Vapor Bubbler Alternative
- There are a few technology options when deciding the best vapor bubbler for an application or use.
- Traditional vapor bubbler systems are useful, however, they often generate vapor in an unreliable manner with limited control on delivery.
- Our Vapor Generation Systems incorporate a special vaporizing mixing chamber with liquid and gas flow meters and controllers to offer a highly accurate, repeatable, and controllable vapor stream.
Traditionally, vapor bubbler systems or Vapor Source Controllers are a standard for use as a vapor generator. However, these devices have their shortcomings. For example, a vapor bubbler system is not able to handle large quantities of liquid with a low vapor pressure. Furthermore, they can’t provide vapor from a mixture of liquids with different vapor pressures. For this reason, we have developed a controlled evaporation mixer, this is a new technology that can offer improved process control compared to a vapor bubbler system.
Vapor Delivery System via Controlled Evaporation Mixing
Our partners at Bronkhorst have worked diligently to develop a device that offers vapor generation and control capabilities. As a result, the Controlled Evaporation Mixer (CEM) exists as a vapor delivery unit that’s useful for atmospheric, pressurized, and vacuum processes. Moreover, it can vaporize liquid flows from 0.25 to 1,200 g/h of water. And with most other fluids, the capacity will be even higher.
How the CEM Works
At room temperature, the liquid draws from the container with an inert gas blanket. A flow meter for liquids is able to control and regulate the liquid flow. A control valve is able to control the necessary flow rate from the set-point value. Then, the liquid can enter the vaporizer of the CEM to begin the evaporation process.
Features of Bronkhorst CEM
- accurate control of gas/liquid mixtures
- fast response
- high reproducibility
- very stable vapor flow
- flexible selection of gas / liquid ratio
- lower working temperature than conventional bubbler systems
- control by Vapor Generation Controller System
Vapor Delivery System
The Controlled Evaporation Mixer is a critical component for our vapor bubbler generator system. However, the CEM alone cannot generate streams of vapor. Moreover, it requires additional components to complete the Vapor Generation System. A Vapor Generation Controller is necessary to connect all the components. Along with its unique, highly capable control, it also offers ethernet access via protocols such as Modbus. As a benefit, the ethernet connectivity allows data logging, remote access, and more. A full vapor generation system usually consists of:
Applications For Vapor Bubbler Systems
The Controlled Evaporation System is useful in a wide variety of markets with many different applications. Below you can find many of our common CEM System applications, which require precise vapor generation and vapor flow control.
CVD (Chemical Vapor Deposition)
Chemical Vapor Deposition is a process that produces highly pure solid materials. For example, it’s useful in surface treatment, hardening processes, coatings, and manufacturing of high temperature superconductors.
Humidification of Gases
The CEM is perfect for precise adjusting of moisture levels. The large dynamic range and high accuracy ensure moisture level control with great flexibility from only a few ppm up to virtually 100%. In addition, it maintains a very high stability in dew point.
Calibration of Gas Chromatographs
The combination of the CEM and Mass Flow Controllers can produce gas phase concentrations as necessary. As a result, this application with the CEM is both highly reproducible and highly accurate.
Fuel Cell Research and Testing
The efficiency of the fuel cells depends on the composition and amount of humidified hydrogen and air. In addition, flow speed, pressure conditions, and the pressure difference across membranes are important. External factors also affect the sweet spot for optimal performance. For example, the electrical load together with ambient and fluid temperatures can impact performance.
To keep it simple, the flow meters and pressure instruments take care of the main liquid, gas, and pressure measurement and control tasks. It’s simple to see the fluidic dependencies and interactions. The Controlled Evaporation System is useful for low flow and also low humidification levels. Furthermore, for higher flows, we often advise towards cascade systems.
Vapor Generation Control in Aseptic Packaging
The solution consists of two Bronkhorst CEMs. One side sterilizes PET bottles, cartons or pouches, and the other side is for caps. Hydrogen peroxide (35% H2O2 in water) injects as a vapor for better concentration control. The vapor condenses at the inside surfaces of the packaging, where the H2O2 in the liquid phase performs its sterilizing action. Later, in a subsequent drying step, the condensate is removed using hot air supplied by a gas mass flow controller. After, the dry and aseptically sterilized packaging is ready for filling.
The vapor-generating CEM systems each consist of several components. First, a liquid mass flow controller (thermal LIQUI-FLOW or Coriolis-based mini CORI-FLOW) is able to control the liquid flow. Then, a gas mass flow controller is used to control the carrier gas and subsequent drying, for example, an EL-FLOW Select. Last, a temperature-controlled mixing and evaporation device, or CEM, is used to vaporize, mix, and deliver the vapor stream.