The present invention describes a bulk fluid (wet or dry) cargo distribution terminal (10). The distribution terminal has a silo storage area (10A), a compartmentalized area (10B) which has designated inspecting, refilling and delivering/stacking stations (10C-10E). These storage and compartment areas are protected by fortified walls (11a-11e). Adjacent to the inspecting, refilling and delivering stations is a driveway (14). Trailers and prime movers carry IMO tanks and/or freight containers (22) for refilling or delivering. Located at entry and exit points of the driveway are guard-houses (72a,72b) to ensure safe operation at the distribution terminal. Overhead cranes (41a-41c) serve mechanical handling at the various stations and driveway.

The invention relates to a Data Center Operating System. An embodiment of the present invention comprises: a memory component that stores inventory data for a plurality of data centers; an interactive interface that receives one or more user inputs; an API input that receives data from one or more data center systems; and a processor configured to perform the steps comprising: receiving, via the API input, monitored data from a plurality of data centers at one or more locations; automatically generating, via the processor, an interactive data center floorplan that comprises the monitored data at a device-level for a specific data center; and displaying, via the interactive interface, the interactive data center floorplan in one or more views wherein the one or more views comprises detailed data for a particular rack in the specific data center.

The present disclosure relates to a roof mounted modular cooling unit (“RMC unit”) which is adapted for use above a unit IT structure being used to help form a data center. The RMC unit has a housing configured to be secured perpendicularly relative to a longitudinal axis of a frame of a modular unit IT structure. The housing has a cold air discharge compartment at one end thereof, overlaying a cold aisle formed within the unit IT structure, from which cold air from the modular cooling unit is discharged into the cold aisle, and a hot air intake compartment selectively located to overlay the hot aisle, into which hot air from the hot aisle is drawn. A width of the RMC unit is sufficient to substantially span a full width of the one of the equipment racks.

The present disclosure relates to a roof mounted modular cooling unit (“RMC unit”) which is adapted for use above a unit IT structure being used to help form a data center. The RMC unit has a housing configured to be secured perpendicularly relative to a longitudinal axis of a frame of a modular unit IT structure. The housing has a cold air discharge compartment at one end thereof, overlaying a cold aisle formed within the unit IT structure, from which cold air from the modular cooling unit is discharged into the cold aisle, and a hot air intake compartment selectively located to overlay the hot aisle, into which hot air from the hot aisle is drawn. A width of the RMC unit is sufficient to substantially span a full width of the one of the equipment racks.

According to one embodiment, a data center air cooling system includes a first information technology (IT) room and a second IT room, each with electronic racks with one or more pieces of IT equipment. The system includes an air cooling unit configured to provide cooling air into an air chamber, which is configured to supply the cooling air to the first IT room. The system includes an air duct system that is configured to supply the cooling air from the air chamber to the second IT room and is configured to return warmed air from the first IT room and the second IT room to the air cooling unit. The system includes several louvers that are each configured to open and close independently and in different combinational modes to create several airflow management modes for cooling pieces of IT equipment in the first IT room, in the second IT room, or a combination thereof. The system may also include one or more fans or fan systems in the design.

According to one embodiment, a data center air cooling system includes a first information technology (IT) room and a second IT room, each with electronic racks with one or more pieces of IT equipment. The system includes an air cooling unit configured to provide cooling air into an air chamber, which is configured to supply the cooling air to the first IT room. The system includes an air duct system that is configured to supply the cooling air from the air chamber to the second IT room and is configured to return warmed air from the first IT room and the second IT room to the air cooling unit. The system includes several louvers that are each configured to open and close independently and in different combinational modes to create several airflow management modes for cooling pieces of IT equipment in the first IT room, in the second IT room, or a combination thereof. The system may also include one or more fans or fan systems in the design.

A fastening system is disclosed for forming modular, reconfigurable, and scalable data center infrastructure support systems which may permit construction of self-supporting multi-story data centers capable of supporting substantial loads without requiring external attachment points to walls, ceilings, or building support columns. It may be seen that data center infrastructure support systems formed from there herein described fastening systems may be capable of supporting substantial loads, even when scaled in the vertical direction to include multiple stories.

A fastening system is disclosed for forming modular, reconfigurable, and scalable data center infrastructure support systems which may permit construction of self-supporting multi-story data centers capable of supporting substantial loads without requiring external attachment points to walls, ceilings, or building support columns. It may be seen that data center infrastructure support systems formed from there herein described fastening systems may be capable of supporting substantial loads, even when scaled in the vertical direction to include multiple stories.

A data center includes a floor; a side wall configured to partition a space above the floor into a room; a plurality of server columns arranged in a row direction on the floor, each of the plurality of server columns including a plurality of servers that are arranged to form a column in a column direction; an inclined ceiling that increases in height from a first side toward a second side in the column direction; and a first cable tray configured to hold a first cable, the first cable tray being provided in a space below the inclined ceiling on the first side in the column direction, and extending along the row direction.

A data center includes a floor; a side wall configured to partition a space above the floor into a room; a plurality of server columns arranged in a row direction on the floor, each of the plurality of server columns including a plurality of servers that are arranged to form a column in a column direction; an inclined ceiling that increases in height from a first side toward a second side in the column direction; and a first cable tray configured to hold a first cable, the first cable tray being provided in a space below the inclined ceiling on the first side in the column direction, and extending along the row direction.