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Used in industries such as - Pharmaceuticals, Food and Beverage, Water Treatment, and Desalination

  • Enhanced efficiency
  • Prevention of corrosion and damage
  • Optimised performance

With over 10 years’ experience in specialist, venturi product designing and manufacturing in the UK, Morris Ejector Technologies Ltd provide high quality, custom designed, application specific venturi products and solutions.

Custom solutions require a specialist set of experts to ensure that every venturi product designed, be it an eductor, ejector, instantaneous heater or desuperheater meets your specific requirements as well as those of all necessary local and international rules and regulations. Morris Ejector Technologies work with experts in their field to ensure that they can offer a full range of modelling, simulation, verification, product development, manufacturing, inspection and testing services. Their products are suitable for a range of industries including oil and gas, petrochemical, waste and water, chemical, food and drink, nuclear (fit and forget), power generation marine and shipping.

Pekos Valves

EductorsCustom Eductors for Liquids, Chemical, Slurries, Solids and Gases
Pumping, Lifting, Mixing, Dosing, Compressing, IGF & Aeration applications
EjectorsCustom Ejectors & Thermocompressors for Steam and other Gases
Vacuum, Compression, Recovery and Pneumatic conveyance applications
Steam HeatersCustom Inline Instantaneous Steam Heaters for liquids & slurries
DesuperheatersSpray Type Desuperheaters for Superheated Steam

Morris Ejectors

Liquid and chemical eductors are mechanical devices designed to efficiently mix and disperse liquids or chemicals in various applications. They operate based on the venturi effect, which involves the flow of a primary fluid (usually a liquid) through a narrow constriction or nozzle. This high-velocity flow creates a low-pressure area, which, in turn, draws in and mixes a secondary fluid, such as another liquid or chemical.

Educators for slurries and solids refer to specialised equipment and devices used in various industries to handle, transport, process, and manage solid materials suspended in liquid solutions, often referred to as slurries. These educators are designed to ensure efficient mixing, pumping, and flow of solids-laden fluids.

Liquid jet gas eductors, are devices used to mix, transport, or compress gases using a high-pressure liquid stream. They work on the principle of the Venturi effect, which is based on the Bernoulli’s equation. Liquid jet gas eductors are commonly used in various industrial applications for tasks such as mixing gases, evacuating vapours, and creating a vacuum.

Mixing eductors, also known as jet mixers, are fluid handling devices designed to mix two or more fluids or substances within a process or system. They operate based on the principle of fluid entrainment, where a high-velocity stream of one fluid (the motive fluid) is used to create a low-pressure zone that draws in and mixes with another fluid (the suction fluid). Mixing eductors are commonly used in various industrial applications, including chemical processing, wastewater treatment, and food production, to achieve efficient and homogeneous mixing of liquids or gases. They are valued for their simplicity, reliability, and the ability to blend fluids without the need for moving parts or external energy sources.

Marine eductors, also known as jet pumps or water-driven eductors, are specialised fluid-handling devices used in marine applications. These devices utilise the Venturi effect to create a vacuum and draw in one fluid (typically seawater) while simultaneously discharging another fluid (often freshwater or chemicals) at a higher pressure. They are commonly employed in various marine systems, including ballast water treatment, firefighting, and bilge pumping, where the efficient mixing and transfer of fluids is essential for safety, operational, or environmental reasons. Marine eductors offer a compact and reliable solution for fluid transport and can be found on ships, offshore platforms, and other maritime vessels.

A thermocompressor is a device used in various industrial processes to increase the pressure of a low-pressure steam or gas stream by utilising high-pressure steam as a motive fluid. It operates on the principle of the Venturi effect, where the high-velocity flow of motive steam entrains and compresses the low-pressure steam, raising its pressure to a desired level. Thermocompressors are commonly employed in steam systems, chemical processing, and other applications to optimize energy efficiency and fluid handling. They are valued for their ability to boost the pressure of low-pressure steam or gases without the need for additional mechanical power, making them an energy-efficient solution for various industrial processes.

Steam and vacuum ejectors are devices used in industrial and engineering settings to create a vacuum or lower pressure within a system. Steam ejectors use high-pressure steam to achieve this, while vacuum ejectors can use various high-pressure fluids like air or water. They are widely used in processes such as steam turbines, chemical processing, and creating vacuums for industrial applications like food processing and pharmaceuticals.

Air and gas ejectors are devices used to create a vacuum or low-pressure environment by utilising a high-pressure fluid stream. They work on the principle of the Venturi effect, where a high-velocity fluid jet entrains and compresses a lower-pressure gas or air, effectively removing it from a system. These ejectors find application in various industries, such as manufacturing, chemical processing, and power generation, for tasks like creating vacuums, mixing gases, and transporting fluids. They are efficient, reliable, and versatile tools for managing gas and air flow in industrial processes.

Inline steam heaters are devices used to heat fluids by injecting steam directly into them. They are commonly employed in industrial processes to rapidly and efficiently raise the temperature of liquids for various applications. These heaters work by passing the fluid through a series of coils or tubes where high-pressure steam is introduced, transferring its heat to the liquid. This method offers precise temperature control and is widely used in industries such as food processing, chemical manufacturing, and power generation to optimise heating processes and improve overall efficiency.

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