Patent application number | Description | Published |
20080232069 | APPARATUS FOR FACILITATING COOLING OF AN ELECTRONICS RACK EMPLOYING A HEAT EXCHANGE ASSEMBLY MOUNTED TO AN OUTLET DOOR COVER OF THE ELECTRONICS RACK - An apparatus is provided for facilitating cooling of an electronics rack. The apparatus includes a heat exchange assembly mounted to an outlet door cover hingedly affixed to an air outlet side of the rack. The heat exchange assembly includes a support frame, an air-to-liquid heat exchanger, and first and second perforated planar surfaces covering first and second main sides, respectively, of the air-to-liquid heat exchanger. The heat exchanger is supported by the support frame and includes inlet and outlet plenums disposed adjacent to the edge of the outlet door cover hingedly mounted to the rack. Each plenum is in fluid communication with a respective connect coupling, and the heat exchanger further includes multiple horizontally-oriented heat exchange tube sections each having serpentine cooling channel with an inlet and an outlet coupled to the inlet plenum and outlet plenum, respectively. Fins extend from the heat exchange tube sections. | 09-25-2008 |
20090080173 | VAPOR-COMPRESSION HEAT EXCHANGE SYSTEM WITH EVAPORATOR COIL MOUNTED TO OUTLET DOOR COVER OF AN ELECTRONICS RACK - A vapor-compression heat exchange system for facilitating cooling of an electronics rack. The system includes employing an evaporator coil mounted to an outlet door cover, which is hingedly affixed to an air outlet side of the rack, as well as refrigerant inlet and outlet plenums and an expansion valve also mounted to the outlet door cover and in fluid communication with the evaporator coil. The evaporator coil includes at least one heat exchange tube section and a plurality of fins extending therefrom. Respective connect couplings connect the inlet and outlet plenums in fluid communication with a vapor-compression unit which includes a compressor and a condenser disposed separate from the outlet door cover. The vapor-compression unit exhausts heat from refrigerant circulating therethrough. | 03-26-2009 |
20090129000 | INTER-RACK AIRFLOW ARRESTING APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS RACK OF A DATA CENTER - An airflow arrester is provided and configured to reside between electronics racks disposed in a row within a data center. The airflow arrester includes a panel, which when operatively disposed, has a first vertical end, a second vertical end, and a central vertical hinge located intermediate the first and second vertical ends. The airflow arrester further includes an attachment mechanism at the first vertical end and at the second vertical end, and when operatively disposed between a first and second structures, the airflow arrester has a single V-shaped configuration, and is sized and constructed to block airflow from passing therebetween. The single V-shaped configuration provides operational stability to the airflow arrester by translating net twisting forces applied to the airflow arrester to normal forces applied to the first and second structures at the attachment points of the airflow arrester to the first and second structures. | 05-21-2009 |
20090129016 | AIRFLOW ARRESTING APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS RACK OF A DATA CENTER - An airflow arresting apparatus is provided configured to reside above an electronics rack within a data center. The apparatus includes an airflow arrester and a track mechanism. The airflow arrester includes a collapsible panel sized and configured to reside above the electronics rack, and when operatively positioned above the electronics rack, to extend vertically above the electronics rack and at least partially block airflow from passing over the electronics rack between the air outlet and air inlet sides of the rack. The track mechanism is sized and configured to reside above the electronics rack, and the airflow arrester is slidably engaged with the track mechanism. Positioning of the airflow arrester at a desired location above the electronics rack is facilitated by the airflow arrester slidably engaging the track mechanism. | 05-21-2009 |
20090219681 | MULTIPLE CHIP MODULE COOLING SYSTEM AND METHOD OF OPERATION THEREOF - Disclosed herein is computer system having a first and second multiple chip modules (MCM) and a cooling module. The cooling module includes a first cooling loop associated with said first MCM and a first evaporator. The cooling module further includes a second cooling loop associated with said second MCM and a second evaporator. Each cooling loop is coupled to a common condenser that receives thermal energy from each cooling loop. A controller is coupled to the first and second cooling loop and adapts the operation of the first and second cooling loop in response to variances in operating conditions to provide cooling of the first and second MCM. | 09-03-2009 |
20100277865 | MULTIPLE CHIP MODULE COOLING SYSTEM AND METHOD OF OPERATION THEREOF - Disclosed herein is computer system having a first and second multiple chip modules (MCM) and a cooling module. The cooling module includes a first cooling loop associated with said first MCM and a first evaporator. The cooling module further includes a second cooling loop associated with said second MCM and a second evaporator. Each cooling loop is coupled to a common condenser that receives thermal energy from each cooling loop. A controller is coupled to the first and second cooling loop and adapts the operation of the first and second cooling loop in response to variances in operating conditions to provide cooling of the first and second MCM. | 11-04-2010 |
20120286514 | FLUID-DRIVEN, ELECTRICITY-GENERATING SYSTEM AND METHOD FOR A DATA CENTER - A fluid-driven, electricity-generating system and method are provided for a data center with a fluid transport pipe. The generating system includes a housing coupled in fluid communication with the fluid transport pipe, an impeller disposed within the housing and positioned to turn with flow of fluid across the impeller, one or more magnetic structures disposed to turn with turning of the impeller, and an electrical circuit. Electricity is generated for the electrical circuit with turning of the one or more magnetic structures, and is supplied to an electrical load disposed within or associated with the data center. | 11-15-2012 |