See: https://www.youtube.com/watch?v=bv9-D776J_k
This was not presented at ICCF19, but Godes said he intended to present it. Some notes: Minute 1:33. A slide labeled "Power out Power in." This shows a photograph of a device sitting on a table and it shows a graph of the input and output power from that device. The device is large, roughly 3 feet tall and 1 foot wide. After hour 21, input is 175 W of electricity and output is 360 W of heat. This relatively low power output from a large device makes calorimetry difficult. The device is unwieldy. It would be easier to measure this power level from a smaller reactor. I do not know whether it is possible to build a smaller device. The calorimetry is not described but Godes says it involves a flow of oil based heat transfer fluid. Minute 2:00. 11 tests for tritium conducted by Tom Claytor are discussed. Minute 3 to the 13. A discussion of theory. This cannot be used to evaluate the claims. It does not address calorimetry or any engineering issues. Minute 13 to the end. A brief discussion of the development effort. They have mechanical, electrical and even aerospace engineers working on this. I do not see why a company would want to pay aerospace engineers for this R&D at this stage in the development. It seems like a waste of money and a distraction. They have a fundraiser and CFO and "we are actually starting to talk to some companies about development contracts." - Jed
