The Defkalion forum is frustrating. There is good information in there but it is lost in the noise. Terry Blanton showed me how to dig out much of the good stuff, by searching for responses from the company to the public. Start in the Search area:
http://www.defkalion-energy.com/forum/search.php Limit the search to responses from "Defkalion GT," like so: http://www.defkalion-energy.com/forum/search.php?keywords=&terms=all&author=Defkalion+GT&sc=1&sf=all&sk=t&sd=d&sr=posts&st=0&ch=300&t=0&submit=Search Some of the revealing messages are copied below. In the first response, "Mass Sensors based on the ultrasound principal" means mass flow sensors such as this one: http://www.omega.com/prodinfo/ultrasonicflowmeters.html And under the section titled "The Transit-Time Flowmeter" here: http://www.coleparmer.com/techinfo/techinfo.asp?htmlfile=SelectingFlowmeter2.htm An example of the nonsense is someone who claims that heat generation contributes to global warming. Actually, that is slightly true when urban "heat islands" affect the weather, but most heat from nuclear reactors or fire leave the atmosphere within about a half-hour, as you learn in the desert after the sun goes down. - Jed - - - - - - - - - - - - - - - . . . In particular, you have said that production Hyperion modules incorporate a completely liquid cooling circuit (no steam). They also have built-in measurement sensors for flow rate and temperature rise. So I'd like to ask you: a) Do you have some working prototype or production modules which incorporate these sensors? b) Have you tested them? c) For a few of the longest duration tests you have, could you please release the following information? - generically without detail, the type of fluid used - electrical power input and how it was measured and whether AC or DC - flow rate (either mass or volume since it's a liquid) - delta T (temperature difference) across the module (input to output) in the fluid as a function of time - something, again generic, about the type of temperature sensors used and the nature of the readout equipment If you can not provide this, why not? Thank you. a) Yes we have. Mass Sensors based on the ultrasound principal, specialy designed and produced in Greece for Defkalion. ±0.5% officially certified accuracy, European Safety Standards: IEC-1010 and CE - EMC. Detaction of air and automatic adjustment. Embeded thermometer (Type K Chromium-Alum): Accuracy ± (0.1% rdg +1°C). b) Yes we have c) 1. Glycole* 2. 220/230V, 5-15W according to different configurations 3. Diffenet configurations available. Typically 50-250Lt/minute (12GPM to 65GPM) 4. We will provide exact tables and graphs with Hyperion product specs. 5. Reports to Hyperion internal electronics with sample rate 2.5/sec. * also tested with other coolants. Re: CE Certification Defkalion GT Posted: Sun Jun 26, 2011 1:28 pm Joined: Fri Jun 24, 2011 6:56 am Posts: 89 Out of the CE standards, Hyperion products (kW or MW range) have to pass all tests described the the Greek and EU lows according to their industrial code classification. The Authorities responsible to test and certify are -The Ministry of Regional Development and Industry -The Ministry of Environment and Energy through their appointed by low labs. If you can read greek, we can send to you all relevant legislation for your info. Thank you for your question In a close circuit, the volume (and the mass) of a coolant is constant. Using ultrasonic meters for coolants that do not change phase within their closed circuit, mass flow and volume flow conclude exactly the same when measuring energy. The method under the name "mass calorimeter" has been defined by Grabowsky at all in details in ICCF 16 (February 2011) as the preferred method for LENR measurements. ( http://lenr-canr.org/acrobat/GrabowskiKrobustperf.pdf) The basis of this method, as described in the linked paper, has been addapted in our "mass calorimeter" method embeded as a standard in all of our products as well as for several calibration or testing procedures.
