Abstract: A thermosiphon system includes a condenser, an evaporator, and a condensate line fluidically coupling the condenser to the evaporator. The condensate line can be a tube with parallel passages can be used to carry the liquid condensate from the condenser to the evaporator and to carry the vapor from the evaporator to the condenser. The evaporator can be integrated into the tube. The condenser can be constructed with an angled core. The entire assembly can be constructed using a single material, e.g., aluminum, and can be brazed together in a single brazing operation.

Abstract: Fluid to fluid heat exchange processes involve the hot fluid reducing in temperature and the cold fluid increasing in temperature. To transfer heat between the two fluids, a third, separated heat transfer fluid is often used. The present invention allows for passive heat transfer between the two fluids, using a separate heat transfer fluid, while enabling heat absorption and rejection through a continuously variable temperature.

Abstract: A cleaning apparatus; said apparatus combining mechanical combing action and liquid flow to remove detritus from frond-like structures.

Abstract: The slug pump heat pipe allows for passive heat transport of an enclosed two-phase (liquid/vapor) system under multiple orientations with respect to gravity or under an inertial force, such as a centrifugal force. While the fluid flow is driven by a gravitational or inertial force (e.g. centrifugal force) the device enables condensation heat transfer below the evaporator, with respect to such a body force. Since condensation heat transfer can be achieved below the evaporator, the condenser's effective area is nearly uniform under various orientations.

Abstract: Techniques for managing performance of a computing system include monitoring an operating power and an operating temperature of a rack-mounted computer in a data center; determining that the operating power is at or near a threshold operating power of the computer; and adjusting the operating frequency of the computer based on the adjusted operating temperature of the computer.

Abstract: A monitoring system and associated methodology for response to incidents sensed by at least one sensor of an individual signal unit includes transmission to a central control facility by the individual signal unit, of at least a unique identifying code for that individual signal unit, over a communication network; the response includes a transmission of data from said central control facility to one or more recipients nominated by a registered owner of the individual signal unit wherein registration of the individual signal unit and configuration of sensing and of said response is via a web-based interface.

Abstract: The invention enables the operation of a reciprocating steam engine without the need for timing gears on the inlet and exhaust valves. The valves in this invention are actuated and reversed when the piston reaches the end of the stroke, and are based solely on linear motion. The pistons are dual acting, which means the power stroke operates in both directions. Additionally, the system is self-starting, needing only heat to begin operating. The invention enables the use of a steam engine at low temperature differences (down to 0.5 C) between evaporator and condenser which is useful for closed loop heat transfer applications, when a pure or azeotropic working fluid is used. Additional configurations are possible with the invention, in which part of the heat input may be transformed to a higher temperature and rejected from the system. When the invention is used for either isothermal heat transfer applications or heat transformation, no energy, other than the heat input, is needed for the invention to operate.

Abstract: A method of assembling a thermosiphon system includes placing a base of an evaporator and a tube of a condensate line in a brazing fixture such that the base covers an aperture in a bottom of the tube with a bottom surface of the base abutting a precision machined surface of the brazing fixture, and simultaneously brazing the base and the tube while held by the brazing fixture to form a unitary body in a single brazing process, the unitary body including the evaporator and the condensate line.

Abstract: A cleaning apparatus; said apparatus combining mechanical combing action and liquid flow to remove detritus from frond-like structures.

Abstract: The invention provides a method for a thermally activated closed loop heat transfer system, and requires no other external power source other than the heat which it is transferring. The system is based on a two-phase (liquid/vapor) working fluid, with heat input through an evaporator and heat rejected through a condenser. All of the mechanical power produced by an engine, driven by the high vapor quality fluid leaving the evaporator, is consumed by the pump. The pump drives the low vapor quality fluid leaving the condenser back to the evaporator. Nearly isothermal heat transport can be achieved when using a pure or azeotropic working fluid, since the operation only requires the evaporator pressure to be marginally higher than the condensers pressure.

