Abstract: A heat exchanger includes first and second circuits disposed in a counterflow configuration for respectively channeling first and second fluids. In one embodiment, the first circuit is joined to an aircraft engine fuel tank with the first fluid or fuel being a heat sink, and the second circuit is joined to a plurality of aircraft engine oil sumps, with the second fluid or oil being cooled in the heat exchanger by the fuel. The second circuit of the heat exchanger includes first and second outlets in succession with a portion of the oil being removed prior to completion of flow through the heat exchanger and channeled to one or more of the sumps. The remaining portion of the oil in the heat exchanger is removed after completion of flow therethrough at a lower temperature than that of the first portion and is channeled to a predetermined one of the sumps for providing cooler oil thereto.

Abstract: A heat exchanger apparatus for a plurality of cooling circuits using the same coolant is proposed, which includes a first fluid tank (18) arranged to be supplied with the coolant and divided into a plurality of compartments (24, 26, 28) for supplying at least two sub-banks (FP, FS) of tubes belonging to the same bank (10) of heat exchanger tubes (12), the bank (10) being mounted at one end on the first fluid tank (18) and at another end on a second fluid tank (22) that is divided into a plurality of compartments (38, 40, 42) communicating with the sub-banks, outlet means (48, 36) being provided on the first and second fluid tanks to permit the connection of each sub-bank to a cooling circuit.

Abstract: The invention provides in one broad aspect an improved process fluid preheater system for raising the temperature of a process fluid with a hot furnace gas, having a combustion furnace in communication with a shell and tube heat exchanger, wherein the furnace operably produce the hot furnace gas and comprises air inlet means, fossil fuel combustion means and hot furnace gas exit means; and the heat exchanger comprises an exchanger shell, a first end radial tube sheet and a second end radial tube sheet, which define a shell space; a plurality of longitudinal tubes retained by the first and second end tube sheets within the shell and comprising heat exchange means; hot furnace gas inlet means; cooled furnace gas outlet means; process gas inlet means; and heated process fluid outlet means; the improvement comprising the plurality of tubes further comprises the hot furnace gas inlet means and the cooled furnace gas outlet means; the hot furnace gas exit means in communication with the plurality of tubes furnace g

Abstract: A heat transfer device for cooling a fluid has powered means for moving the fluid to create a primary fluid flow, a heat exchanger, and direction controlling surfaces for directing the primary fluid flow toward and through a first portion of the heat exchanger, thereby cooling the fluid flow. The direction controlling surfaces then split the primary fluid flow into a first and second subsidiary fluid flow, and direct the second subsidiary fluid flow through a second portion of the heat exchanger, thereby cooling it to a second temperature which is lower than the first temperature.

Abstract: A multi-cell secondary heat exchanger for use in a high efficiency, multi-poised furnace wherein each cell has outwardly extended exit or entrance bells that are received in grooves formed in adjacent cell panels. The grooves surround exit or entrance ports and are filled with a sealing material that provides a fluid tight seal between the cell panel and the bell.

Abstract: Hydrocarbons are prepared from a feed gas of hydrogen and carbon monoxide by feeding the feed gas into a reaction zone at an elevated temperature and pressure and allowing the hydrogen and carbon monoxide to react in the presence of a catalyst retained in the reaction zone to yield hydrocarbons. A reservoir of a hydrogen-rich gas is maintained at a pressure above the pressure of the feed gas, the reservoir and the reaction zone being connected in such a way that a continuous flow of hydrogen-rich gas is maintained from the reservoir into the reaction zone. A reactor in use in the preparation is shutdown by interrupting the feeding of the feed gas, thereby allowing hydrogen-rich gas to flow from the reservoir at increased rate and quench the reactions occurring in the reaction zone.

Abstract: Inefficiency in heat exchange in an evaporator for a refrigeration system due to maldistribution of incoming refrigerant may be reduced in a structure wherein a plurality of hydraulically parallel flow paths are defined by tubes (20) having ends (84) in the interior of a header (10). Refrigerant inlets (70, 72) are provided for the header (10) at opposite ends (62, 64) thereof to generate streams (78, 80) of incoming refrigerant which impinge upon one another to dissipate the kinetic energy and/or momentum of the streams (78 and 80) which in turn results in an improved distribution of the refrigerant within the header (10). Refrigerant outlets are provided for a header. The outlets are at opposite ends thereof to generate two streams of outgoing refrigerant which reduces outlet resistance and thus provides for more uniform flow of the refrigerant.

