Coil Type Heat Exchanger air-to-air heat exchange through evaporator units similar to those used for air conditioners. Coil Type Heat Exchanger applications, the film is composed of iron. Coil Type heat exchanger condensers, duplex tubes consisting of an inner titanium layer with outer copper-nickel alloys are employed.

Oil Coolers Heat Exchangers can be used to simulate the counter current flow of a single large exchanger.Oil Coolers choice of tube material could result in a leak through a tube between the shell and tube sides causing fluid cross-contamination and possibly loss of pressure.

Water Heat Exchangers that use steam-driven turbines commonly use heat exchangers to boil water into steam. All fossil-fueled and nuclear power plants using steam-driven turbines have surface condensers to convert the exhaust steam from the turbines into condensate water for re-use.Water Heat Exchangers large power plants with steam-driven turbines, shell-and-tube surface condensers are used to condense the exhaust steam exiting the turbine into condensate water which is recycled back to be turned into steam in the steam generator.

Shell and Tube Heat Exchanger which typically have U-tubes. One fluid runs through the tubes, and another fluid flows over the tubes to transfer heat between the two fluids. They are used to boil water recycled from a surface condenser into steam to drive a turbine to produce power. Most shell-and-tube heat exchangers are either pass designs on the tube side. The Shell and Tube Heat Exchanger can be either liquids or gases on either the shell or the tube side.

A double pipe heat exchanger, in its simplest emergence is just one pipe inside another larger pipe. One fluid flows all the way through the surrounded by pipe and the additional flows throughout the annulus stuck between the two pipes. The wall of the inner pipe is the heat transfer surface. The pipes are usually doubled back multiple times as shown in the diagram at the left, in order to make the overall unit more compact. The term 'hairpin heat exchanger' is also used for a heat exchanger of the configuration in the diagram. A hairpin heat exchanger may have only one inside pipe, or it may have multiple inside tubes, but it will always have the doubling back feature shown. . Some heat exchanger manufacturers advertise the availability of finned tubes in a hairpin or double pipe heat exchanger. These would always be longitudinal fins, rather than the more common radial fins used in a cross flow finned tube heat exchanger.

Air-cooled heat exchangers are in universal used where a process categorization generates heat which must be uninvolved, but for which there is no local use. A good example is the radiator in your car. The engine mechanism must be cooled to keep them from overheating due to fighting and the combustion process. The water/glycol coolant mixture carries the excess heat away. The car's radiator to heat the inner may use a small amount of the excess heat. Most of the heat must be dissipated somehow. One of the simplest ways is to use the ambient air. Air-cooled heat exchangers (often simply called air-coolers) do not have need of any cooling water from a cooling tower. They are usually used when the opening temperature is more than about 20 deg. F above the maximum expected ambient air temperature. They can be used with closer approach temperatures, but often become expensive compared to a combination of a cooling tower and a water-cooled exchanger.

Reboilers are heat exchangers characteristically used to make available heat to the bottom of manufacturing refinement columns. They boil the liquid from the foundation of a distillation column to generate vapors, which are returned to the article to drive the distillation separation. Appropriate reboiler operation is vital to effective distillation. In a typical classical distillation column, the entire vapor driving the separation comes from the reboiler. The reboiler receives a liquid stream from the article bottom and may partially or completely vaporizes that stream. Steam frequently provides the heat required for the vaporization.Kettle reboilers are very simple and dependable. They may necessitate pumping of the column bottoms liquid into the kettle, or there may be sufficient liquid head to deliver the liquid into the reboiler.

Finned Tube can also be suitable for liquid cooling applications. Copper is specified in supply and return manifolds and in tube coils. Finned Tube heat exchangers are most commonly used for forced air heating and cooling systems, such as with indoor and outdoor wood furnaces, boilers, and stoves.

Stainless steel of threaded joints may be lubricated to prevent galling. Because of the durability of the material, many of these buildings retain their original appearance. Stainless steel reduce the tendency to gall through selective alloying with manganese and nitrogen. Stainless steel of this is the upper portion of the Chrysler Building pictured. Some diners and fast-food restaurants use large ornamental panels.

