Decentralized module-based dc data center

What is claimed is: 1 . A distributed power system comprising: a DC bus configured to be coupled to at least one first external DC load; at least one DC UPS having a first input configured to be coupled to an AC power source and to receive input AC power from the AC power source, a second input configured to be coupled to a backup power source and to receive backup DC power from the backup power source, and an output configured to be coupled to the DC bus, the at least one DC UPS configured to provide DC power to the DC bus derived from at least one of the input AC power and the backup DC power such that a DC voltage on the DC bus is maintained at a nominal level; and at least one power module configured to be coupled to an energy storage device and to the DC bus, to monitor the DC voltage on the DC bus, to convert DC power from the energy storage device into regulated DC power, and to provide the regulated DC power to the DC bus in response to a determination that the DC voltage on the DC bus is less than a threshold level. 2 . The distributed power system of claim 1 , further comprising a DC/DC converter configured to be coupled to a renewable energy power source, to receive DC power from the renewable energy power source, to convert the DC power from the renewable energy power source into regulated DC power, and to provide the regulated DC power derived from the renewable energy power source to the DC bus to maintain the DC voltage on the DC bus at the nominal level. 3 . The distributed power system of claim 1 , further comprising at least one DC/AC converter configured to be coupled to the DC bus and at least one AC load, to convert DC power from the DC bus into regulated AC power, and to provide the regulated AC power to the at least one AC load. 4 . The distributed power system of claim 1 , wherein in response to a determination that the DC voltage on the DC bus is greater than the threshold level, the at least one power module is further configured to convert DC power from the DC bus into regulated DC power, and to provide the regulated DC power to the energy storage device to charge the energy storage device. 5 . The distributed power system of claim 4 , wherein the at least one power module includes: a first power module configured to be coupled to a first type of energy storage device and to the DC bus, to monitor the DC voltage on the DC bus, to convert DC power from the first type of energy storage device into regulated DC power, and to provide the regulated DC power to the DC bus in response to a determination that the DC voltage on the DC bus is less than a first threshold level; and a second power module configured to be coupled to a second type of energy storage device and to the DC bus, to monitor the DC voltage on the DC bus, to convert DC power from the second type of energy storage device into regulated DC power, and to provide the regulated DC power to the DC bus in response to a determination that the DC voltage on the DC bus is less than a second threshold level. 6 . The distributed power system of claim 5 , wherein the first threshold level is greater than the second threshold level. 7 . The distributed power system of claim 6 , wherein the first type of energy storage device is a fast discharge type of energy storage device, and wherein the second type of energy storage device is a slow discharge type of energy storage device. 8 . The distributed power system of claim 7 , wherein the first energy storage device is one of a capacitor and a flywheel. 9 . The distributed power system of claim 7 , wherein the second energy storage device is one of a battery and a fuel cell. 10 . The distributed power system of claim 1 , wherein the at least one power module is configured to operate absent communication with the at least one DC UPS. 11 . The distributed power system of claim 1 , further comprising a DC/DC converter configured to be coupled to a second external DC load, to receive DC power from the DC bus, to convert the DC power from the DC bus into regulated DC power, and to provide the regulated DC power derived from the DC bus to the second external DC load. 12 . A method for controlling a DC data center, the method comprising acts of: receiving, by at least one DC UPS, input AC power from an AC power source; receiving, by the at least one DC UPS, backup DC power from a backup power source; providing, by the at least one DC UPS, DC power to a DC bus derived from at least one of the input AC power and the backup DC power such that a DC voltage on the DC bus is maintained at a nominal level; monitoring, by at least one power module coupled to at least one energy storage device, the DC voltage on the DC bus; converting, by the at least one power module in response to a determination that the DC voltage on the DC bus is less than a threshold level, DC power from the at least one energy storage device into regulated DC power; and providing, by the at least one power module, the regulated DC power to the DC bus. 13 . The method of claim 12 , further comprising acts of: converting, by the at least one power module in response to a determination that the DC voltage on the DC bus is greater than the threshold level, DC power from the DC bus into regulated DC power; and providing, by the at least one power module, the regulated DC power to the energy storage device to charge the energy storage device. 14 . The method of claim 13 , wherein monitoring by the at least one power module includes: monitoring, by a first power module coupled to a first type of energy storage device and a second power module coupled to a second type of energy storage device, the DC voltage on the DC bus; wherein converting includes converting, by the first power module in response to a determination that the DC voltage on the DC bus is less than a first threshold level, DC power from the first type of energy storage device into first regulated DC power and converting, by the second power module in response to a determination that the DC voltage on the DC bus is less than a second threshold level, DC power from the second type of energy storage device into second regulated DC power; and wherein providing includes providing, by the first power module, the first regulated DC power to the DC bus in response to a determination that the DC voltage on the DC bus is less than the first threshold level and providing, by the second power module, the second regulated DC power to the DC bus in response to a determination that the DC voltage on the DC bus is less than the second threshold level. 15 . The method of claim 12 , further comprising acts of: converting, with at least one DC/AC converter coupled to the DC bus and at least one AC load, DC power from the DC bus into regulated AC power; and providing the regulated AC power to the at least one AC load. 16 . The method of claim 12 , further comprising acts of: converting, with at least one DC/DC converter coupled to the DC bus and a renewable energy source, DC power from the renewable energy source into regulated DC power; and providing the regulated DC power derived from the renewable energy power source to the DC bus to maintain the DC voltage on the DC bus at the threshold level. 17 . The method of claim 12 , further comprising acts of: converting, with at least one DC/DC converter coupled to the DC bus and at least one external DC load, DC power from the DC bus into regulated DC power; and providing the regulated DC power derived from the DC bus to the at least one external DC load.