Abstract: A plate-type heat exchanger comprises a stack of flat tubes each composed of a pair of confronting core plates jointed to each other and defining a fluid passage. A cross sectional area of the fluid passage is increased along the flowing direction of the refrigerant. A plurality of ribs are disposed on the fluid passage. A flowing resistance of the ribs which are disposed near an outlet tank is lower than that of the ribs which are disposed near an inlet tank.

Abstract: Hot effluent gas from a burner or combustor passes over a pair of nested helical coils forming a steam generator 1 and a vapor mixing conduit 2. Liquid fuel is injected at 12 into a stream of superheated steam and vaporizes. The resulting mixture is combustible. In order to meter small amounts of fuel and water at constant pressure for fine adjustment of the fuel/water ratio in the vaporized mixture, a geared pump 15, 16 is provided in each of the water supply line 6 and the fuel supply line 7, feeding a respective injection tube or nozzle 11, 12. The injection tubes terminate respectively in the steam generator 1 and in the water vapor conduit 3, in a hot zone produced by the hot effluent gas. Preferably, magnetic valves 17, 18 are provided, downstream of each of pumps 15, 16, and are controlled as to frequency and opening time by a central control unit 19.

Abstract: In order to create an economic two-stage heat exchanger system which is capable of cooling cracked gas from short-term splitting furnaces, which is capable of flexible operation utilizing changeable charging stock, the two stages of the heat exchanger are integrated in one device, in order to avoid the necessity of delivering the cracked gas to a second stage via long, hot pipelines. In addition, the system has the capability of switching the heat exchanger plant over to a single-stage operation.

Abstract: A nuclear reactor steam generating plant having a pressurized water reactor with a single discharge line to a steam generator, with the primary coolant passing through the steam generator tubes divided into two streams in the channel head outlet section that is divided into two subsections. Discharge nozzles on the outlet subsections direct the streams of coolant to hermetically sealed pumps directly attached to the discharge nozzles, with the pumps directing the cooled primary coolant back to the reactor vessel. A single removable closure is provided for access to both subsections of the outlet section of the channel head, with a removable portion provided on the divider plate that forms the subsections.

Abstract: A temperature controller unit for use in a gas laser resonator structure using a gas lasing medium excited within a resonator cavity having reflective optical surfaces for producing a beam of coherent radiation, and the gas lasing medium being circulated through a heat exchanger to maintain a predetermined lasing temperature range. The temperature controller unit includes a tubular member of substantial length forming a primary chamber for conducting said gas lasing medium through the heat exchanger in a non-contaminating environment to reduce gas contaminate buildup on the optical surfaces in the resonator cavity, end caps sealably closing the ends of the tubular member and receiving gas lasing medium from the resonator structure, and an outlet tube having an open end positioned within the primary chamber for conveying the gas lasing medium for recirculation to the resonator structure.

Abstract: A hot fluid generator is disclosed for exchanging heat between a first fluid having a first temperature and a second fluid having a second temperature. The generator includes at least two spaced parallel metal sheets spirally wound with spaced turns about a vertical central axis and joined at their top and bottom edges to define a hollow spiral wall. Upper and lower closure members arranged normal to the central axis are connected with opposite ends of the spiral wall to define a first spiral passage between successive spaced turns through which a first fluid is circulated and a second spiral passage between the spaced sheets through which a second fluid is circulated, and a central combustion chamber. A burner is centrally arranged within the combustion chamber to heat the chamber and the first fluid so that as the first and second fluids are circulated, heat is exchanged between the first and second fluids.

Abstract: A recuperative heat exchanger for gas-gas heat exchange at a temperature above 700.degree. C., comprising a refractory lined vessel having a vertically extending steel shell closed at top and bottom by respective ends, wherein the space within the vessel is divided into respective top and bottom end chambers and a heat-exchange chamber therebetween by top and bottom apertured refractory plates and the end chambers are connected by a plurality of substantially vertical tubes of refractory ceramic material extending between said plates.