Copper heat exchangers are enhanced well thought-out than shell and tube exchangers for low flow charge. Due to their simple production they are low in price and easy to clean on the shell side. Their thermal usefulness approximates that of a true countercurrent flow type exchanger. Condensers are used for condensation of vapors and cooling of liquids. Condensers are made by fusing number of parallel coils in a glass shell. Coils are made in unusual diameters using tubes of different bores. Copper tubes are artificial to special supplies as to dimensional tolerances, finish and tempers for use in condensers and heat exchangers. These copper heat exchanger tubes are normally supplied in straight length in annealed & half hard temper. The copper tubes shaped by are metal industries not only have the stiff tolerances but also have the most dependable dimensions throughout the tube length. The tube surface is clean both inside and outside with no caustic stains. The copper tubes produced by are metal industries are suitable to transfer heat in a wide variety of operating conditions and to refuse to accept decay for the longest period of time possible under the harshest operating circumstances.

Large ships frequently hold evaporating plants to fabricate fresh water, thus tumbling their reliance on shore-based supplies. Steam ships must be able to manufacture high-quality distillate in organize to maintain boiler-water levels. Diesel-engine ships frequently utilize waste heat as an energy foundation for producing fresh water. In this system, the engine-cooling water is passed through a heat exchanger, where it is cooled by concentrated seawater (brine). Because the cooling water (which is chemically treated fresh water) is at a temperature of 70-80 C (158-176 F), it would not be possible to flash off any water vapor unless the pressure in the heat exchanger vessel was dropped. To alleviate this problem, a brine-air ejector venturi pump is used to create a vacuum inside the vessel. Partial evaporation is achieved, and the vapor passes through a demister before accomplishment the condenser section. Seawater is pumped through the condenser section to cool the vapor sufficiently to precipitate it.The distillate gathers in a tray, from where it is pumped to the storage tanks. A salinometer monitors salt content and diverts the flow of distillate from the storage tanks if the salt content exceeds the alarm limit. Sterilization is carried out after the evaporator.

Stainless steel's resistance to corrosion and staining, low maintenance and familiar lustre make it an ideal material for many applications. There are over 150 grades of stainless steel, of which fifteen are most commonly used. The alloy is milled into coils, sheets, plates, bars, wire, and tubing to be used in cookware, cutlery, household hardware, surgical instruments, major appliances, industrial equipment (for example, in sugar refineries) and as an automotive and aerospace structural alloy and construction material in large buildings. Storage tanks and tankers used to transport orange juice and other food are often made of stainless steel, because of its corrosion resistance and antibacterial properties. This also influences its use in commercial kitchens and food processing plants, as it can be steam-cleaned and sterilized and does not need paint or other surface finishes.

A heat exchanger is an ingredient of equipment built for well-organized heat transfer from one medium to another. A solid separation may separate the media, so that they never mix, or they may be in unswerving contact. They are lengthily used in space heating, refrigeration, air conditioning, power plants, chemical plants, petrochemical plants, petroleum refineries, natural gas processing, and sewage treatment. The characteristic example of a heat exchanger is found in an interior combustion engine in which a circulating fluid known as engine coolant flows through radiator coils and airflows past the coils, which cools the coolant and heats the incoming air.Rolling sheet ingots shed from molten aluminium, then re-rolling on sheet and foil rolling mills to the preferred thickness, or by continuously casting and cold rolling manufacture aluminum foil. To maintain a steady thickness in aluminum foil production, beta radiation is passed through the foil to a sensor on the other side.

Coil Type Heat Exchanger can also be suitable for liquid cooling applications. Coil Type Heat Exchanger have been used for residential and commercial heating and cooling for many years. Coil Type Heat Exchanger is specified in supply and return manifolds and in tube coils.

Brazed Plate Heat Exchangers consists of a series of thin, corrugated plates which are mentioned above. These plates are gasketed, welded or brazed together depending on the application of the heat exchanger. The plates are compressed together in a rigid frame to form an arrangement of parallel flow channels with alternating hot and cold fluids. The small plate heat exchanger has made a great impact in domestic heating and hot-water. Larger commercial versions use gaskets between the plates, smaller version tend to be brazed.

Brazed Plate Heat Exchangers consists of a series of thin, corrugated plates which are mentioned above. These plates are gasketed, welded or brazed together depending on the application of the heat exchanger.

