Abstract: A coolant heater for a vehicle includes: a housing unit having an inlet part through which a coolant is introduced and an outlet part through which the coolant is discharged; a baffle assembly provided in an internal space of the housing unit and having a first flow path through which the coolant flows in a first direction and a second flow path through which the coolant, passing through the first flow path, flows in a second direction different from the first direction; a first heater part provided in the first flow path; and a second heater part provided in the second flow path. The coolant heater makes it possible to obtain an advantageous effect of improving a fast-acting heating performance and heating efficiency.

Abstract: A nuclear reactor has a pressurizer housed in a vessel. Heating elements are completely housed in the pressurizer. The nuclear reactor has electrical conductors that are the only feature leaving the vessel through electrical penetrations. The nuclear reactor can be operated to produce energy. The production of energy can be stopped, and the vessel of the reactor can be opened for performing maintenance operations on elements of the pressurizer and other components of the reactor, including fuel assembly replacement. After performing maintenance operations, the vessel of the reactor can be closed and energy production resumed.

Abstract: A portable food and beverage heating device including an elongated heating element designed to be immersed in a substance and to radiate heat to increase the temperature of the substance. The device further including a removable cap designed to act as an intermediary between a power supply and the elongated heating element, such that in one embodiment the heating element can only receive power from the power supply when the removable cap is secured to a second end of a housing. Additionally, the device includes several safety features like a non-conductive heat-resistant tip, a burn guard, a non-conductive fastener, and optional foldability or removability of the heating element all of which are designed to safeguard against personal injury to a user, or damage to a container holding the substance being heated.

Abstract: Direct current solar electric heating elements can be powered by an array of photovoltaic panels. The direct current voltage can be low or high with proper electrocution protection. Insertable immersion heating elements can be placed into any existing, gas, propane or electric hot water tank, cooking pot or hot tub. Heating elements in air can also be used for heating ovens, range cook tops and sauna heaters. The output of the photovoltaic panel is interfaced to the electric heater element via either direct connection or using a load-matching controller which maximizes the power delivered to the heater under all sun conditions. The maximum heater temperature is regulated by a thermostat.

Abstract: An axial resistance sheathed heater is presented. The axial resistance sheathed heater includes a retaining sheath having a first end and a second end and a resistance wire completely disposed within the retaining sheath. The heater further includes a first conductor rod partially disposed within the retaining sheath and extending beyond the first end of the retaining sheath, the first conductor rod in direct electrical communication and direct mechanical communication with the resistance wire; and a second conductor rod partially disposed within said retaining sheath and extending beyond the second end of the retaining sheath, the second conductor rod in direct electrical communication and direct mechanical communication with the resistance wire. The resistance wire, the first conductor rod and the second conductor rod comprise a circuit achieving a power to voltage rating of about 5000:24.

Abstract: Provided herein is a supplemental heating element that may be inserted into a tank of a residential or commercial hot water heater. A collar of the supplemental heating element engages a threaded inlet or outlet of the hot water heater and provides a flow path into or out of the hot water heater while the supplement element is suspended within a tank of the hot water heater.

Abstract: The present invention relates to a ceramic-coated heater in which the outer surface of a heater rod is coated with ceramic to improve the physical properties thereof including durability, corrosion resistance, and the like, thereby enabling the heater to be used in water or air. The outer surface of the heater rod is coated with a ceramic composition to which an acrylic corrosion resistant wax is added, thereby strengthening the bonding force of the coating layer film, and thus improving the physical properties thereof including durability, corrosion resistance, and the like to enable the heater to be used in water. Therefore, the ceramic-coated heater of the present invention enables high thermal conductivity using less current and reduces energy consumption so that it can be utilized in a wide variety of industrial fields.

Abstract: A device for sanitizing human hands. One embodiment, comprising of a casing shell containing a heating element, an air displacement means, and a cavity that is able to accommodate a human hand.

