Energy storage unit with integrated two-phase cooling

What is claimed is: 1 . An energy storage unit comprising: a battery housing having a bottom, a top, and a set of sidewalls, the top being vertically spaced apart from the bottom and the sidewalls extending from the top to the bottom; a battery stack positioned in the battery housing, the battery stack including N vertically stacked battery packs wherein N>2 and the N battery packs include at least a bottom battery pack and a top battery pack; N fluid channels formed in the battery housing, wherein each battery pack is fluidly coupled to a corresponding fluid channel that extends vertically from the battery pack to the top of the battery housing; and a condenser positioned at the top of the battery housing and fluidly coupled to the N fluid channels, so that vapor from each battery pack flows through the battery pack's corresponding fluid channel to the condenser and liquid from the condenser flows through each battery pack's corresponding fluid channel back to the battery pack; wherein at least N-1 of the N fluid channels are formed between the battery stack and the sidewalls and have a cross-section that is substantially annular and wherein the N fluid channels are nested and abutting. 2 . The energy storage unit of claim 1 wherein the N fluid channels are formed between the battery stack and the sidewalls of the battery housing. 3 . The energy storage unit of claim 1 wherein: N-1 fluid channels are formed between the battery stack and the sidewalls of the battery housing; and an Nth fluid channel corresponds to the top battery pack and is formed by a top surface of the top battery pack. 4 . The energy storage unit of claim 3 wherein each of the N-1 fluid channels is fluidly coupled to at least one lateral side of its corresponding battery pack. 5 . The energy storage unit of claim 1 , further comprising a thermal insulator positioned between each pair of battery packs. 6 . The energy storage unit of claim 1 , further comprising a pair of electrical buses running vertically up the side of the battery stack. 7 . The energy storage unit of claim 1 wherein the condenser is coupled to a mechanism that allows the condenser to move between an open position and a closed position. 8 . The energy storage unit of claim 7 wherein the top of the battery housing has a sealing edge adapted to engage a corresponding sealing edge on the condenser, so that when the condenser is in the closed position the battery housing and the condenser form a sealed enclosure. 9 . An information technology (IT) cooling system comprising: an IT enclosure including a lower portion filled with a two-phase immersion cooling fluid and an enclosure lid that engages with a top part of the lower portion to form a sealed volume within the IT enclosure; one or more energy storage units positioned in the IT enclosure and at least partially immersed in the two-phase immersion cooling fluid, each energy storage unit comprising: a battery housing having a bottom, a top, and a set of sidewalls, the top being vertically spaced apart from the bottom and the sidewalls extending from the top to the bottom; a battery stack positioned in the battery housing, the battery stack including N vertically stacked battery packs wherein N>2 and the N battery packs include at least a bottom battery pack and a top battery pack; N fluid channels formed in the battery housing, wherein each battery pack is fluidly coupled to a corresponding fluid channel that extends vertically from the battery pack to the top of the battery housing; and a condenser positioned at the top of the battery housing and fluidly coupled to the N fluid channels, so that vapor from each battery pack flows through the battery pack's corresponding fluid channel to the condenser and liquid from the condenser flows through each battery pack's corresponding fluid channel back to the battery pack; wherein at least N-1 of the N fluid channels are formed between the battery stack and the sidewalls and have a cross-section that is substantially annular and wherein the N fluid channels are nested and abutting. 10 . The IT cooling system of claim 9 wherein each condenser is positioned within the enclosure lid. 11 . The IT cooling system of claim 10 , further comprising a fluid distribution system positioned in the enclosure lid and fluidly coupled to the one or more condensers to circulate an external cooling fluid through the one or more condensers. 12 . The IT cooling system of claim 10 wherein the N fluid channels are formed between the battery stack and the sidewalls of the battery housing. 13 . The IT cooling system of claim 10 wherein: N-1 fluid channels are formed between the battery stack and the sidewalls of the battery housing; and an Nth fluid channel corresponds to the top battery pack and is formed by a top surface of the top battery pack. 14 . The IT cooling system of claim 13 wherein each of the N-1 fluid channels is fluidly coupled to at least one lateral side of its corresponding battery pack. 15 . The IT cooling system of claim 10 , further comprising a thermal insulator positioned between each pair of battery packs. 16 . The IT cooling system of claim 10 , further comprising a pair of electrical buses running vertically up the side of the battery stack. 17 . The IT cooling system of claim 10 wherein the condenser is coupled to a mechanism that allows the condenser to move between an open position and a closed position. 18 . The IT cooling system of claim 17 wherein the top of the battery housing has a sealing edge adapted to engage a corresponding sealing edge on the condenser, so that when the condenser is in the closed position the battery housing and the condenser form a sealed enclosure.