Thermal Mass Flow Meters for Combustion Efficiency Control and Monitoring

Example of inline thermal mass flow meter
Image Courtesy Fox Thermal Instruments

Fox Thermal Instruments, a recognized leader in the manufacture of thermal mass flow meters, has authored a white paper entitled "Reduce Energy Costs and Enhance Emissions Monitoring Systems" which provides a technical view of how the use of thermal mass flow measuring technology can be effectively employed on combustion based systems to provide efficient energy usage. Combustion efficiency contributes to the financial benefit of an operation, as well as enabling compliance with emission requirements.

Thermal mass flow measurement is a well regarded mature technology in industrial process measurement and control applications. The instrument returns a mass flow reading by measuring the heat dissipating effect of the media flow on a temperature sensor. Heat transfer is proportional to the mass flow.

The mass flow measurement instruments are very popular for several reasons. They have no moving parts, have a fairly unobstructed flow path, are accurate over a wide range of flow rates, calculate mass flow rather than volume, measure flow in large or small piping systems, and do not need temperature or pressure compensation.

The white paper is provided below for you to read. It is informative and will prove a good investment of time to read. Share your flow measurement challenges of all types with process instrumentation specialists, combining your own process knowledge and experience with their product application expertise to develop effective solutions.

Thermal Mass Flow Meters Reduce Energy Costs and Enhance Emissions Monitoring from Classic Controls, Inc.

Flame Scanners For Combustion Operations

Aim flame scanner through the largest cross sectional area of the flame
Courtesy Fireye

Flame detectors or scanners are regularly deployed in combustion applications as a means of confirming the presence of flame in a combustion chamber. The verification that fuel flowing into the utilization equipment is being properly burned and not accumulating unburned in the combustion chamber is the first line of safety in combustion.

Flame scanners use the characteristics of combustion and the electromagnetic emissions from burning fuel to detect flame and distinguish among flames from multiple burners. The instruments rely heavily upon operating principles utilizing visible, infrared, and ultraviolet light measurement and detection.

In single burner applications, simpler sensor and controller combinations can work suitably, but multiple flame applications are candidates for more complex detection devices and controls which can discriminate among multiple flames. Differences in individual flame characteristics, indicated through combustion products, can be utilized to distinguish between flames from different burners. Some photoelectric detectors can distinguish a signature flicker in flames of any type, invisible to the human eye.

Knowledge and understanding of the flame itself, its emissive attributes, and other characteristics are the key to proper flame detection. This may include the temperature of gases within the flame and its specific gas products. Other than temperature, electromagnetic radiation and ionized gas molecules in the flame are commonly used by flame scanners or detectors.

A variety of flame scanners are available for industrial and commercial use, each optimized for particular application sets. Essentially you have a scanner, which acts as a sensor. The signal from the scanner requires amplification and further processing to provide a reliable control signal. Hardware is available as discreet components, allowing a combination of scanner, amplifier, and control units to be combined into a system tailored for specific application requirements. Integrated systems are also available, with all appropriate detection and amplification circuitry built into a single compact unit.

Share your combustion process challenges with application specialists and combine your facility and process knowledge with their product application expertise to develop effective solutions.

Integrated Flame Scanner for Industrial Combustion Operations from Classic Controls, Inc.

Fuel Air Ratio Controller for Combustion Efficiency

Combustion efficiency reaps substantial cost savings

Steam and hot water use is prevalent throughout industrial processes. Production of these two media is most commonly accomplished with a boiler, many of which are heated by combustion of fossil fuel. Fuel fired boilers of a certain size become the focus of regulatory requirements for emissions. All boilers consume what would be construed by their owners as large amounts of costly fuel. Because of their high pressure and temperature, and the presence of a controlled combustion within an occupied facility, safety is a paramount concern.

There, fortunately, is a single solution that can help to attain useful goals with the three concerns of safety, fuel cost, and regulatory compliance. Applying an efficiency controller to manage the fuel to air ratio of the combustion system will deliver benefits far in excess of the cost to incorporate the necessary devices. The three basic goals for the fuel air controller are:

• Maximize fuel efficiency
• Minimize regulated emissions
• Maintain safe operating condition

A good portion of all three goals can be accomplished through careful concerted control of combustion air supply and fuel supply. The fuel air ratio must be subject to continual adjustment in response to current air conditions (which can vary on a daily basis) and the level of O2 in the flue gas. Controlling the air fuel ratio supports the following goals:

• Preventing excess fuel vapors from entering the flue and creating an unsafe condition
• Providing the correct amount of air to effectively combust the fuel supplied to the burner
• Preventing excess air flow from reducing net heat transfer to the feedwater
• Maintaining regulated emissions within required limits
• Limiting fuel consumption to the minimum necessary to meet demand

Fireye® is a leading manufacturer of flame safeguard controls and burner management systems for commercial and industrial applications throughout the world. Their products, the first of which was developed in the 1930's, enhance the safety and efficiency of all fuel fired burners.

There are numerous capabilities built in to the company's PPC4000 series of fuel air ratio controllers. Some of the more notable include:

• Precise fuel air ratio attained using parallel control of servos to regulate fuel and air supplies.
• User selected burner profiles
• Alarm contacts
• PID operation
• An array of inputs and outputs to accommodate sensors and devices needed to monitor and control boiler operation
• Compatible with other products that provide additional flame and burner monitoring safety
• Multiple boiler sequencing and cold start thermal shock protection
• On board boiler efficiency calculation
• User interface, optional larger touchscreen interface

Glance through just the first two pages of the document below to get a full description of the capability of this compact and comprehensive controller. You can get more detailed information, or get a professional evaluation of your current system efficiency, by contacting the combustion experts at Classic Controls.

Fuel Air Ratio Controller for Combustion Equipment from Classic Controls, Inc.