Abstract: The present invention provides a heating device with cathode oxygen depletion (COD) function for a fuel cell vehicle, in which an existing COD and a heating device for improving cold startability of the fuel cell vehicle are integrated. For this purpose, the present invention provides a heating device with COD function for a fuel cell vehicle, the heating device including: a housing having an inlet and an outlet formed on both ends thereof; a start-up heater and a shut-down heater provided in parallel on one side of the housing in a direction perpendicular to a coolant flow direction; and a plurality of heaters for heating coolant provided in parallel on the other side of the housing in a direction perpendicular to the coolant flow direction, wherein cross sections in the coolant flow direction of each of the respective heaters change periodically along the longitudinal direction of the heater so as to cause a flow disturbance.

Abstract: A feed gas conditioner.

Abstract: A method of manufacturing a carbon-fiber pipe which is hollow and has a net shape, by knitting carbon fibers and general fibers, applying carbon or ceramic, and heating to burn the general fibers, and a carbon fiber heating lamp using the carbon-fiber pipe are provided. The carbon fiber heating lamp includes a vacuum glass tube, a tubular carbon fiber pipe, which is knitted using carbon fiber and general fiber as a raw material and has a hollow part, and a heating element. The heating element includes the tubular carbon fiber pipe which has a predetermined length and is installed in the vacuum glass tube, and generates heat using power supplied from an exterior through both terminals provided on an outer portion of the vacuum glass tube.

Abstract: An apparatus and method for heating fluidic materials.

Abstract: An improved solid heat transfer element composed of an elongate member having a generally cylindrical surface with male vortex generating protrusions is provided. The vortex generating protrusions, which may be referred to as “turbulators,” provide improved heat transfer by convection to a flow of air transverse to the elongate members without substantially increasing the pressure drop in the flow of air passing over the members. Advantageously, a plurality of the heat transfer elements, or of straight portions of a single serpentine heat transfer element, may be arranged in an aligned or staggered array of elements or straight portions. Many advantageous profile shapes of the element and vortex generators are provided, including aerodynamic profile shapes that are symmetrical with respect to a fluid flow to provide low drag and pressure drop. Heat in the element may be generated by means of electrical resistance or absorption of radiation.

Abstract: The invention relates to a boiler for heating water in a coffee or espresso machine, comprising a boiler housing (1), a cold water inlet (7), a hot water outlet (8) and an electric heating device (5). Said boiler housing (1) is cylindrical and comprises a boiler cover (2), a boiler top (4) and a boiler base (3) having a cylinder axis (A) that is horizontal when in operation. The cold water inlet (7) and the hot water outlet (8) and the electric heating device (5) are mounted on the boiler base (3) of the boiler housing (1), that extends vertically, and the heating device (5) is configured in such a manner that each point inside the container volume is at a normal distance from the heating device (5) that is less than 40% of the container diameter (D).

Abstract: An axial resistance sheathed heater is presented. The axial resistance sheathed heater includes a retaining sheath having a first end and a second end and a resistance wire completely disposed within the retaining sheath. The heater further includes a first conductor rod partially disposed within the retaining sheath and extending beyond the first end of the retaining sheath, the first conductor rod in direct electrical communication and direct mechanical communication with the resistance wire; and a second conductor rod partially disposed within said retaining sheath and extending beyond the second end of the retaining sheath, the second conductor rod in direct electrical communication and direct mechanical communication with the resistance wire. The resistance wire, the first conductor rod and the second conductor rod comprise a circuit achieving a power to voltage rating of about 5000:24.

Abstract: Certain embodiments of the present invention provide a deicer system for heating water within a fluid receptacle to prevent ice from forming including a main body configured to be positioned within the fluid receptacle, a heating element adapted to heat the water, a temperature sensor adapted to detect a temperature, and a control unit in communication with the heating element and the temperature sensor. The heating element is supported by the main body. The temperature sensor is thermally connected to the heating element. The control unit is adapted to determine a temperature of the water based at least in part on the temperature detected by the temperature sensor. The control unit is adapted to control the heating element based at least in part on the determined temperature of the water.

Abstract: Disclosed is a heating unit which can comprise a tube, or pipe, having an aperture therein which can be configured to receive a heating element. In various embodiments, the heating element can comprise a resistive element which can be configured to generate heat when a voltage differential is applied thereto. In certain embodiments, the heating unit can further comprise a collar which is threadably engaged with the tube, wherein a flame path, or exhaust path, can be defined between threads on the pipe and threads on the collar, for example. In certain embodiments, the flame path can comprise a passageway defined between the circumference, or perimeter, of the tube and the collar. Such a flame path can be configured to allow pressurized gasses to safely escape from the tube along a predetermined path.