Abstract: Waste water of above ambient temperature in a commercial laundry is directed through a self-cleaning plate and frame heat exchanger to heat incoming fresh water. Some of the fresh water heated to a first temperature is directed to a cold water storage tank to raise the water therein above ambient temperature which results in substantially lessened downstream requirements for heat input with commensurate cost reductions. The remainder of the fresh water is heated to a higher second temperature and is directed to a hot water storage tank. A system of valves regulates the temperature of the water flowing into each of the hot and cold water storage tanks to maintain a preset temperature in each of the storage tanks.

Abstract: A heat exchanger system for utilizing the exhaust gases of an internal combustion engine to heat liquid. A system for heating water to be used in a carpet and furniture cleaning system is disclosed. A pump circulates water from a holding tank through a serial circuit including copper coils wound around primary exhaust pipes from an engine to a primary heat exchanger and a secondary exhaust pipe from the heat exchanger to the remainder of the exhaust system. The circuit includes the primary heat exchanger which comprises concentric copper tubes forming a water jacket therebetween. The exhaust gases enter the inner tube adjacent opposite ends and a deflector plate adjacent each entry causes a helical passage of the exhaust gases from either end along the inner tube in a manner causing maximum turbulence so as to maximize heat transference to the wall of the inner tube and thus the water jacket. The secondary exhaust pipe exits the exhaust gases mid-way between the ends of the heat exchanger.

Abstract: A heat exchanger comprising a shell connected to vertically spaced apart horizontally arranged circular upper and lower tube sheets; a plurality of vertically positioned parallel tubes, with each tube extending through and connected to a hole in each tube sheet; a bottom sleeve-supporting plate positioned above, and spaced apart from, the lower tube sheet; a top sleeve-supporting plate positioned below, and spaced apart from, the upper tube sheet; a plurality of sleeves joined to holes in the top and bottom sleeve-supporting plates; each of said tubes being axially positioned in a sleeve so as to provide an annular space between the tube outer surface and the sleeve inner surface so that liquid can flow into the sleeve bottom end and out the sleeve upper end; an inlet to feed a heat exchange liquid into a space between the bottom sleeve-supporting plate and the lower tube sheet; an outlet to withdraw heat exchange fluid from the shell side of the heat exchanger above the bottom sleeve-supporting plate; and a

Abstract: Induction device fitted inside a tank for drawing in fluids such as liquid fuels.Said device comprises an enclosure resting on a tray, said enclosure being provided at its base with vertical directional slots communicating with the tank, and at its upper part with a member adapted to connect the enclosure with the tank, and said enclosure containing, on the one hand, an induction pipe with an end portion which is bent towards the upper part of the enclosure and comprising a series of orifices distributed over its length, and on the other hand, a fluid return pipe ensuring the warming up of the enclosure.The invention is used to help drawing certain fuels into a tank.

Abstract: A spot thermal conditioning apparatus selectively operable in warming and cooling modes includes a housing containing three blowers or fans. One of the blowers receives warm ceiling air and projects an exiting stream of the ceiling air to a conditioning compartment within the housing. A fan receives the exiting ceiling air blower stream and concurrently draws a stream of cool floor air into the compartment. The mixed air is then expelled by the fan through a louver to provide directional control of the movement of the conditioned air mass and circulation of air to an open spot work area. An additional fan or blower is provided for circulating warm ceiling air through the housing and returning it back toward the ceiling separately from the flow of warm ceiling air moved by the other blower. The apparatus also includes a closed, heat exchange system and an air flow direction control plate.

Abstract: A heat exchange device for mounting between the front fork and the engine of a motorcycle comprises two vertical coolant outflow tanks on either side of a core area, and a coolant inflow tank located midway between the outflow tanks and connected to the latter. The lower part of the device comprises a series of bent tubes having cooling fins therebetween, to form an inverted U-shaped space which straddles the top of the engine, so as to provide sufficient clearance to accommodate the expansion and contraction strokes of the front fork.

