Abstract: A vehicle air-conditioning system includes electric heating devices to accelerate a rise in temperature of air for heating a passenger compartment by accelerating a rise in temperature of warm water used to heat the air and by directly heating the air. Electric heating devices are built into a heat exchanger for heating so that the devices can release heat into surrounding air through radiating fins. When the system is in a heating operation region and the temperature of warm water available to flow through the heat exchanger is below a set temperature T.sub.2, the electric heating devices are turned on. A blower for blowing heating air into a passenger compartment through the heat exchanger is stopped, and a warm water valve is opened to allow the warm water to flow through the heat exchanger, whereupon heat from the electric heating devices is released through the radiating fins into the warm water inside the heat exchanger. When the temperature of the warm water rises above the set temperature T.sub.

Abstract: A heating device for a fluid storage tank is provided. The heating device comprises a heat tube including first and second elongate hollow legs which are joined together at an angle relative to each other so as to enable fluid flow therebetween. The first and second hollow legs being at least partially filled with a heat transfer fluid and being adapted to be disposed in a fluid storage tank with one leg extending generally longitudinally relative to the tank and one leg extending generally transversely relative to the tank adjacent a bottom wall of the tank. A heater is arranged in an aperture adjacent one end of the first elongate hollow structure. A safety relief valve can also be arranged on the heat tube so as to enable venting of an excess pressure condition of the heat transfer fluid.

Abstract: A pressureless electric water heater for domestic use has a cylindrical double-walled tank for holding a quantity of a heat transfer liquid such as water. Cold water enters a copper coil immersed in the heat transfer liquid. The heat transfer liquid is heated by an electric heating element which extends down from a hinged tank top. Cold water flowing through the immersed coil is heated by the heat transfer liquid and exits the coil as hot water. The hinged top allows easy access to the interior of the tank and to the heating element, further easing access and replacement thereof. Sedimentation in the tank is minimized because the tank water is rarely replaced. Sedimentation in the coil is reduced because pressurized water flows through the coil when hot water is required and continuously cleanses the tubing.

Abstract: An elongated heat conductive assembly for heating water including a plurality of water passages equally spaced about the central axis of a heat conductive member in which an elongated electrical heating element is located on the central axis of the heat conductive member. Preferably the water passages are tubes located in a highly heat conductive member whereby the heat is trapped in the center of the conductive member from where it is transferred to the water. In one embodiment, caps are provided at the ends of the tubes so that the water enters a first end and flows to a second end and then back to the first end where it exits to the hot tub. In another embodiment, the water flows through one end to the other end from whence it flows to the hot tub. In another preferred embodiment the transfer of heat from the conductive member to the water flowing in the pipes is maximized by expanding the tubes against the walls of openings in the conductive member by applying hydraulic pressure inside the tubes.

Abstract: The present invention relates to a fluid flow controlling member including a primary flow path having a relatively small capacity of containing fluid and a secondary flow path located on a side of the primary flow path and having a relatively large capacity of containing fluid. The primary flow path absorbs part of the flowing fluid and the remaining fluid flows along the surface of the primary flow path in an exposed manner.A difference between the velocities of the exposed fluid flows moving through the primary and secondary flow paths is created so as to define a boundary area for restrictedly controlling at least the exposed flowing fluid on the primary flow path.

Abstract: A hot water tempering system for use with a standard water heater storage tank includes a heat exchanger interposed between the hot water outlet means and the cold water inlet means for transferring heat from hot water exiting from the tank to cold water entering the tank. In this way the temperature of the hot water is tempered. The system is characterized by the fact that the cold water inlet means comprises a first conduit which passes through the heat exchanger to receive heat transferred from the hot water, and a second conduit which bypasses the heat exchanger and delivers cold water directly to the tank. The two inlet conduits are connected to a cold water mains inlet by way of a diverter valve which, in response to the water temperature in the upper region of the tank apportions the water flow between the two conduits.

Abstract: A device for the thermal regulation of a pressurized circulating fluid includes a plurality of elementary assemblies, each formed by a stack of ribbed or corrugated plates. Seals define fluid circulation circuits for conducting coolant fluid and heat transfer fluid therethrough, the circuits emerging at the top and the bottom of the device, heat being exchanged between the circuits through the plates. An electrical heating resistance element is interposed between the circuits for precise thermoregulation of the heat transfer fluid.

Abstract: The present invention relates to a process for producing heat energy without combustion for causing no air pollution. More particularly, the present invention relates to a process which imposes kinetic energy selected from the group comprising static electricity, high voltage electricity and electromagnetic radiation upon selected matter to convert the electrons from such matter into an exciting or ionizing state, and collecting the heat energy released when the excited or ionized electrons from such matter go back to a lower energy state without combustion. The heat energy produced in accordance with the present invention does not go through combustion, therefore no pollution is created.