Air Heat of indentations placed within the heat exchange fins controlled condensation, allowing water molecules to remain in the cooled air. This invention allowed for refrigeration without icing of the cooling mechanism.

Finned Tube heat exchangers are most commonly used for forced air heating and cooling systems, such as with indoor and outdoor wood furnaces, boilers, and stoves.These units rely on air-to-air heat exchange through evaporator units similar to those used for air conditioners. Finned Tube can also be suitable for liquid cooling applications.

United Heat Exchangers is one of the largest Heat Exchanger Manufacturer in INDIA. This company is established in the year of 1989. Our range of products includes Air Cooled Heat Exchanger, Shell Tube Heat Exchanger, Finned Tube Heat Exchanger, Plate Type Heat Exchanger,

U-Tube Heat Exchanger can be many variations on the shell and tube design. Typically, the ends of each tube are connected to plenums through holes in tubesheets.

Air Cooled Heat Exchangers is carried away by the water and glycol coolant mixture. Air conditioning is the process of altering the properties of air primarily temperature and humidity to more favorable conditions.

Double Pipe Heat Exchangers technologies are becoming more popular in modern air conditioning and refrigeration systems because they have better rates of heat transfer than conventional sized condenser and evaporator

Plate finned type Heat Exchanger of flexibility is present in plate-fin heat exchanger design as they can operate with any combination of gas, liquid, and two-phase fluids.

Tube Bundle Heat Exchangers are often baffles directing flow through the shell side so the fluid does not take a short cut through the shell side leaving ineffective low flow volumes.

Vertical Shell in opposite directions. These are used for liquid-liquid, condensing and gas cooling applications. Units are usually mounted vertically when condensing vapour and mounted horizontally when handling high concentrations of solids.

Aluminum Heat Exchangers high thermal conductivity allows heat to pass through it quickly. Other desireable properties of copper in heat exchangers

Compact Heat Exchangers transformer at a given flux density increases with frequency by operating at higher frequencies, transformers can be physically more compact because a given core is able to transfer more power without reaching saturation and fewer turns are needed to achieve the same impedance.

Coil Type Heat Exchanger air-to-air heat exchange through evaporator units similar to those used for air conditioners. Coil Type Heat Exchanger applications, the film is composed of iron. Coil Type heat exchanger condensers, duplex tubes consisting of an inner titanium layer with outer copper-nickel alloys are employed.

Oil Coolers Heat Exchangers can be used to simulate the counter current flow of a single large exchanger.Oil Coolers choice of tube material could result in a leak through a tube between the shell and tube sides causing fluid cross-contamination and possibly loss of pressure.

Water Heat Exchangers that use steam-driven turbines commonly use heat exchangers to boil water into steam. All fossil-fueled and nuclear power plants using steam-driven turbines have surface condensers to convert the exhaust steam from the turbines into condensate water for re-use.Water Heat Exchangers large power plants with steam-driven turbines, shell-and-tube surface condensers are used to condense the exhaust steam exiting the turbine into condensate water which is recycled back to be turned into steam in the steam generator.

Shell and Tube Heat Exchanger which typically have U-tubes. One fluid runs through the tubes, and another fluid flows over the tubes to transfer heat between the two fluids. They are used to boil water recycled from a surface condenser into steam to drive a turbine to produce power. Most shell-and-tube heat exchangers are either pass designs on the tube side. The Shell and Tube Heat Exchanger can be either liquids or gases on either the shell or the tube side.

A double pipe heat exchanger, in its simplest emergence is just one pipe inside another larger pipe. One fluid flows all the way through the surrounded by pipe and the additional flows throughout the annulus stuck between the two pipes. The wall of the inner pipe is the heat transfer surface. The pipes are usually doubled back multiple times as shown in the diagram at the left, in order to make the overall unit more compact. The term 'hairpin heat exchanger' is also used for a heat exchanger of the configuration in the diagram. A hairpin heat exchanger may have only one inside pipe, or it may have multiple inside tubes, but it will always have the doubling back feature shown. . Some heat exchanger manufacturers advertise the availability of finned tubes in a hairpin or double pipe heat exchanger. These would always be longitudinal fins, rather than the more common radial fins used in a cross flow finned tube heat exchanger.