Abstract: This invention relates to an apparatus to efficiently and rapidly heat any liquid or fuel by providing large heat distribution. This apparatus has innumerable applications for efficiently heating water/fuel, using limited resources and providing cost-savings to private and commercial entities.

Abstract: An immersion heater capable of completely avoiding a situation where an outer circumferential border of a spiral heating element is pressed to an inner wall of a protecting tube, and preventing disconnection due to contact between adjacent portions of the heating element. In the immersion heater, one edge portion of a metal strip heating element (8) is inserted into, and held in a spiral groove (7) to form a spiral heating part (9). Cylindrical-body supporting members (11) are provided and each has a diameter smaller than an inner diameter of the ceramic bottom protecting tube (2) and larger than an outer diameter of the spiral heating part. The cylindrical-body supporting members are fitted into a hollow portion of the insulating cylindrical body (6) and are arranged in openings at a fore-end and a back-end of the insulating cylindrical body, respectively.

Abstract: A device for deflecting acoustic waves for an object in a liquid environment includes a heating grid and a cooling grid. The heating grid is positioned about the object and increases the temperature in the liquid environment. The cooling grid is positioned about the object to cool the liquid environment outside the heating grid. Jointly, these grids establish a temperature gradient in the liquid environment that is capable of bending acoustic waves in the environment. The cooling grid and heating grid can be established through mechanical, electrical or chemical methods. Alternatively, the required temperature gradient can be established by a heating grid alone in a moving vehicle wherein the heating grid is continuously in contact with undisturbed water at the ambient temperature.

Abstract: The present invention relates to a heating device (1) for fuel with at least one PTC heating element (5) and a heat transfer device (6) in thermal contact with the latter, which exhibits two heat transfer elements (7, 7?), and with a tubular casing (2) made of plastic that envelop the heat transfer device (6) and the a least one PTC heating element (5), wherein the diesel fuel to be heated flows through the casing (2) and around the heat transfer device (6) during operation of the heating device (1). Provided on the interior side of the tubular casing (2) is a guiding device that interacts with the at least one PTC heating element (5) and/or the heat transfer device (6) in such a way that at least one PTC heating element (5) and the heat transfer device (6) can be axially inserted into the casing (2) for assembling the heating device (1).

Abstract: An electrical resistance heating assembly comprises a heater ribbon woven through a first mica board. The heater ribbon extends upwardly from a top surface of the first mica board to provide heat to a fluid passing over the upwardly extending heater ribbon. The heat ribbon on an underside of the first mica board is electrically isolated by a second mica board positioned adjacent the first mica board. The first and second mica boards are held together with by a clamp-containing metal place positioned adjacent the second mica board with the clamps bent over the first mica board to keep the mica boards together.

Abstract: The present invention discloses a magnetic water heater including a watercourse main body and a water flow switch. The watercourse main body includes a water tank, a water inlet, and a water outlet. The water inlet, water tank and water outlet are sequentially connected with each another by pipelines. The water flow switch is arranged between the water inlet and the water tank. A plurality of magnetic heating fins is arranged in the water tank. The magnetic heating fins and the water flow switch are connected to a control circuit. The magnetic water heater can not only improve the water purifying rate, but also increase the solvency of water, and inhibit growth and breeding of bacillus, thereby dramatically improving the water quality.

Abstract: A high-power plastic aquarium heater includes a narrow, elongated, flat nickel-chrome steel strip wound on a mica tube and electrically connected with a circuit board inside a tubular plastic casing, and vacuum mounts fastened to the tubular plastic casing with pipe clamps for securing the tubular plastic casing to the inside wall of an aquarium. The use of the narrow, elongated, flat nickel-chrome steel strip facilitates positioning of the mica tube in the longitudinal center axis of the tubular plastic casing for even distribution of heat energy. Further, the nickel-chrome steel strip has a broad heat generating surface area in one particular direction to that the high-power plastic heater has a high performance while saving much the consumption of electric power.

