DATA CENTER BATTERY CLUSTER WITH IMMERSION SYSTEM

Abstract

Embodiments are disclosed of a battery package. The battery package includes one or more battery compartments each having an upstream end, a downstream end, and a plurality of sidewalls extending between the upstream end and the downstream end. Each battery compartment has a plurality of battery cells disposed therein. A supply module is fluidly coupled to the upstream end of the one or more battery compartments. The supply module includes a supply pump having an inlet and an outlet, and a supply flow channel that fluidly couples the outlet of the supply pump to the upstream ends of the one or more battery compartments.

Description

Claims

1. A battery package comprising: one or more battery compartments each having an upstream end, a downstream end, and a plurality of sidewalls extending between the upstream end and the downstream end, each battery compartment having a plurality of battery cells disposed therein; anda supply module fluidly coupled to the upstream end of the one or more battery compartments, the supply module including: a supply pump having an inlet and an outlet, anda supply flow channel that fluidly couples the outlet of the supply pump to the upstream ends of the one or more battery compartments.

2. The battery package of claim 1, further comprising: a supply valve fluidly coupled to the inlet or the outlet of the supply pump;a return valve positioned at the downstream end of the one or more battery compartments; ora supply valve fluidly coupled to the inlet or the outlet of the supply pump and a return valve positioned at downstream end of the one or more battery compartments.

3. The battery package of claim 1 wherein the supply flow channel is a diverging flow channel.

4. The battery package of claim 1, further comprising a return module including a return flow channel fluidly coupled to the downstream ends of the one or more battery compartments.

5. The battery package of claim 4, wherein the return module further comprises a return pump having an inlet and an outlet, the inlet of the return pump being fluidly coupled to the return flow channel.

6. The battery package of claim 4 wherein the return flow channel is a converging channel.

7. The battery package of claim 4, further comprising: one or more additional battery compartments each having an upstream end, a downstream end, and a plurality of sidewalls extending between the upstream end and the downstream end, each additional battery compartment having a plurality of battery cells disposed therein; andan additional supply module fluidly coupled to the upstream end of each additional battery compartment.

8. The battery package of claim 7, wherein the additional supply module comprises: a supply pump having an inlet and an outlet; anda supply flow channel that fluidly couples the outlet of the supply pump to the upstream ends of the one or more additional battery compartments;wherein the inlet of the supply pump of the additional supply module is fluidly coupled to an outlet of the return flow channel.

9. The battery package of claim 1, further comprising: an electrical bus electrically coupled to the plurality of battery cells and communicatively coupled to the supply pump;a charge/discharge sensor coupled to the electrical bus to sense when the plurality of battery cells are charging or discharging;a controller electrically coupled to the charge/discharge sensor and the supply pump, wherein the controller can direct electricity from the electrical bus to the supply pump when the plurality of battery cells is charging or discharging.

10. The battery package of claim 1, further comprising: a temperature sensor positioned at or near the downstream ends of the one or more battery compartments; anda controller electrically coupled to the temperature sensor and the supply pump, wherein the controller can regulate the speed of the supply pump based on the temperature sensed by the temperature sensor.

11. A battery cooling system comprising: a container including a container supply channel, a container return channel, and a battery space;one or more battery packages positioned in the battery space, each battery package comprising: one or more battery compartments each having an upstream end, a downstream end, and a plurality of sidewalls extending between the upstream end and the downstream end, each battery compartment having a plurality of battery cells disposed therein; anda supply module fluidly coupled to the upstream end of the one or more battery compartments, the supply module including: a supply pump having an inlet and an outlet, anda supply flow channel that fluidly couples the outlet of the supply pump to the upstream ends of the one or more battery compartments;wherein the inlet of each supply pump is fluidly coupled to the container supply channel and the downstream ends of the one or more battery compartments are fluidly coupled to the container return channel.

12. The battery cooling system of claim 11, wherein each battery package further comprises: a supply valve fluidly coupled to the inlet or the outlet of the supply pump;a return valve positioned at the downstream end of the one or more battery compartments; ora supply valve fluidly coupled to the inlet or the outlet of the supply pump and a return valve positioned at downstream end of the one or more battery compartments.

13. The battery cooling system of claim 11 wherein each battery package further comprises a return module, the return module including a return flow channel fluidly coupled to the downstream ends of the one or more battery compartments, wherein the downstream ends of the one or more battery compartments are fluidly coupled by the return flow channel to the container return channel.

14. The battery cooling system of claim 13 wherein each return module further comprises a return pump having an inlet and an outlet, the inlet of the return pump being fluidly coupled to the return flow channel and the outlet of the return pump being fluidly coupled to the container return channel.

15. The battery cooling system of claim 11, further comprising a container power bus electrically coupled to a utility and to the battery cells and the supply pumps of the one or more battery packages.

16. The battery cooling system of claim 15, further comprising a central power unit electrically coupled to the container power bus and communicatively coupled to the supply pumps of the one or more battery packages, wherein the central power unit is adapted to: cause the battery cells to deliver electrical power to the container power bus when the battery cells are discharging and cause the utility to deliver electrical power to the container power bus when the battery cells are charging, andselectively activate, deactivate, or regulate the supply pump of at least one of the one or more battery packages.

17. The battery cooling system of claim 11 wherein each battery package further comprises: an electrical bus electrically coupled to the plurality of battery cells and communicatively coupled to the supply pump;a charge/discharge sensor coupled to the electrical bus to sense when the plurality of battery cells are charging or discharging;a controller electrically coupled to the charge/discharge sensor and the supply pump, wherein the controller can direct electricity from the electrical bus to the supply pump when the plurality of battery cells is charging or discharging.

18. The battery cooling system of claim 11 wherein each battery package further comprises: a temperature sensor positioned at or near the downstream ends of the one or more battery compartments; anda controller electrically coupled to the temperature sensor and the supply pump, wherein the controller can regulate the speed of the supply pump based on the temperature sensed by the temperature sensor.

19. The battery cooling system of claim 11, further comprising: a battery space pump to push cooling fluid into the battery space; anda battery space outlet to pull cooling fluid from the battery space.

20. The battery cooling system of claim 19, further comprising: a container supply pump to push cooling fluid into the container supply channel; anda return channel outlet to pull cooling fluid from the return channel.