Abstract: A heating unit for heating a generally cylindrically-shaped drum of material to a selected safe temperature without endangering the contents of the drum due to overheating, such heating unit comprising a tub, liquid circulation components interconnected with the tub, and heating components for heating, to a selected temperature, the liquid to be circulated through the tub. The tub has relatively high sides and an interior portion configured to receive a drum therein, with the interior portion of the tub adapted to contain a number of gallons of liquid to be heated. The tub, liquid circulation components and heating components are interconnected such that the liquid circulation components can bring about a substantially continuous flow of heated liquid through the tub. The heating components have a thermostatically controlled heating element for heating the flowing liquid to a selected temperature.

Abstract: A device for heating chemical tanks includes at least one heat exchanger coil immersed inside a chemical tank. An inert gas, such as nitrogen, is heated and made to flow through the coil to heat a solution in the chemical tank to the desired temperature, which is sensed by a sensor. If microfractures form in the heat exchanger coil, the inert gas simply bubbles out of the solution and does not adversely impact the purity of the solution. In addition, the bubbling of the gas indicates the presence of a microfracture. A second heating coil is provided, and also provides heated inert fluid for heating the solution in the tank. The fluid flow through the first coil is controlled linearly to maintain the temperature at the desired temperature. The fluid flow through the second coil is controlled impulsively to quickly return the solution to the desired temperature after a temperature transient occurs, such as after a relatively cool object is immersed into the solution.

Abstract: A double loop heat storage space heating furnace has a housing with an upper heat storage section containing an electrically heated heat storage brick portion and a lower section containing an air-to-air heat exchanger having first and second air flow passages. The furnace has two separate flow courses. The first flow course uses a room air fan to circulate room air through the first passages of the heat exchanger. The second flow course has a recirculating fan in the lower housing section for recirculating air in a continuous closed loop through the heat storage brick portion to be heated and the second flow passages of the heat exchanger so that heat is delivered from the heated recirculated air and the room air in the heat exchanger. The upper housing section includes a cooling air space surrounding the heat storage brick portion through which the room air fan circulates a portion of the room air to maintain the furnace housing at a temperature similar to that of the room air.

Abstract: A drinking water warming and heating device, comprising a housing having a storage chamber inside thereof and a water circulating space set therebetween. Inside the space is a partition which divides the space into an inner and an outer water circulating space, and mounting plates connected perpendicularly on either side of the partition and extending between the housing and the chamber, the plates dividing the inner and outer water circulating spaces into vertical channels. The water circulating passage has one end connectable to the water outlet port of the engine of a motor vehicle and an opposite end connectable to the water tank of said motor vehicle permitting waste heat from engine cooling water to make heat exchange with drinking water in the water storage chamber. An electric heating element in the storage chamber is connected to the battery power supply of the motor vehicle to heat warmed-up drinking water to boil.

Abstract: A heater which is preferably rated at about 1,500 watts is described. This heater contains at least three separate heat exchangers; each of the heat exchangers contains heat exchanger tubes, and each of the heat exchangers contains a different fluid capacity.A blower passes cold air, in sequence, past the first heat exchanger, then past the second heat exchanger, and then past the third heat exchanger. At the same time, a pump forces a heated heat-exchange medium through the third heat exchanger, through the second heat exchanger, and then through the first heat exchanger.

Abstract: A self-contained heat exchange system (10) is provided wherein the fan (14), pump (18), radiator (30), and motor (16) are disposed within a cylindrical flow path (40) defined by a resilient housing (12). In accordance with a preferred embodiment, the housing (12) comprises a double walled, generally annular fluid reservoir (46). Accordingly, the inside wall (44) of the housing defines the airflow path (40), thereby maximizing heat exchange efficiency per unit volume of heat exchange fluid. Moreover, the annular character of the fluid tank (12) in conjunction with the disposition of the pump (18) within the airflow path (40) defined by the annulus, ensures that the pump (18) is always in a primed condition.

Abstract: The container consists of a hose wound to four spiral coils and of a holding device for fixing the spiral coils parallel and spaced to each other, such that the individual spiral coils are substantially to be subjected from all sides with a heating medium. The apparatus includes a source of hot air into which the container is insertable. The temperature of the heating air is regulated by a measuring device and a controlling device. By using the heating air, an effective heating of the infusion liquid and the transfusion liquid is achieved, and a simple handling is possible without dripping bags.

Abstract: A system for applying .[.one-part thermal-cure.]. .Iadd.fluent .Iaddend.material, such as structural epoxy, includes apparatus for heating or cooling the epoxy to a temperature above or below ambient. A spirally coiled tube is suspended within a hollow enclosure by tube end fittings extending from axially opposed ends of the tube. An electrical heater and temperature sensor extend from opposed enclosure ends into the tube coils approximately centrally of the enclosure. The enclosure is filled with a heat transfer fluid that surrounds the coiled tubing. The fluid is connected through an inlet and outlet in the enclosure endwalls for circulation externally of the enclosure through a fluid chiller. A microprocessor-base controller receives input signals from the temperature sensor and a temperature adjustment mechanism, and provides outputs to the heater chiller and heater-exchange fluid pump and circulation valve, and to alarm mechanisms for indicating a high-temperature or low-temperature alarm condition.