Abstract: The invention provides an overheat protection control component for a liquid heating vessel which includes a control body (1); a single-integrated dual-actuation thermally sensitive bimetallic actuator (2) is provided on the upper face of the control body (1), wherein the single-integrated dual-actuation thermally sensitive bimetallic actuator (2) is two integrated and relatively independent actuating units which are formed on a piece of bimetallic strip, and the outer kick limb (3) of either said actuating unit will produce an actuating movement downwards when an overheat state occurs; two groups of switch contacts (6) are also provided on the control body (1), wherein either group of switch contacts (6) cooperate with the outer kick limb (3) of a corresponding actuating unit, and the outer kick limb (3), when producing a downward actuating movement, will open a corresponding group of switch contacts (6) and cut off the power supply of the heater for the liquid heating vessel.

Abstract: A feed gas conditioner.

Abstract: A filament lamp has a bulb comprised of a straight light emitting tube from which a pair of flat hermetically sealed portions extend, a plurality of coiled filaments arranged within the light emitting tube, in the tube axis direction a pair of internal leads are connected to ends of the filament by a respective one of a plurality of metal foils that are embedded in the hermetically sealed portions, and external leads are connected to the metal foils. The width of metal foils embedded in the hermetically sealed portions is increased so as not to cause them to melt even when an electric current to be supplied to the filament lamp is increased, the hermetically sealed portions being made wider than the external diameter of the light emitting tube and the width between outer margins of the metal foils in a direction at right angles of the tube axis is greater than the internal diameter of the light emitting tube.

Abstract: A system for preventing a deicer from being removed from a liquid receptacle includes a deicer, an anchoring assembly and a tether. The deicer includes a main body and a heating element. The heating element is configured to heat liquid within the liquid receptacle. The anchoring assembly is configured to be secured to or within the liquid receptacle. The tether has first and second ends. The first end is securely fastened to a portion of the deicer. The second end is securely fastened to the anchoring assembly. The anchoring assembly is configured to ensure that the deicer remains within the liquid receptacle.

Abstract: A feed gas conditioner.

Abstract: A device for making a predetermined quantity of a hot beverage includes a boiler chamber for heating water and a tubular heating element inside the boiler chamber near the bottom of the boiler chamber. A main portion of the tubular heating element extends along a helical line around a horizontal axis. The bottom of the boiler chamber includes a wall substantially having the shape of a part of cylindrical surface around the horizontal axis.

Abstract: An electrical heating apparatus has: a fin brazed on at least one of a main body upper wall and a main body lower wall of a tube; an insertion unit having an electro-heat-generating element pressure-welded to a wall of one of the main body upper wall and the main body lower wall; and an edge part projecting in the width direction from each of main body vertical walls to form an edge space. The edge space is formed so as to be continuous with the insertion space and is smaller in thickness dimension than the thickness dimension of the insertion unit. The edge part has an edge part upper wall, an edge part lower wall, and an edge part vertical wall disposed in a concave shape.

Abstract: An electric water heating system (101) with limited scale precipitation comprises a container (102) for receiving water and defining an inner storing space for water to be heated. The water stored in said inner storing space can be heated by an electric heating element (104) present in the inner storing space. Furthermore, an anode element (105) and a cathode element (106) are provided, either connected to or connectable to a DC power source (107) to create a potential difference between the cathode element (106) and the anode element (105). The cathode element (106) is located in the inner storing space adjacent to the heating element (104).

Abstract: Certain embodiments of the present invention provide a deicer system for heating water within a fluid receptacle to prevent ice from forming. The system may include a main body configured to be positioned within the fluid receptacle, a heating element adapted to heat the water, wherein the heating element is supported by the main body, and a concealing cover that is configured to hide the main body the said heating element from view. The concealing cover has a larger axial envelope than the main body and the heating element. The concealing cover may be shaped as a naturally existing object.