Air-cooled heat exchangers are in universal used where a process categorization generates heat which must be uninvolved, but for which there is no local use. A good example is the radiator in your car. The engine mechanism must be cooled to keep them from overheating due to fighting and the combustion process. The water/glycol coolant mixture carries the excess heat away. The car's radiator to heat the inner may use a small amount of the excess heat. Most of the heat must be dissipated somehow. One of the simplest ways is to use the ambient air. Air-cooled heat exchangers (often simply called air-coolers) do not have need of any cooling water from a cooling tower. They are usually used when the opening temperature is more than about 20 deg. F above the maximum expected ambient air temperature. They can be used with closer approach temperatures, but often become expensive compared to a combination of a cooling tower and a water-cooled exchanger.

Reboilers are heat exchangers characteristically used to make available heat to the bottom of manufacturing refinement columns. They boil the liquid from the foundation of a distillation column to generate vapors, which are returned to the article to drive the distillation separation. Appropriate reboiler operation is vital to effective distillation. In a typical classical distillation column, the entire vapor driving the separation comes from the reboiler. The reboiler receives a liquid stream from the article bottom and may partially or completely vaporizes that stream. Steam frequently provides the heat required for the vaporization.Kettle reboilers are very simple and dependable. They may necessitate pumping of the column bottoms liquid into the kettle, or there may be sufficient liquid head to deliver the liquid into the reboiler.

Finned Tube can also be suitable for liquid cooling applications. Copper is specified in supply and return manifolds and in tube coils. Finned Tube heat exchangers are most commonly used for forced air heating and cooling systems, such as with indoor and outdoor wood furnaces, boilers, and stoves.

Stainless steel of threaded joints may be lubricated to prevent galling. Because of the durability of the material, many of these buildings retain their original appearance. Stainless steel reduce the tendency to gall through selective alloying with manganese and nitrogen. Stainless steel of this is the upper portion of the Chrysler Building pictured. Some diners and fast-food restaurants use large ornamental panels.

Copper heat exchangers are enhanced well thought-out than shell and tube exchangers for low flow charge. Due to their simple production they are low in price and easy to clean on the shell side. Their thermal usefulness approximates that of a true countercurrent flow type exchanger. Condensers are used for condensation of vapors and cooling of liquids. Condensers are made by fusing number of parallel coils in a glass shell. Coils are made in unusual diameters using tubes of different bores. Copper tubes are artificial to special supplies as to dimensional tolerances, finish and tempers for use in condensers and heat exchangers. These copper heat exchanger tubes are normally supplied in straight length in annealed & half hard temper. The copper tubes shaped by are metal industries not only have the stiff tolerances but also have the most dependable dimensions throughout the tube length. The tube surface is clean both inside and outside with no caustic stains. The copper tubes produced by are metal industries are suitable to transfer heat in a wide variety of operating conditions and to refuse to accept decay for the longest period of time possible under the harshest operating circumstances.

Large ships frequently hold evaporating plants to fabricate fresh water, thus tumbling their reliance on shore-based supplies. Steam ships must be able to manufacture high-quality distillate in organize to maintain boiler-water levels. Diesel-engine ships frequently utilize waste heat as an energy foundation for producing fresh water. In this system, the engine-cooling water is passed through a heat exchanger, where it is cooled by concentrated seawater (brine). Because the cooling water (which is chemically treated fresh water) is at a temperature of 70-80 C (158-176 F), it would not be possible to flash off any water vapor unless the pressure in the heat exchanger vessel was dropped. To alleviate this problem, a brine-air ejector venturi pump is used to create a vacuum inside the vessel. Partial evaporation is achieved, and the vapor passes through a demister before accomplishment the condenser section. Seawater is pumped through the condenser section to cool the vapor sufficiently to precipitate it.The distillate gathers in a tray, from where it is pumped to the storage tanks. A salinometer monitors salt content and diverts the flow of distillate from the storage tanks if the salt content exceeds the alarm limit. Sterilization is carried out after the evaporator.

