Abstract: A method and system are provided to recover water and carbon dioxide from combustion emissions. The recovery includes, among other things, electrolysis and carbon dioxide capture in a suitable solvent. The recovered water and carbon dioxide are subject to reaction, such as a catalytic methanation reaction, to generate at least methane.

Abstract: A method and system are provided to recover water and carbon dioxide from combustion emissions. The recovery includes, among other things, electrolysis and carbon dioxide capture in a suitable solvent. The recovered water and carbon dioxide are subject to reaction, such as a catalytic methanation reaction, to generate at least methane.

Abstract: A method and system are provided to recover water and carbon dioxide from combustion emissions. The recovery includes, among other things, electrolysis and carbon dioxide capture in a suitable solvent. The recovered water and carbon dioxide are subject to reaction, such as a catalytic methanation reaction, to generate at least methane.

Abstract: A method and system are provided to recover water and carbon dioxide from combustion emissions. The recovery includes, among other things, electrolysis and carbon dioxide capture in a suitable solvent. The recovered water and carbon dioxide are subject to reaction, such as a catalytic methanation reaction, to generate at least methane.

Abstract: A photoelectric structure is presented, comprising one or more PiN cells. The PiN cell is formed by an intrinsic semiconductor bulk having front and rear surfaces enclosed between p- and n-type regions extending along side surfaces of said semiconductor bulk. The front and rear surfaces of the intrinsic semiconductor bulk are active surfaces of the PiN cell and said side surfaces of said semiconductor bulk formed with said p- and n-type regions are configured and operable for collecting excess charged carriers generated in said semiconductor bulk in response to collected electromagnetic radiation to which at least one of the active surfaces is exposed during the PiN cell operation.

Abstract: A photoelectric structure is presented, comprising one or more PiN cells. The PiN cell is formed by an intrinsic semiconductor bulk having front and rear surfaces enclosed between p- and n-type regions extending along side surfaces of said semiconductor bulk. The front and rear surfaces of the intrinsic semiconductor bulk are active surfaces of the PiN cell and said side surfaces of said semiconductor bulk formed with said p- and n-type regions are configured and operable for collecting excess charged carriers generated in said semiconductor bulk in response to collected electromagnetic radiation to which at least one of the active surfaces is exposed during the PiN cell operation.

Abstract: A method of making a thin flexible smart card having a printed circuit board (PCB) including a liquid crystal display (LCD) thereon, the PCB and LCD being embedded within a laminate of plastic layers, comprising producing an initial laminate by subjecting a plurality of plastic layers to a relatively high temperature and pressure for a relatively long period of time, producing a cavity in one face of the initial laminate, but terminating short of the opposite face, the cavity being configured and dimensioned to accommodate said PCB and LCD thereon, introducing the PCB and LCD into the cavity from one face of the initial laminate with the LCD facing said opposite face thereof, applying one or more further plastic layers over the one face of the initial laminate to cover the PCB in the cavity, and subjecting the initial laminate and the plastic layers to a low temperature, applied to the side of the further plastic layers at a lower pressure and for a shorter period of time than used in producing the initial la

Abstract: A method and apparatus for measuring the flow velocity of a flowing fluid includes a positive temperature coefficient thermistor to be immersing within the flowing fluid in order to provide a measurement of the rate of heat dissipation of the thermistor produced by the flowing fluid, and thereby a measurement the flow velocity of the fluid. The positive temperature coefficient thermistor used has a resistance which increases sharply at the predetermined temperature at which electrical current is maintained in the thermistor such that the thermistor is self-controlled to maintain substantially the predetermined temperature, whereby the electrical current drawn by the thermistor is a measurement of the thermal load on the thermistor resulting from the thermal heat dissipation therefrom by the flowing fluid, and thereby a measurement of the flow velocity of the fluid.

Abstract: Method and apparatus for measuring the pressure of a fluid medium, by immersing within the fluid medium an electrical resistor having a resistance varying with temperature; applying electrical current through the electrical resistor to heat it to a predetermined temperature above that of the fluid medium; and measuring the rate of change in resistance of the electrical resistor to produce a measurement of the rate of thermal heat dissipation, varying with the density of the fluid medium in which the electrical resistor is immersed, and thereby a measurement of the pressure of the fluid medium.

Abstract: A method and heating device for heating a liquid, particularly useful for removing liquid condensate from cooling devices, by wetting a heating plate with the liquid and controlling the electrical power supply to maintain the heating plate at a the predetermined temperature above the boiling point of the liquid, such that when the heating plate is not wetted by the liquid, the electrical power supply to the heating plate is automatically maintained at a relatively low value, but as soon as the heating plate is wetted by the liquid, the electrical power supplied to the heating plate is automatically increased until the liquid is completely evaporated. The heating plate is heated by one or more PTC thermistors in which the electrical resistance increases with temperature to automatically maintain the predetermined temperature. Besides evaporating liquid condensate, the heating device is described for use in many other applications including steam generation, space heating and plastic molding.

Abstract: A pixel-based electronic display comprising a plurality of pixels, the pixels being dots of light emitting diode material. The dots are formed into the segments of a numeric display to make a low power flexible display suitable for use in smart cards. Also disclosed is a smart card having such a display as well as a pressure sensitive input arrangement and a thin flexible battery, and a method of manufacture of the display.