Abstract: A spa heater includes a heater element having a single outer wall with indentations near each end for receiving clips for positioning the heater element. The indentations are preferably stamped or formed by some other method which does not weaken the outer wall and the heater element is retained by use of the clips in the indentations. Incorporation of the indentations and the clips allows use of a single thin outer wall thereby reducing cost. The heater element is held and sealed by a combination of O-rings, stepped washers, snap rings clips, and caps. An electrical connection may be made using ring type wire ends residing under the caps or by connecting to posts extending from the ends of the heater element. The heater element is preferably a spiral heater element and a titanium outer wall may be used to resist corrosion and increases heater element life.

Abstract: An electric heater assembly suitable for use with molten metals, the heater employing improved heat transfer media.

Abstract: An improved construction for a heating element for an appliance is disclosed. A coiled resistance wire extending coaxially along the length of an elongate sheath is surrounded by an electrically insulating, high thermally conductive material that fills the sheath around the wire. The resistance wire is secured to a terminal pin at a connection comprising a connection insert that is securely affixed to the terminal pin, intermediate the terminal pin and resistance wire. The resistance wire is then able to be welded to the connector to provide a superior mechanical connection between a terminal pin and the resistance wire, even though the terminal pin is made from copper. The disclosed construction, therefore, provides good electrical and thermal conductivity and resists the tendency to separate during manufacture.

Abstract: An apparatus and method for heating fluidic materials.

Abstract: Certain embodiments of the present invention provide a deicer system for heating water within a fluid receptacle to prevent ice from forming, the system including a main body configured to be positioned within the fluid receptacle, a heating element adapted to heat the water, a temperature sensor adapted to detect a temperature of the water, a switch adapted to activate and deactivate the heating element, and a control unit in communication with the heating element, the temperature sensor, and the switch. The heating element is supported by the main body. The control unit is adapted to control the heating element using the switch based at least in part on a temperature detected by the temperature sensor.

Abstract: The present invention relates to a method of rapidly heating a mold. The method of rapidly heating a mold according to the present invention includes a heater unit coupling step S210 of inserting a heater unit into a channel of a mold and coupling the heater unit to the mold; a heat transfer medium filling step S220 of introducing a heat transfer medium into the channel through an inlet port connected to the inside of the channel and closing an outlet port connected to the outside of the channel and the inlet port connected to the inside of the channel when the channel is filled with the heat transfer medium; and a heater unit heating step S230 of heating the heater unit in the channel so that the temperature of the heat transfer medium is increased to a high temperature, thereby increasing the temperature of the mold to a high temperature by the heat transfer medium. According to the method of the present invention, it is possible to heat a mold rapidly and efficiently.

Abstract: Certain embodiments of the present invention provide a deicer system for heating water within a fluid receptacle to prevent ice from forming including a main body configured to be positioned within the fluid receptacle, a heating element adapted to heat the water, a temperature sensor adapted to detect a temperature, and a control unit in communication with the heating element and the temperature sensor. The heating element is supported by the main body. The temperature sensor is thermally connected to the heating element. The control unit is adapted to determine a temperature of the water based at least in part on the temperature detected by the temperature sensor. The control unit is adapted to control the heating element based at least in part on the determined temperature of the water.

Abstract: A wind turbine and generator arrangement comprises a turbine that drives a self-excited induction generator via a shaft and mechanical gearbox. The induction generator includes an electrical circuit that includes a variable capacitance and a variable resistance. The variable capacitance may be constituted by a fixed capacitor and a triac under the control of a controller, or by a bank of capacitors switched by a relay under control of the controller. The variable resistance includes a triac controlled resistor or a bank of relay-switched resistors which constitute heating elements for heating domestic hot water. In use the generator frequency and voltage are allowed to ‘float’ whilst the optimal generator power output is maintained, but adjusting the impedance of the electrical circuit as the wind speed varies.

Abstract: A deicing system configured to heat water within a water receptacle includes a main body supporting a temperature sensor, a heating element, and a pump. The main body is positioned proximate a base of the water receptacle. The temperature sensor is configured to detect the temperature of the water. The heating element is configured to heat the water when a temperature of the water approaches a freezing point. The pump is configured to circulate the water within the water receptacle to prevent temperature gradients within the water.

