energize Electrical System S3 = 1 (closed) it is a double pole single throw locked open normally. After the cooling system is pressured up to the set pressure used by the operator, the pressure switch in the accumulator A closes (1) and signals PR coil high side, opening the contacts (0) resulting in the coolant pump to shut off . S3 is then closed (1) and turns on the voltmeter, gauges, and sensors. TD3 is pulsed and sends a high side signal to LR coil and low side is supplied from the right pole and throw of S3 (1). Also from S3 left pole and throw is high side available to TD1 coil. The low side has been supplied to TD1 as S1 closed. LR closes at the contacts and allows potential high side current to the spark transformer and oscillator OSC2 and the Glow Plug transformer oscillator OSC1 as well as the high side of the coil in the HR. FC1 is closed holding pressure in the cooling system. 9/21/2012 4 lenrreactor@deighta.com
PowerPoint Presentation:
Reactor started Note the readings on the gauges and compare them to each other from FIG. (s) 35, 36, 37, 38 and 39. These figures are only to example using the gauges to control the experiment. Heat is building after closing S4 which in turn supplied low side voltage and current to HR coil and started the oscillators. The reactor is operating, on. FC1 is opened a little farther allowing more coolant flow through the reactor coolant tank and system. Both oscillators are running independent of each other in this manually controlled electrical system. The experiment is now ready to begin as the fuel pressure rises to it’s low limit to start and those details are not included in this set of drawings. That added more than we actually needed in this method of using the Universal Reactor. 9/21/2012 5 lenrreactor@deighta.com
PowerPoint Presentation:
Reactor Time Out As seen on the gauges the outlet coolant temperature has reached the operators safety shutdown (time out) period. All functions except for the water pump system powering the reactor cooling system have been shut down by the highest coolant heat setting at the TS. As maximum heat is achieved the contacts in the TS switch open (0), and open the TD3 high side signal to the LR coil. This opening of the LR contacts disables both oscillators as well as the glow plug relay HR. This simplified electrical system for the Universal LENR Reactor was drafted to assist others to develop their own LENR experiment. All of the components will be available upon request. We are heading for the goal of supplying a turn key LENR experimenter kit. Although any small machine shop can manufacture the parts easily for the reactor and the electrical can be purchased from almost any electrical supply, and the logic controller is available through John Deere to control the experiment on auto pilot our goal is to promote LENR development. 9/21/2012 6 lenrreactor@deighta.com