Thermal energy storage assemblage with dynamic insulation and failsafe cooling

What is claimed is: 1. A thermal storage unit, including: a first enclosure; a thermal storage assemblage comprising a plurality of thermal storage blocks within the first enclosure; a plurality of heater elements positioned within the assemblage and configured to heat the plurality of thermal storage blocks; a fluid movement system configured to direct a stream of fluid through fluid pathways in the plurality of thermal storage blocks; wherein the first enclosure defines an interior and an exterior and includes a first vent with a first vent closure, the first vent forming a first passage between the interior and the exterior; and a failsafe mechanism configured to maintain the first vent closure in a closed position during an operating condition of the fluid movement system and to open the first vent closure in response to a nonoperating condition of the fluid movement system. 2. The thermal storage unit of claim 1 , wherein the first enclosure includes a second vent having a second vent closure and is configured to form a second passage between the interior and the exterior, wherein the second passage is configured to allow passage of the fluid to the first passage; and wherein the failsafe mechanism is configured to open the second vent closure in response to the nonoperating condition of the fluid movement system to allow passage of external fluid through the second vent into the interior via the second passage, through the first passage and out of the first enclosure through the first vent. 3. The thermal storage unit of claim 2 , wherein the first passage is configured to permit flow of internal heated fluid out of the first enclosure by buoyancy of the internal heated fluid and to permit entry of the external fluid into the first passage as the internal heated fluid flows out of the first enclosure. 4. The thermal storage unit of claim 2 , wherein the first vent closure and the second vent closure are different portions of a vent door, wherein the thermal storage unit is configured to rotate the vent door to close the first and second vents during the operating condition of the fluid movement system. 5. The thermal storage unit of claim 2 , further comprising: a steam generator including an input comprising a duct and configured to receive fluid heated by the thermal storage blocks via the duct; wherein the failsafe mechanism is configured to close the duct in response to the nonoperating condition of the fluid movement system. 6. The thermal storage unit of claim 5 , wherein the first vent closure is positioned to close the duct when the first vent closure is open for the first vent. 7. The thermal storage unit of claim 5 , wherein the second vent forms a passage from the exterior into the input of the steam generator. 8. The thermal storage unit of claim 5 , further comprising: a second enclosure having an interior surface, wherein the first enclosure is positioned within the second enclosure; a fluid passage bounded by an exterior surface of the first enclosure and the interior surface and in communication with the fluid pathways; wherein the fluid movement system, during the operating condition, is configured to direct the stream of fluid through the fluid passage before directing the stream of fluid through the fluid pathways; wherein the first vent closure defines a portion of the fluid passage in the closed position; and wherein the open position of the first and second vent closures in the nonoperating condition of the fluid movement system is configured to allow passage of external fluid through the second vent into the interior via the second passage, through the first passage and out of the first enclosure through the first vent. 9. The thermal storage unit of claim 8 , wherein the open position of the first and second vent closures in the nonoperating condition of the fluid movement system draws fluid from the exterior through the fluid passage via a nonoperating blower of the fluid movement system. 10. The thermal storage unit of claim 8 , further comprising a third vent having a third vent closure, wherein the third vent is included in the second enclosure and forms a passage between the interior of the second enclosure and its exterior, wherein the failsafe mechanism is configured to open the third vent closure in response to the nonoperating condition of the fluid movement system. 11. The thermal storage unit of claim 8 , wherein at least a portion of the steam generator is included in the second enclosure, wherein the at least a portion of the steam generator is configured to receive the heated fluid via the duct. 12. The thermal storage unit of claim 1 , wherein the failsafe mechanism is configured to hold the first vent cover in a closed position using electrical power during the operating condition. 13. The thermal storage unit of claim 12 , wherein the failsafe mechanism includes a worm drive gear configured to close the first vent cover and an electrical clutch configured to hold the first vent cover in the closed position, wherein the first vent cover is configured to open when the electrical clutch is not powered due to one or more of the following mechanisms: gravitational force; force acting on a counterweight; and a force imparted by a resilient member. 14. The thermal storage unit of claim 12 , wherein the failsafe mechanism includes an electrical switch and a motor. 15. A thermal storage unit, including: a first enclosure having an interior surface; a thermal storage assemblage comprising a plurality of thermal storage blocks positioned in a second enclosure having an exterior surface, the second enclosure positioned within the first enclosure, wherein the thermal storage blocks include fluid pathways; a plurality of heater elements positioned within the assemblage and configured to heat the thermal storage blocks; a fluid passage bounded by the exterior surface and the interior surface and in communication with the fluid pathways; and a fluid movement system configured to direct a stream of fluid through the fluid passage upward along a wall of the second enclosure, across a roof of the second enclosure, down along one or more other walls of the second enclosure, then into bottom openings of the fluid pathways, wherein the directed stream of fluid through the fluid passage is configured to form an insulation layer. 16. The thermal storage unit of claim 15 , further comprising: louvers configured to independently control flow of fluid from the fluid passage into different sets of fluid pathways. 17. The thermal storage unit of claim 15 , wherein the second enclosure includes: a first vent with a first vent closure, the first vent forming a first passage between an interior of the first enclosure and an exterior, wherein the thermal storage unit is configured to maintain the first vent closure in a closed position during an operating condition of the fluid movement system; and a second vent having a second vent closure and forming a second passage between the interior and the exterior; wherein the thermal storage unit includes a failsafe mechanism configured to open the first and second vent closures in response to a nonoperating condition of the fluid movement system; and wherein the open position of the first and second vent closures in the nonoperating condition of the fluid movement system are configured to allow passage of external fluid through the second vent into the interior via the second passage, through the first passage, through the fluid pathways, and out of the first enclosure through the first ve