Stainless steel's resistance to corrosion and staining, low maintenance and familiar lustre make it an ideal material for many applications. There are over 150 grades of stainless steel, of which fifteen are most commonly used. The alloy is milled into coils, sheets, plates, bars, wire, and tubing to be used in cookware, cutlery, household hardware, surgical instruments, major appliances, industrial equipment (for example, in sugar refineries) and as an automotive and aerospace structural alloy and construction material in large buildings. Storage tanks and tankers used to transport orange juice and other food are often made of stainless steel, because of its corrosion resistance and antibacterial properties. This also influences its use in commercial kitchens and food processing plants, as it can be steam-cleaned and sterilized and does not need paint or other surface finishes.

A heat exchanger is an ingredient of equipment built for well-organized heat transfer from one medium to another. A solid separation may separate the media, so that they never mix, or they may be in unswerving contact. They are lengthily used in space heating, refrigeration, air conditioning, power plants, chemical plants, petrochemical plants, petroleum refineries, natural gas processing, and sewage treatment. The characteristic example of a heat exchanger is found in an interior combustion engine in which a circulating fluid known as engine coolant flows through radiator coils and airflows past the coils, which cools the coolant and heats the incoming air.Rolling sheet ingots shed from molten aluminium, then re-rolling on sheet and foil rolling mills to the preferred thickness, or by continuously casting and cold rolling manufacture aluminum foil. To maintain a steady thickness in aluminum foil production, beta radiation is passed through the foil to a sensor on the other side.

Coil Type Heat Exchanger can also be suitable for liquid cooling applications. Coil Type Heat Exchanger have been used for residential and commercial heating and cooling for many years. Coil Type Heat Exchanger is specified in supply and return manifolds and in tube coils.

Brazed Plate Heat Exchangers consists of a series of thin, corrugated plates which are mentioned above. These plates are gasketed, welded or brazed together depending on the application of the heat exchanger. The plates are compressed together in a rigid frame to form an arrangement of parallel flow channels with alternating hot and cold fluids. The small plate heat exchanger has made a great impact in domestic heating and hot-water. Larger commercial versions use gaskets between the plates, smaller version tend to be brazed.

Brazed Plate Heat Exchangers consists of a series of thin, corrugated plates which are mentioned above. These plates are gasketed, welded or brazed together depending on the application of the heat exchanger.

Air Heat of indentations placed within the heat exchange fins controlled condensation, allowing water molecules to remain in the cooled air. This invention allowed for refrigeration without icing of the cooling mechanism.

Finned Tube heat exchangers are most commonly used for forced air heating and cooling systems, such as with indoor and outdoor wood furnaces, boilers, and stoves.These units rely on air-to-air heat exchange through evaporator units similar to those used for air conditioners. Finned Tube can also be suitable for liquid cooling applications.

United Heat Exchangers is one of the largest Heat Exchanger Manufacturer in INDIA. This company is established in the year of 1989. Our range of products includes Air Cooled Heat Exchanger, Shell Tube Heat Exchanger, Finned Tube Heat Exchanger, Plate Type Heat Exchanger,

U-Tube Heat Exchanger can be many variations on the shell and tube design. Typically, the ends of each tube are connected to plenums through holes in tubesheets.

Air Cooled Heat Exchangers is carried away by the water and glycol coolant mixture. Air conditioning is the process of altering the properties of air primarily temperature and humidity to more favorable conditions.

Double Pipe Heat Exchangers technologies are becoming more popular in modern air conditioning and refrigeration systems because they have better rates of heat transfer than conventional sized condenser and evaporator

Plate finned type Heat Exchanger of flexibility is present in plate-fin heat exchanger design as they can operate with any combination of gas, liquid, and two-phase fluids.

Tube Bundle Heat Exchangers are often baffles directing flow through the shell side so the fluid does not take a short cut through the shell side leaving ineffective low flow volumes.

Vertical Shell in opposite directions. These are used for liquid-liquid, condensing and gas cooling applications. Units are usually mounted vertically when condensing vapour and mounted horizontally when handling high concentrations of solids.

Aluminum Heat Exchangers high thermal conductivity allows heat to pass through it quickly. Other desireable properties of copper in heat exchangers

Compact Heat Exchangers transformer at a given flux density increases with frequency by operating at higher frequencies, transformers can be physically more compact because a given core is able to transfer more power without reaching saturation and fewer turns are needed to achieve the same impedance.