Abstract: A device for reclaiming heat from stove pipes and the like. A semi-circular shaped hollow enclosed housing with a highly thermal-conductive concave surface is mounted contactingly to surround approximately one-half of the circumference of the stove pipe. The concave surface is formed to contact the pipe at a maximum number of points along that surface. The hollow interior of the housing contains thin multi-surfaced projections which are integral with the concave surface and conductively transfer heat from the stove pipe and concave surface to heat the air in the housing. A fan blower is attached via an air conduit to an entrance opening in the housing. When turned on, the blower pushes the heated interior air out a plurality of air exit openings in the ends of the housing and brings in lower temperature outside air for heating.

Abstract: An improved process and apparatus for the removal of ammonium carbamate from an aqueous urea solution wherein the aqueous urea solution is introduced into a stripping zone and caused to flow down a heat exchange wall as a thin film while being heated and contacted in counter-current relation with a gaseous stripping agent. The aqueous urea solution, while being stripped, is heated for at most 5 seconds at a temperature in the range of from 180.degree.-195.degree. C. and thereafter cooled to a temperature of from 155.degree.-170.degree. C.

Abstract: An automobile air-conditioning system in which a single ventilation unit for supplying the conditioned air to a compartment is divided into two parts, and the air passing through each part is adapted to be controlled respectively. The compartment is divided into at least three air-conditioning zones of the front right, front left and rear seat zones so that a plurality of air outlets may supply air to the respective air-conditioning zones. The air respectively temperature-controlled is selectively supplied to each of the air outlets.

Abstract: A tertiary heat exchanger having three sets of adjacent ducting, two stacked within the third, all of which carrying heat exchange mediums so that the heat carried by one medium in any set of a ducting is efficiently transferred to the other two. Two of the three sets of ducting are tubing and this tubing is spirally coiled in a container within the third set of ducting. The two sets of tubing are in alternating layers and the fluid flow of the heat exchange mediums are in opposite directions in each adjacent layer of the tubing. Outlet channels are provided at various points along the helical path of a ducting so as to alter the effective length of a ducting.

Abstract: The invention relates to a method and apparatus for heat exchange, especially for cooling at solid surfaces. At the solid surfaces, a locally uniform convective heat exchange is achieved. According to the invention, a sink flow is superimposed on a circular flow of a fluid in a flow chamber (1) at a surface of a heat-conducting solid wall (9) by means of a distributor, forming a vortex sink flow. The heat exchange surface of the component (9) to be cooled is at the same time the base plate (8) of a flow chamber (1).

Abstract: A means and method for attaining desired temperature conditions at not only the major extent of the heat transfer surface of a rotary heat transfer roll but also at the edges of the roll. Temperature conditioning fluid is introduced and distributed in part directly into a first end of an annular passage between an inner and an outer roll shell and in part into the annular passage adjacently downstream relative to the first end. Spent conditioning fluid is evacuated from the second end of the passage in part directly from the second end of the annular passage and in part through the inner shell adjacently upstream relative to the second end. While the roll is continuously rotating, the relative temperature conditioning effect of the conditioning fluid is adapted to be selectively controlled in respect to either or both ends of the temperature fluid circulating annular passage in the roll.

Abstract: An electrical machine with compressed air cooling, the compressed air being circulated in a closed circuit. After having the compressed air heated by thermal losses of the electrical machine is cooled in the heat exchanger, it is led back into the machine. The compressed air is passed through the cooling channels between two layers of the armature winding heads, resulting in a steady thermal dissipation from the armature windings. Compared to the traditional machines the surface heat transmission factor --increasing due to the pressure--and steady cooling of the armature winding, enables the decrease of the mass of the machine per unit output.

Abstract: A method of raising the temperature of a liquid containing heat coagulable proteins above the coagulation temperature of the proteins to coagulate them using a heat exchanger to transfer heat from the heat source to the liquid without contact between the liquid containing the uncoagulated heat coagulable protein and the heat exchanging surface is described.

Abstract: In a heat exchanger for the recovery of heat from hot shale ashes, having tubes arranged in a frame in latticed pattern and serving to conduct a gas, the frame is surrounded by a housing wherein the space enclosed by the frame and the housing is divided into a collector and a distribution chamber. The shale ashes move through the heat exchanger transversely of the longitudinal direction of the tubes. At the inlet for shale ashes there is provided an inlet space divided with a vertical partition wall into unequal compartments for receiving the ashes incoming through separate inlets under different pressures.