Abstract: An individual signal unit; each said individual signal unit including; (a) a transceiver module, (b) a power supply, (c) a logic circuit, (d) at least one of a number of external event sensors, and wherein a signal from a said individual signal unit to a central control facility causes said central control facility to execute one or more predefined steps; at least some of said predefined steps configured or reconfigurable by an owner of said individual signal unit; at least some of the predefined steps provided by one or more independent parties; at least some predetermined steps configured or reconfigurable by said independent parties.

Abstract: A two-phase working fluid, having a liquid phase and a gas phase, is purged of non-condensable gas prior to being used to charge a closed thermal management system, improving the heat transfer performance of the thermal management system. The liquid phase of the two-phase working fluid is exposed to conditions that cause non-condensable gas to separate from the two-phase working fluid. The non-condensable gas is vented, and two-phase working fluid that vaporizes under the conditions is captured.

Abstract: A power monitoring and signal unit; said unit provided with projecting connectors at a first face and sockets for receiving like connectors in a second opposite face; said unit provided with circuitry for monitoring power flow through said unit when said projecting connectors are plugged into a mains power outlet; said unit further provided with transceiver circuitry for the transmission of data including command and control data and the reception of data including command and control data.

Abstract: A thermosiphon system includes a condenser and an evaporator fluidically coupled to the condenser by a condensate line.

Abstract: A thermosiphon system includes a condenser and an evaporator fluidically coupled to the condenser by a condensate line. The evaporator includes a housing having an opening to the condensate line, a wick located in the housing, and a flow restrictor located in the housing configured to restrict flow of a working fluid from the condensate line onto a portion of the wick.

Abstract: A thermal interposer for a heat-generating electronic component located on an adapter card of a computer includes a thermally conducting planar body. The thermally conducting planar body may be configured to be coupled to the adapter card such that a first surface of the planar body is in thermal contact with a surface of the electronic component. The thermal interposer may also include a cold plate assembly removably coupled to a second surface of the planar body opposite the first surface. The cold plate assembly may include an inlet adapted to receive a cooling liquid into the cold plate assembly and an outlet adapted to discharge the cooling liquid from the cold plate assembly.

Abstract: A data center cooling system includes a plurality of cooling units positioned adjacent a warm air plenum that is in airflow communication with a plurality of electronic devices supported in a plurality of racks. Each of the cooling units includes a heat exchanger arranged to cool warmed air circulated into the warm air plenum from a human-occupiable workspace adjacent the plurality of racks opposite the plurality of cooling units, and a fan arranged to circulate the warmed air from the warm air plenum through the heat exchanger and to the human-occupiable workspace. The cooling system includes a control system electrically coupled to the fan and configured to modulate a fan speed of the fan of each cooling unit to induce a pressure gradient in the warm air plenum.

Abstract: A thermosiphon system includes a condenser, an evaporator, and a condensate line fluidically coupling the condenser to the evaporator. The condensate line can be a tube with parallel passages can be used to carry the liquid condensate from the condenser to the evaporator and to carry the vapor from the evaporator to the condenser. The evaporator can be integrated into the tube. The condenser can be constructed with an angled core. The entire assembly can be constructed using a single material, e.g., aluminum, and can be brazed together in a single brazing operation.

Abstract: A monitoring system for response to incidents sensed by at least one sensor of an individual signal unit; said response comprising in a first instance, transmission to a central control facility by a said individual signal unit, of at least a unique identifying code for that individual signal unit, over a communication network; said response comprising in a second instance, transmission of data from said central control facility to one or more recipients nominated by a registered owner of said individual signal unit; and wherein registration of a said individual signal unit and configuration of sensing and of said response is via a web-based interface. The monitoring system of claim 1 wherein said response in said first instance includes digital or analogue data input to said individual signal unit.

Abstract: A thermal interposer for a heat-generating electronic component located on an adapter card of a computer includes a thermally conducting planar body. The thermally conducting planar body may be configured to be coupled to the adapter card such that a first surface of the planar body is in thermal contact with a surface of the electronic component. The thermal interposer may also include a cold plate assembly removably coupled to a second surface of the planar body opposite the first surface. The cold plate assembly may include an inlet adapted to receive a cooling liquid into the cold plate assembly and an outlet adapted to discharge the cooling liquid from the cold plate assembly.