The water has still reached the racks (in-side), so the madness is currently reality (please check state-of-the art systems, e.g. from Schroff).
Complexity: Theory about the system is complex, this is correct. But assembling and manufacturing is simple.
Remark: The system will be filled and corked during its production. The advantage is, that no rotating shaft has to be sealed. There are only static seals.
Using a water-cooling scheme in an electronics package that high high and low voltages and currents is madness, a law suit waiting to happen. Your solution is inexplicably complex: primary cooler, secondary cooler, magnetic clutch, turbine wheel. Oh my. Worse, the entire contraption does not cool, per se, the hot liquid is directed to the room's AC system, adding another failure-prone component.
The water has still reached the racks (in-side), so the madness is currently reality (please check state-of-the art systems, e.g. from Schroff).
Complexity: Theory about the system is complex, this is correct. But assembling and manufacturing is simple.
Remark: The system will be filled and corked during its production. The advantage is, that no rotating shaft has to be sealed. There are only static seals.
NewBladeCooling 2 years ago
Using a water-cooling scheme in an electronics package that high high and low voltages and currents is madness, a law suit waiting to happen. Your solution is inexplicably complex: primary cooler, secondary cooler, magnetic clutch, turbine wheel. Oh my. Worse, the entire contraption does not cool, per se, the hot liquid is directed to the room's AC system, adding another failure-prone component.
giounds 2 years ago