Abstract: An air return bulkhead is provided for mounting on the interior surface of one upstanding wall of a container, the container wall supporting an airflow heat exchanger assembly on an upper portion thereof including a central downwardly opening air inlet, a pair of upper opposite side horizontally and oppositely outwardly opening air inlets and a central upper temperature conditioned air outlet. The bulkhead is constructed to define an upstanding return airflow path extending upwardly along the one wall with the airflow path including a central portion and a pair of opposite side portions. The upper end of the central portion of the airflow path is registered with the central downwardly opening air inlet and the upper ends of the opposite side portions of the flow path are disposed outwardly of the opposite sides of the airflow heat exchanger. A pair of opposite side upper extensions are provided for the bulkhead and mounted on the latter in adjusted upward extended positions relative thereto.

Abstract: Waste water of above ambient temperature in a commercial laundry is directed through a self-cleaning plate and frame heat exchanger to heat incoming fresh water. Some of the fresh water heated to a first temperature is directed to a cold water storage tank to raise the water therein above ambient temperature which results in substantially lessened downstream requirements for heat input with commensurate cost reductions. The remainder of the fresh water is heated to a higher second temperature and is directed to a hot water storage tank. A system of valves regulates the temperature of the water flowing into each of the hot and cold water storage tanks to maintain a preset temperature in each of the storage tanks.

Abstract: A high temperature tube and shell vertically positioned heat exchanger including a plurality of tube sheets dividing the interior of the shell into three consecutive chambers. Ceramic tubes are vertically hung from hemispherical seats in an upper tube sheet and extend downwardly through loose fitting porous inserts which line perforations in the lower tube sheets. A hot fluid flows from the bottom chamber upwardly through the ceramic tubes, a cool fluid flows through the upper chamber across the tubes, and a third fluid is injected into the intermediate chamber at a pressure higher than that of the fluid mediums in the upper and lower chambers. The third, high pressure fluid flows through the porous inserts and into the other chambers forming a dynamic seal which also allows unrestricted axial motion of the tubes and limited laterial motion of the bottom of the tubes.

Abstract: A suspension for a thermally heavy load cylindrical pipe assembly of relatively large diameter, according to which the suspension includes a plate with chambers therein. This plate is at its circumference provided with inlets for a cooling medium, while above the plate there are provided pipes which while extending parallel to the axis of the pipe assembly communicate with the chambers. These pipes lead into collecting elements which in their turn are firmly connected to a hollow supporting ceiling or roof structure which is likewise cooled and which is arranged above the pipe assembly.

Abstract: A microwave heating system utilizing a magnetron for generating the microwaves. The microwaves are sent to a diffuser which spreads the microwaves in an upper chamber of a housing from where they can bounce off the metal walls of the upper chamber and pass through a clear plastic material into a lower chamber. A fluid passes through a circuitous path in the lower chamber and is heated by means of the microwaves.

Abstract: A high temperature tube and shell vertically positioned heat exchanger including a plurality of tube sheets dividing the interior of the shell into three consecutive chambers. Ceramic tubes are vertically hung from hemispherical seats in an upper tube sheet and extend downwardly through loose fitting porous inserts which line perforations in the lower tube sheets. A hot fluid flows from the bottom chamber upwardly through the ceramic tubes, a cool fluid flows through the upper chamber across the tubes, and a third fluid is injected into the intermediate chamber at a pressure higher than that of the fluid mediums in the upper and lower chambers. The third, high pressure fluid flows through the porous inserts and into the other chambers forming a dynamic seal which also allows unrestricted axial motion of the tubes and limited laterial motion of the bottom of the tubes.

Abstract: An improved reheater for a moisture separator reheater includes an inlet header, an outlet header and a plurality of heat-exchange tubes connected therebetween. The inlet header is partitioned to provide at least two separate sections. Piping and control valves are also provided to supply steam to each section of the inlet header from the reheater inlet pipe. The improved reheater includes at least one bundle of tubes communicating with the header(s) via tubesheet(s). The inlet ends of the tubes may be differentially orificed whereby in combination with a nominal flow rate to the partitions, in-tube condensate subcooling is substantially eliminated with minimal scavenging steam at design conditions. At off-design, or low power level, conditions, where fixed resistances of orifices and fixed partitions cannot accommodate changes in heat transfer demand from tube to tube, the aforementioned control valves are automatically adjusted.

