Patent application number | Description | Published |
20130263450 | HEAT EXCHANGER DOOR FOR AN ELECTRONICS RACK - An air-cooling method is provided which includes providing a heat exchanger door and a catch bracket. The door is hingedly mounted to the air inlet or outlet side of an electronics rack, and includes: a door frame spanning at least a portion of the air inlet or outlet side of the rack, wherein the frame includes an airflow opening which facilitates airflow through the rack; an air-to-coolant heat exchanger supported by the door frame and disposed so that airflow through the airflow opening passes thereacross; and a door latch mechanism to selectively latch the heat exchanger door to the rack. The catch bracket is attached to the rack and sized to extend from the rack into the heat exchanger door through a catch opening, and the door latch mechanism is configured and mounted within the heat exchanger door to physically engage the catch bracket within the heat exchanger door. | 10-10-2013 |
20130264024 | PROCESS FOR OPTIMIZING A HEAT EXCHANGER CONFIGURATION - A heat exchanger core optimization method is provided for a heat exchanger door which resides at an air inlet or outlet side of an electronics rack, and includes an air-to-coolant heat exchanger with a heat exchanger core. The core includes a first coolant channel coupled to a coolant inlet manifold downstream from a second coolant channel, and the first channel has a shorter channel length than the second channel. Further, coolant channels of the core are coupled to provide counter-flow cooling of an airflow passing across the core. The core optimization method determines at least one combination of parameters that optimize for a particular application at least two performance metrics of the heat exchanger. This method includes obtaining performance metrics for boundary condition(s) of possible heat exchanger configurations with different variable parameters to determine a combination of parameters that optimize the performance metrics for the heat exchanger. | 10-10-2013 |
20130264026 | HEAT EXCHANGER DOOR FOR AN ELECTRONICS RACK - An air-cooling apparatus is provided which includes a heat exchanger door and a catch bracket. The door is hingedly mounted to the air inlet or outlet side of an electronics rack, and includes: a door frame spanning at least a portion of the air inlet or outlet side of the rack, wherein the frame includes an airflow opening which facilitates airflow through the rack; an air-to-coolant heat exchanger supported by the door frame and disposed so that airflow through the airflow opening passes thereacross; and a door latch mechanism to selectively latch the heat exchanger door to the rack. The catch bracket is attached to the rack and sized to extend from the rack into the heat exchanger door through a catch opening, and the door latch mechanism is configured and mounted within the heat exchanger door to physically engage the catch bracket within the heat exchanger door. | 10-10-2013 |
20130264027 | PROCESS FOR OPTIMIZING A HEAT EXCHANGER CONFIGURATION - A heat exchanger door and heat exchanger core optimization method are provided. The door resides at an air inlet or outlet side of an electronics rack, and includes an air-to-coolant heat exchanger with a heat exchanger core. The core includes a first coolant channel coupled to a coolant inlet manifold downstream from a second coolant channel, and the first channel has a shorter channel length than the second channel. Further, coolant channels of the core are coupled to provide counter-flow cooling of an airflow passing across the core. The core optimization method determines at least one combination of parameters that optimize for a particular application at least two performance metrics of the heat exchanger. This method includes obtaining performance metrics for boundary condition(s) of possible heat exchanger configurations with different variable parameters to determine a combination of parameters that optimize the performance metrics for the heat exchanger. | 10-10-2013 |
20130264030 | STRUCTURAL CONFIGURATION OF A HEAT EXCHANGER DOOR FOR AN ELECTRONICS RACK - A heat exchanger door is provided which includes a door assembly spanning at least a portion of the air inlet or outlet side of an electronics rack. The door assembly includes an airflow opening which facilitates air ingress or egress of airflow through the electronics rack. The door assembly further includes an air-to-coolant heat exchanger and a structural support. The heat exchanger is disposed so that airflow through the airflow opening passes across the heat exchanger. The heat exchanger includes a heat exchanger core and a heat exchanger casing coupled to the core. The core includes at least one coolant-carrying channel which loops through the casing. The structural support is attached to the heat exchanger casing to define with the casing a tubular door support structure. The looping of the coolant-carrying channel(s) through the heat exchanger casing resides within the tubular door support structure. | 10-10-2013 |
20130265719 | STRUCTURAL CONFIGURATION OF A HEAT EXCHANGER DOOR FOR AN ELECTRONICS RACK - A method is provided which includes providing a heat exchanger door that includes a door assembly spanning at least a portion of the air inlet or outlet side of an electronics rack. The door assembly includes an airflow opening which facilitates air ingress or egress of airflow through the electronics rack. The door assembly further includes an air-to-coolant heat exchanger and a structural support. The heat exchanger is disposed so that airflow through the airflow opening passes across the heat exchanger. The heat exchanger includes a heat exchanger core and a heat exchanger casing coupled to the core. The core includes at least one coolant-carrying channel which loops through the casing. The structural support is attached to the heat exchanger casing to define with the casing a tubular door support structure. The looping of the coolant-carrying channel(s) through the heat exchanger casing resides within the tubular door support structure. | 10-10-2013 |
20140060798 | Configuring A Liquid Cooling System Associated With Electrical Computing Racks - Apparatuses and computer program products for configuring a liquid cooling system are provided. Embodiments include a valve controller determining a temperature of liquid within a particular portion of the liquid cooling system; determining whether the temperature of the liquid within the particular portion of the liquid cooling system exceeds a predetermined threshold; if predetermined threshold is not exceeded, configuring, one or more valves such that liquid directly exiting a first liquid cooling apparatus of a first electrical component rack is used in a second liquid cooling apparatus to cool a second electrical component rack; and if the predetermined threshold is exceeded, configuring the one or more valves such that liquid directly exiting a main supply line of the liquid cooling system is used in the second liquid cooling apparatus to cool the second electrical component rack. | 03-06-2014 |
20140060799 | Configuring A Liquid Cooling System Associated With Electrical Computing Racks - Configuring a liquid cooling system according to a particular embodiment of the present invention include a valve controller determining a temperature of liquid within a particular portion of the liquid cooling system; determining whether the temperature of the liquid within the particular portion of the liquid cooling system exceeds a predetermined threshold; if predetermined threshold is not exceeded, configuring, one or more valves such that liquid directly exiting a first liquid cooling apparatus of a first electrical component rack is used in a second liquid cooling apparatus to cool a second electrical component rack; and if the predetermined threshold is exceeded, configuring the one or more valves such that liquid directly exiting a main supply line of the liquid cooling system is used in the second liquid cooling apparatus to cool the second electrical component rack. | 03-06-2014 |