the Griggs Hydrosonic Pump--for PAUL -to read & Digest?
Posted by Mike Kremer on Sep 24, 2003 at 21:59
(62.188.48.74)Heres summat just your your street Paul.
If you make one of these, prehaps you will be too busy to write any more fatuous non-understandable
articles within these pages.
This one should be easy for you knock up? Make a couple of close fitting annular tubes on a lathe.
drive one with a motor....fill with water and produce over unity steam as the water passes thru the rotating 'bearing'. Well read all the blerb,
you will understand it better than me, I am sure.Look up Griggs Hydrosonic Pump ...Google will do
Lots to keep you occupied Magnets/ Gyros/ Water, the lot.
Some more Blurb-
Griggs’ pump is made up of a cylindrical rotor that fits closely within a steel case. When the rotor spins, water is forced through the shallow space between the rotor and the case. The resulting acceleration and turbulence created in the gap somehow heats the water and creates steam. In 1988, a testing expert found that the heat energy put out by the hydrosonic pump was 10 to 30% higher than energy used to turn the rotor.Our technology uses shock waves to heat the liquid. There is no combustion in the process. The heat is actually generated "inside the liquid" where it is needed. A hot metal surface or flame imparts none of the heat generated by the Hydrosonic Pump. In actuality, our surrounding metal rotor and housing are cooler than the liquid. Because there is no large temperature differential in our system between metal and liquid, there is no propensity for the scale to build up on a cooler metal surface. It also offers our customers a ‘lifetime guarantee" against "scaling". With all other heating systems, the heating surface is always hotter than the liquid in order to create heat transfer. Ours is cooler.