Abstract: The invention relates to a boiler for heating water in a coffee or espresso machine, comprising a boiler housing (1), a cold water inlet (7), a hot water outlet (8) and an electric heating device (5). Said boiler housing (1) is cylindrical and comprises a boiler cover (2), a boiler top (4) and a boiler base (3) having a cylinder axis (A) that is horizontal when in operation. The cold water inlet (7) and the hot water outlet (8) and the electric heating device (5) are mounted on the boiler base (3) of the boiler housing (1), that extends vertically, and the heating device (5) is configured in such a manner that each point inside the container volume is at a normal distance from the heating device (5) that is less than 40% of the container diameter (D).

Abstract: A spa heater includes a heater element having a single outer wall with indentations near each end for receiving clips for positioning the heater element. The indentations are preferably stamped or formed by some other method which does not weaken the outer wall and the heater element is retained by use of the clips in the indentations. Incorporation of the indentations and the clips allows use of a single thin outer wall thereby reducing cost. The heater element is held and sealed by a combination of O-rings, stepped washers, snap rings clips, and caps. An electrical connection may be made using ring type wire ends residing under the caps or by connecting to posts extending from the ends of the heater element. The heater element is preferably a spiral heater element and a titanium outer wall may be used to resist corrosion and increases heater element life.

Abstract: Certain embodiments of the present invention provide a deicer system for heating water within a fluid receptacle to prevent ice from forming, the system including a main body configured to be positioned within the fluid receptacle, a heating element adapted to heat the water, a temperature sensor adapted to detect a temperature of the water, a switch adapted to activate and deactivate the heating element, and a control unit in communication with the heating element, the temperature sensor, and the switch. The heating element is supported by the main body. The control unit is adapted to control the heating element using the switch based at least in part on a temperature detected by the temperature sensor.

Abstract: A heating device is provided in a water passageway in a washing or rinsing machine and has a heating element in proximity with a sensor. In one embodiment, the heating element is mounted using a holder in an opening in a wall wherein the wall forms the water passageway. On the holder is also provided a conductivity measuring device which projects into the water passageway. The heating device and conductivity measuring device form a module.

Abstract: A drying apparatus and method are disclosed. The drying apparatus includes a drying compartment and a heating device that heats air to be provided to the compartment. The heating device includes a coil through which is conducted a heated liquid, and the air is heated as it passes along the coil. The heated liquid can be provided from a source internal or external to the drying apparatus and in at least some embodiments is heated water provided from a hydronic heating device located internal to the drying apparatus. In at least some embodiments, the heated air provided through the drying compartment is returned to the heating device and recirculated through the compartment. In at least some of these embodiments, the heated air emanating from the drying compartment passes through a condensing device that removes moisture from the air before it is returned to the heating device.

Abstract: An electric heating element with radiant tube comprising a radiation pipe (1) and an electric heating element (2, 3) contained in said pipe, wherein the heating element has legs that run to and fro in the pipe, and wherein the heating element is connected at one end of the pipe close to a furnace wall with electric power outlets through which electric current is fed to the element, wherein the element is supported in the pipe by ceramic discs (9) that are provided with through-penetrating holes through which the legs of the elements extend, and wherein two elements (2, 3) are disposed sequentially in said radiation pipe along its long axis.

Abstract: A thermal garment that utilizes an electrically-conductive, all metal mesh fabric for the uniform distribution of heat throughout the surface area of the garment, thus permitting freedom of movement without sacrifice to the structural integrity of the fabric, a seemingly prevalent prior art disadvantage recognized in thermal garments incorporating electrical heating wires and/or metalized textile fabrics.

Abstract: A heating apparatus for heating a fluid, in particular in domestic appliances, which comprises a tubular casing, at least one electrical resistance heating wire which is arranged in the interior of the tubular casing and which is embedded in an electrically insulating, heat-conducting insulating material in the tubular casing, at least one connection unit which is arranged in the interior of the tubular casing and which is passed outwardly out of the tubular casing for connection of the electrical resistance heating wire to an electrical energy source disposed outside the tubular casing, and at least one closure bead which closes the opening of the tubular casing. It is further provided that the connection unit is also surrounded by the insulating material within the tubular casing to the closure bead and the closure bead is, at its outside, provided with at least one filling slot which extends over its entire axial length.