Hybrid thermosyphons are designed so that they can be cooled actively as well as passively. Active cooling means that some external energy must be expended to promote cooling - mechanical refrigeration is typically used. Most any of the thermosyphons manufactured by AFI can be built as hybrid units with the addition of an internal heat exchanger.
A hybrid unit does not have to be actively cooled. The hybrid portion of the design might be to provide a higher redundancy factor over the life of the project. A typical application for hybrid thermosyphons is to accelerate construction on a project by active freezing.
Hybrid thermosyphons were used to form a frozen barrier around a decommissioned settling pond in Oak Ridge, TN in 1997 to prevent contaminants from migrating out of the area. That system ran continuously from September 1997 until April 2004 when it was shut down to allow area-wide remediation.
AFI's hybrid thermosyphon technology compared to conventional ground freezing methods:
Power outages are of no concern in the application of hybrid thermosyphon technology. A three-dimensional finite element thermal analysis for the Oak Ridge Demonstration project predicted that it would take more than one year for the frozen barrier to toally thaw if the power were cut off. In the case of a realistic power outage (a few hours, or worst case, a few days) the wall would remain virtually unchanged. A simulated power outage of eight (8) days duration reduced the average thickness by 2.5%.
Current state of development and certification:
For purposes of contaminant control, the most recent and pertinent application was a demonstration project at the Oak Ridge National Laboratory, in which the HRE Reactor Pond was surrounded with a frozen barrier measuring 300' long, 12' wide, and 30' deep. The system was installed during the summer of 1997, and has been operating since August of that year. The data collected continuously since startup indicates that the system is functioning as planned. It is effectively stopping the flow of radionuclide contaminants from the pond and is doing so in a very cost effective, trouble-free manner.