Documents downloaded here:
http://db.tt/wu4OLbgk This includes the spreadsheet and three photographs of a document. I just read the document aloud to voice input. This is practically uncorrected. I left out some parts. I apologize for uploading uncorrected text. I would appreciate if someone would make corrections. After some other things for the next few hours. - Jed TESTS TO PROOF THE LEONARDO 1 MW REACTOR WORKING BY MEANS OF LOW-ENERGY NUCLEAR REACTIONS – PROTOCOL PREPARED BY THE PARTIES the test has been performed by the parties: For the customer (omitted – confidential): engineer Expert scientists for the measurement of radiations outside the reactors: Dr. David Bianchini (University of Bologna) Date of the test: October 28, 2011 time of the test from 9.00 through 23. 00 Test protocol The test has the goal of comparing the energy output of the reactor made as in the description of the patent number against the energy consumption of the same. To reach this goal we have measured the energy inputs the reactor by means of the following instrumentation: [Blank] Such instrumentation has been certified as follows: [Blank] The energy output, or production has been measured by means of the integral of the delta T of the water coolant of the reactor in function of the water flow plus the vaporize nation heat of the water turned into steam. To be conservative, all the water which arrived liquid at the output of the reactor has been collected and its weight has been subtracted from the amount of water that has been considered vaporized. The water flow rate has been measured by a scaled reservoir and a chronograph all the times that the customers consultant has deemed opportune. This system has been chosen by the customer. The temperatures of the water before and after the reactor have been measured by means of the following instrumentation, previously tested by the customer: test of data logger #177 – T3 test of thermocouples # the positioning of the thermocouples has been chosen by the customer as for the radiations we have measured: the radiations emitted into the environment from the reactor the results are reported in attachment one: no radiation above the background have been registered the hydrogen tank is been waived by means of the scale before and after the loading of the hydrogen in the reactor. Before the loading the weight measured is: 13,604.5 kg after the loading the weight measured is: 13,602.8 kg the hydrogen tank pressure has been measured before and after the load: Average temperature of the water at the input 18.3°C Average temperature of the steam: 104.5°C (The diagrams of the temperatures is in the attachment to) Energy consumed from 12.30 (when the reactor has been turned on) and 18.00 (when the reactor has been turned off: one hour 66 kWh (sixty six) Total energy production from 12.30 through 18.00 2635.033 kWh. Water flow rate: liter per hour 675.6 Water not vaporize total: five water vaporize: total 3716 Total energy produced: (steam kilograms times 625.5) plus (100 minus input water T) times kilograms of water heated times 1.16 equals 2635 kilowatt-hours Ratio between energy producing energy consumed (COP): 2006 and 35:0 Description of test installation The 1 MW energy catalyzer (he) is an assembly of 170 modules of 10 kW each, connected in parallel. Each module is made by three submodules of 3.3 kW each, put in parallel. All modules are set in a container made by steel. The assemblies commanded by a control panel supplied with the necessary software and all the necessary electronic components, whose description has been detailed in the sale agreement. All the components result to be set as guaranteed from a pulmonary check. The dimensions of the container are: length 5 m with 2.6 m height 2.6 m weight declared from the manufacturer 10 times noise emissions below 50 dB at 5 m from the plant waste emissions: none Gasser smoke emissions: none liquid emissions: none the water is supplied by the reactors by means of to pumps with a flow rate capacity of 3000 m/h regulated by valve at the do flow rate of ~350 L per hour Type of pumps: The reactors have been served by a RSG, whose data are reported in the sale agreement description. The energy consumed by the RFP system has been Could in the calculation of the COP. The heat made by the reactor has been dissipated in a steam condenser and the water came from the condensation of the heat has been recycled to the reactor. Additional water has been added from the grid to compensate the water evaporated from the reservoir, by means of floating files, to maintain constant the water level of the reservoir. The modules have been divided into rows each with an independent pump, so that each pump has a flow rate of 750 kg per hour, for a total of 1500 kg per hour. The dissipated us have been designed by Leonardo Corporation, and are made by to hear water heat exchangers each cooled by two axial fans. Conclusion: the results of the test are satisfactory to accept the delivery. Reserves: to be upgraded the system of gaskets. Some leaks have been noticed.
