Sistemas de Enfriamiento

Equipamiento Graham Corp


1 header ejectors

Steam Jet Ejectors — the largest vacuum producing devices available — are used in the most demanding of applications. Virtually maintenance-free with no moving parts, they can be fabricated from almost any material, and can be used in every industry that requires vacuum. Ejectors can be designed to operate without steam as their pressurized (motive) source. In addition to operating well into the micron HgA range, they can also operate well above atmospheric pressure.

Graham has mastered Steam Ejector design. Featuring proven, unique internal geometries and tightly tolerance-controlled steam nozzle configurations, Graham ejectors produce very low steam consumption and highly efficient operation. As an experienced provider of Engineering Answers since 1936, Graham maintains the most comprehensive database of actual steam ejector performance information available today.

Combine Graham Steam Jet Ejectors with other Graham equipment, such as Process Condensers and Liquid Ring Pumps, and you have a single source of supply and a responsible, total solution for process equipment needs.

Surface Condensers

2 header condenser

By producing a vacuum at the turbine discharge, condensers increase the overall cycle efficiency. Graham has more than 70 years of design and fabrication experience in the steam surface condenser field. Our knowledge allows for an expedient, accurate design and fabrication process. Using design methodologies and practices that have been honed over time, we work closely with our customers to evaluate options that best meet each project’s objectives.

Graham Steam Surface Condensers range from small packaged units used in the HVAC industry to large cylindrical condensers used for mechanical drive applications in power plants, refineries, or chemical processing plants. Circular shells to approximately 12 feet in diameter can be supplied to suit a variety of requirements. Due to shipping restrictions and costs, larger applications are provided in modular rectangular designs where the tube bundles and dome sections are joined at the jobsite.

Because of our considerable experience in condenser manufacturing, our ability to work with exotic materials as well as turbines with different exhaust configurations (down, top, axial), Graham can closely work with customers to evaluate options that best meet the specific requirements of any project.

Liquid Ring Vacuum Pump

3 header vacpumps

Graham liquid ring vacuum pumps are efficient and easy to maintain because there is only one rotating part. Our pumps are robust and can be started and stopped repeatedly, being fit to handle unexpected process upsets, including liquid in the suction, without damage. The exhaust gas stream is oil-free and low temperature.

Graham Liquid Ring Pumps can be fabricated in any material to meet the requirements of the process gas. In addition to operating to very deep vacuum levels, our Liquid Ring Pumps can also operate above atmospheric pressure to provide a very wide range of operation. While liquid ring pumps typically operate with water as the service liquid, Graham Pumps can operate with any liquid that is available.

The Graham Liquid Ring Pump is a proven design, with installations throughout the world. Graham has an extensive database of actual performance test data and can provide a Liquid Ring Pump suitable for nearly any application.

Graham has been providing Engineering Answers since 1936 and can easily combine Graham Liquid Ring Pumps with other Graham equipment, including Steam Jet Ejectors and Process Condensers, to provide a highly efficient vacuum system that optimizes capital and operating costs.

Process Condensers

4 header proccndnsr

A properly designed Graham Condenser between the process and vacuum producing equipment will yield significant advantages. The use of a process vacuum condenser can permit significant reduction in the size of the vacuum producing equipment. A condenser can recover for reuse valuable product that’s carried from the process with non-condensable gases. It can reduce the amount of wastes produced by the vacuum system and lower the process operating cost. Graham Process Condensers can be designed for a wide variety installations: direct contact or surface type, mounted horizontally or vertically, freeze condensation or conventional condensation type.

Matching the Process Vacuum Condenser with vacuum producing equipment is the best way to meet the process objectives. Graham manufactures both the Process Condenser and the vacuum producing equipment. This single-source responsibility provides a unitized system that is matched to the process.

Heliflow Spiral Tube Heat Exchangers

5 header hlflw

The Graham Heliflow Heat Exchanger is uniquely designed and engineered to handle difficult heat transfer applications. Graham created the Heliflow to be exceptionally versatile, yielding heat transfer rates that can be more than 40% better than typical shell and tube designs. The Heliflow Heat Exchanger encompasses a spiral coil, comprised of multiple parallel tubes mounted within a casing. The case/coil construction creates a spiral flow path providing true counterflow. Each application is specially engineered for an optimal balance of thermal and hydraulic requirements, resulting in maximum heat transfer efficiency. High pressure, specialized materials, cyclic operation, temperature extremes and other conditions can be handled without a problem. The Graham Heliflow Heat Exchanger has years of proven service, in thousands of applications throughout the world, with high quality performance always guaranteed.


8 header dsprhtrs

Graham Desuperheaters are used to lower the temperature of superheated steam. They can maintain a set outlet temperature when flow rate or pressure varies.

Graham fabricates custom Venturi or Steam-Atomizing Desuperheaters for industries that include power, refining, pulp and paper, food and beverage, plastics and pharmaceuticals.

Each Graham Desuperheater is custom-engineered and built for the specific application, ensuring trouble-free service for years.

Plate Heat Exchanger

7 header htexch

The Graham UltraHeat Gasketed Plate Heat Exchanger line is engineered for optimum performance in any given application. Whether the goal is to maximize heat recovery or to cool even the most viscous of slurries, Graham engineers can custom-design an UltraHeat Plate Exchanger configured to specific needs.

The Graham MicroHeat line of Brazed Plate Heat Exchangers combines high performance with low cost. The heavy duty construction and compact design lends this heat exchanger to a variety of applications. The materials of construction are corrosion resistant 316 stainless steel plates and connections, and copper or nickel braze. The brazing process eliminates gasketed joints which allows for higher design pressure and temperatures.

MicroMix II Micro Max Water Heaters

Graham has engineered two different types of indirect fired instantaneous Water Heaters to meet the stringent demands of both comfort and process hot water heating. They combine the superior design and efficiency of our Heliflow heat exchanger or UltraHeat plate and frame exchanger with our special 3-way blending valves. The result produces the right amount of water, at the right temperature, under widely varying demands.


The patented MicroMix II and MicroMax use a unique feedforward temperature control system to instantly produce hot water within +/- 4 F. of the set temperature. Their outstanding performance is confirmed by the many installations in hospitals, schools, hotels, restaurants, laundries, ships, factories, and food plants.