Abstract: A method and apparatus for measuring the flow velocity of a flowing fluid includes a positive temperature coefficient thermistor to be immersing within the flowing fluid in order to provide a measurement of the rate of heat dissipation of the thermistor produced by the flowing fluid, and thereby a measurement the flow velocity of the fluid. The positive temperature coefficient thermistor used has a resistance which increases sharply at the predetermined temperature at which electrical current is maintained in the thermistor such that the thermistor is self-controlled to maintain substantially the predetermined temperature, whereby the electrical current drawn by the thermistor is a measurement of the thermal load on the thermistor resulting from the thermal heat dissipation therefrom by the flowing fluid, and thereby a measurement of the flow velocity of the fluid.

Abstract: A flat coil assembly (10) comprising at least one electrically conductive layer (12) arranged in a substantially uniplanar spiral arrangement of loops with a void in a center of the spiral, and a core (14) made from mu-metal, wherein the core extending on one side of the uniplanar spiral arrangement over at least a first portion of the loops from an external loop to an internal loop, crossing over, through the void in the center and extending over at least a second portion of the loops on the other side of the uniplanar spiral arrangement.

Abstract: A surgical instrument having a handle at one end, a metal cauterizing element, e.g., a cutting blade, at the opposite end, and an electrical heater for electrically heating the cauterizing element; the electrical heater including at least one positive temperature coefficient (PTC) heater which heats the cauterizing element and maintains a relatively constant temperature therein despite variations in the thermal load, such that the electrical power consumed by the surgical instrument automatically changes with changes in pressure applied to the cauterizing element.

Abstract: A method and heating device for heating a liquid, particularly useful for removing liquid condensate from cooling devices, by wetting a heating plate with the liquid and controlling the electrical power supply to maintain the heating plate at a the predetermined temperature above the boiling point of the liquid, such that when the heating plate is not wetted by the liquid, the electrical power supply to the heating plate is automatically maintained at a relatively low value, but as soon as the heating plate is wetted by the liquid, the electrical power supplied to the heating plate is automatically increased until the liquid is completely evaporated. The heating plate is heated by one or more PTC thermistors in which the electrical resistance increases with temperature to automatically maintain the predetermined temperature. Besides evaporating liquid condensate, the heating device is described for use in many other applications including steam generation, space heating and plastic molding.

Abstract: A method of producing silicon carbide (SiC), by introducing into the interior of a furnace a quantity of relatively pure elemental silicon and a quantity of elemental carbon; subjecting the interior of the furnace to a vacuum; and heating the silicon and carbon to a temperature of 1500° C.-2200° C. to vaporize the silicon and to react it with the carbon to produce silicon carbide. Several embodiments are described for producing a heating or lighting element and a high temperature sensor, respectively, in which the carbon is in the form of a shaped body made of a mixture of finely-divided particles of carbon in a binder, and the silicon is in the form of finely-divided particles applied to the outer surface of the shaped body. A further embodiment is described for producing silicon carbide powder, in which the carbon and silicon are each in the form of finely-divided particles, and are physically separated from each other by a graphite sheet permeable to silicon vapor.

Abstract: A method and apparatus for providing an indication of the composition of an examined fluid by using an electrical resistor, particularly a positive temperature coefficient thermistor, for measuring the thermal conductivity of the examined fluid with the known thermal conductivity of different fluid compositions. The method and apparatus are particularly described for indicating the relative proportions of a working fluid in the liquid and vapor phases in one or more stages of a heat pump. Another described application is for indicating the liquid level in a liquid vaporizer.

Abstract: A method of producing silicon carbide (SiC) heating and lighting elements, by mixing a quantity of finely-divided particles of carbon in a binder; shaping the mixture; applying finely-divided particles of elemental silicon over the shaped mixture; and heating the shaped mixture in a furnace, while subjected to a vacuum, to vaporize and diffuse the silicon and to react the silicon vapor with the carbon in the binder, to convert the carbon to silicon carbide. The silicon particles includes a dopant to reduce the internal resistance of the produced silicon carbide to a value of up to a few hundred &sgr;hm-cms.

Abstract: A method of producing silicon carbide (SiC), by introducing into the interior of a furnace a quantity of relatively pure elemental silicon and a quantity of elemental carbon; subjecting the interior of the furnace to a vacuum; and heating the silicon and carbon to a temperature of 1500° C.-2200° C. to vaporize the silicon and to react it with the carbon to produce silicon carbide. Several embodiments are described for producing a heating or lighting element and a high temperature sensor, respectively, in which the carbon is in the form of a shaped body made of a mixture of finely-divided particles of carbon in a binder, and the silicon is in the form of finely-divided particles applied to the outer surface of the shaped body. A further embodiment is described for producing silicon carbide powder, in which the carbon and silicon are each in the form of finely-divided particles, and are physically separated from each other by a graphite sheet permeable to silicon vapor.

Abstract: A method and apparatus for providing an indication of the composition of an examined fluid by using an electrical resistor, particularly a positive temperature coefficient thermistor, for measuring the thermal conductivity of the examined fluid with the known thermal conductivity of different fluid compositions. The method and apparatus are particularly described for indicating the relative proportions of a working fluid in the liquid and vapor phases in one or more stages of a heat pump. Another described application is for indicating the liquid level in a liquid vaporizer.