Abstract: A method and system for method of removing a node from a multi-node computer. The node receives a system management interrupt (SMI), resulting in a quiescenting of only that node. The SMI receiving node then polls other nodes in the multi-node computer to determine if the SMI affects an operation of any of the other nodes, and quiescents any other node affected by the SMI. Each quiescent node then transfers all of the contents of its system memory to a backup memory in an unaffected remote node in the multi-node computer. The remote node than assumes the function of the removed node that had received the SMI. The method and system thus allows node removal in the event of a hot-swap request or a predicted failure of a node.

Abstract: A flush and fill process is used to ready a fuel cell cooling circuit for initial use. An external flushing system relasably connected to the cooling circuit circulates flushing coolant through the cooling circuit to remove contaminants from the wetted surfaces of the cooling circuit before the fuel cell is put into use. The flushing system includes a pump for circulating the flushing coolant through the cooling circuit, filters for removing contaminants from the coolant and a heater for elevating the temperature of the coolant. Following the flushing process to remove contaminants, the flushing system is disconnected from the cooling circuit and the cooling circuit is filled with fresh coolant.

Abstract: A method, system, and program product supporting dynamic configuring of a multi-node computer. The system includes a scalability management module directly coupled to each node in the multi-node computer.

Abstract: A method and system for method of removing a node from a multi-node computer. The node receives a system management interrupt (SMI), resulting in a quiescenting of only that node. The SMI receiving node then polls other nodes in the multi-node computer to determine if the SMI affects an operation of any of the other nodes, and quiescents any other node affected by the SMI. Each quiescent node then transfers all of the contents of its system memory to a backup memory in an unaffected remote node in the multi-node computer. The remote node than assumes the function of the removed node that had received the SMI. The method and system thus allows node removal in the event of a hot-swap request or a predicted failure of a node.

Abstract: A method and apparatus are provided for controlling delivery of electrical power to a hot swappable device. In a system that accepts hot swappable devices, a sensing circuit is provided to detect the hot swappable device being inserted into the system. The sensing circuit provides a signal indicative of the hot swappable device being inserted and a controller blocks delivery of system voltage to the hot swappable device for a preselected duration of time.

Abstract: The present invention provides management of one or more domains in processor-based system. An apparatus is provided that comprises a storage unit and a first control unit communicatively coupled to the storage unit, wherein the first control unit is capable of managing the one or more domains in the processor-based system over a network.

Abstract: The present invention is directed to a method for forming dielectric thin films having substantially reduced electrical losses at microwave and millimeter wave frequencies relative to conventional dielectric thin films. The reduction in losses is realized by dramatically increasing the grain sizes of the dielectric films, thereby minimizing intergranular scattering of the microwave signal due to grain boundaries and point defects. The increase in grain size is realized by heating the film to a temperature at which the grains experience regrowth. The grain size of the films can be further increased by first depositing the films with an excess of one of the compoents, such that a highly mobile grain boundary phase is formed.

Abstract: A separation module uses a series of separation elements with interconnecting hardware that greatly reduces the time necessary for assembly of interconnected elements and the machining or preparation of an extended part of the module inside diameter for acceptance of the elements. The elements use an interconnection between the modules that provides a sliding seal for first engaging adjacent modules and allowing alignment while a secondary seal is brought into contact and locked to provide a rigid axial attachment between the separation elements. The module arrangement further uses a single outer seal near the end of the module into which the separation elements are inserted to reduce the amount of machining, honing, or sleeving necessary to seal the module against by-passing of feed or impermeable components.

Abstract: A stacked membrane disk module has a number of membrane disks interleaved with seal rings and includes a biasing subassembly for maintaining a compressive force between the membrane disks and interleaved seal rings so that the module can be repeatedly pressurized/depressurized. The membrane disks preferably include a central first aperture and a pair of second apertures which are radially spaced from the central first aperture. These apertures will thus be respectively registered when a number of such membrane disks are stacked between a pair of end plates so as to establish a central fluid passageway and a pair of second fluid passageways. A rigid perforated tube is positioned within the central fluid aperture and is connected to the end plates so that at least one of the end plates is capable of being axially displaced relative to the perforated tube. A biasing member (e.g.

Abstract: A module for separating at least one component from a flowing mixture containing the same, includes a pair of end plates between which a plurality of stacked separation disks are positioned. The separation disks separate at least one component from the flowing mixture and defines a central passageway therethrough. A tensionable conduit is disposed in the fluid passageway to define a pathway for the separated component through at least one of said end plates and cause the end plates to exert a compressive force to the stacked separation disks in response to the conduit being tensioned. In preferred embodiments, the tensionable conduit includes a single or double helix spring which is machined along a major axial extent of its length. An adjustment nut may thus be threadably coupled to at least one (nonmachined) end portion of the conduit so as to adjustably tension the conduit and translate such tension into compressive force exerted to the stack of membranes by the end plates.

Abstract: In a dehydrogenation process wherein catalyst is regenerated off-stream by use of heated air, at least two reactors are in the regeneration cycle, with regeneration air being heated to regeneration catalyst temperature for introduction into the first reactor, and thereafter being reheated to catalyst regeneration temperature and introduced into the second reactor. Such air may also be employed for preheating feed to the dehydrogenation reactor and/or for steam generation by heating such air to the temperature required for such procedure.

Abstract: A method for reheating of a catalytic reactor by successive oxidations and reductions of a multiple oxidation state catalyst.Heat is added to the catalyst bed by a series of successive oxidation and reduction reactions occurring on the catalyst. Both catalyst oxidation and catalyst reduction are exothermic reactions, and both reactions generate heat to increase the temperature of the catalyst bed.

Abstract: This invention relates to an improvement in a process for producing isobutylene by the cyclic, adiabatic dehydrogenation of isobutane. The improvement resides in diluting an isobutane feed stream with n-butane in an amount from about 3-7% by volume and recycling unreacted products plus nC.sub.4 unsaturates from the dehydrogenation zone. Additional coke is made by virtue of the use of n-butane and recycle to permit lower feed input temperature.

Abstract: This invention relates to a process for producing a high purity butene-1 product from n-butane via a dehydrogenation process. In one embodiment of the process the n-butane is dehydrogenated over a chromia-alumina catalyst and any butadiene formed hydrogenated to monoolefins. The monoolefins are separated and the butene-1 separated from isobutylene by reacting the isobutylene with methanol to form methyl tertiary butyl ether. The methyl tertiary butyl ether is separated from the butene-1 leaving it as a high purity product. Alternatively, the dehydrogenated product from the reactor may be contacted with a solvent to extract butadiene followed by hydrogenation, separation of monoolefins and conversion to methyl tertiary butyl ether.

Abstract: A log burning device is presented for holding two logs, each cut in a plane at right angles to the log axis, and the device holding these logs end-to-end to be burned in that position. The device provides shields to true-up the mating ends of the two logs and rotatable rollers support the logs with the rollers being turned by an attached angle handle to move the individual log portions toward and away from each other. A kindling basket is provided to promote the burning action between the two logs.

Abstract: A cup member adapted for resting on a base of a lamp and for being sandwiched between the base and a bulb fixture threaded on a stem which passes through an aperture in the cup member. The cup member has a rim with slots formed therein to define flexible fingers which can frictionally receive the lower edge of a chimney. The cup member has integral bushings for removably receiving respective rods connected to a ring member adapted for supporting the outer shade of the lamp.