Abstract: A water cooled material additive chute for introducing fluxing material into a furnace including water cooled inlet and outlet chambers meeting at a tip or nose portion, a local coolant water injection pipe extending through one of the chambers and into the tip region to augment the cooling efficiency of the water coolant, and a pipe structure which accommodates thermal expansion.

Abstract: An air cooled condenser installation comprising a first group of heat exchange elements including a plurality of rows of upright tubes impinged by a stream of cooling air and connected at upper and lower open ends by an upper manifold respectively, a lower collecting chamber to each other, and a steam conduit communcating with the upper manifold so that the steam flows in downward direction through the tubes and partly condenses therein with the condensate flowing in the same direction, and a second group of heat exchange elements including a second plurality of upright tubes impinged by a second stream of cooling air and connected at upper and lower open ends respectively by an upper chamber and a lower chamber, and a conduit connecting said lower collecting chamber of said first group of heat exchange elements with the lower chamber of the second group of heat exchange elements so that steam which has not been condensed in the first group of heat exchange elements will flow in upward direction through the s

Abstract: An engine cooling system for the internal combustion engine of a motor vehicle, such as a construction machine or the like which operates on uneven or sloped terrain, comprises a radiator having a lower core section and an elongated upper section or top tank separated from the core section by a sealed baffle and extending transversely to the longitudinal axis of the vehicle. The cooling system further comprises fluid conducting passages connected between the radiator and the engine, including a radiator supply line and a radiator return line connected between the core section and the engine. The cooling system also comprises a pair of fluid outlet ports located near the bottom of the top tank and spaced apart from each other in a direction transverse to the longitudinal axis of the vehicle.

Abstract: A lubricating oil sump for an internal combustion engine has hollow side and bottom walls through the interspaces of which engine coolant is circulated to cool oil in the sump, the interspace in the bottom having a meandering flow passage and the internal surface of the sump bottom having longitudinal fins, covered partly by a plate, between which oil flows to be cooled by heat exchange with the engine coolant before entering an oil suction pipe.

Abstract: A modular fireplace assembly which comprises a hearth, a firebox around and over the hearth, and an air plenum chamber on opposite sides and to the rear of said firebox in heat transfer relation thereto. A plurality of environmental comfort conditioning subassemblies are removably positioned in a portion of the air plenum chamber to the rear of the firebox, and include a fan subassembly, an air conditioning coil subassembly, and a heater subassembly. A stack extends upwardly from the upper side of the firebox in heat exchange relation to a hot water tank positioned over the firebox. Air conveyance ducting is connected to the upper side of the air plenum chamber, and air return ducts are connected to the lower side of the air plenum chamber.

Abstract: A flow divider for use in a direct expansion heat exchanger coil as typically utilized in an air conditioning system. The divider is adapted to receive an entering flow of refrigerant from a first circuit and equally distribute the flow into a plurality of leaving circuits. The geometry of the divider is arranged so that the force of gravity acting upon the working fluids passing therethrough is negated thereby enhancing the ability of the divider to produce an equal flow distribution in each of the leaving circuits.

Abstract: Inefficiency in heat exchange in an evaporator for a refrigeration system due to maldistribution of incoming refrigerant may be reduced in a structure wherein a plurality of hydraulically parallel flow paths are defined by tubes (20) having ends (84) in the interior of a header (10). Refrigerant inlets (70, 72) are provided for the header (10) at opposite ends (62, 64) thereof to generate streams (78, 80) of incoming refrigerant which impinge upon one another to dissipate the kinetic energy and/or momentum of the streams (78 and 80) which in turn results in an improved distribution of the refrigerant within the header (10). Refrigerant outlets are provided for a header. The outlets are at opposite ends thereof to generate two streams of outgoing refrigerant which reduces outlet resistance and thus provides for more uniform flow of the refrigerant.