Tighter Boiler Emissions Control with Pneumatic Vane Actuator Damper Drives

pneumatic damper drive
Pneumatic rotary vane damper drive.
In order to ensure efficient, reliable, and safe boiler operation, it is critical to accurately control the flow of the boiler's combustion air and flue gas. Poor control of airflow results in inefficient burning (wasting money), erratic cycling, flame-outs and even the possibility of toxic and hazardous emissions. In order to reduce the likelihood  of these situations, accurate airflow control is critical.

In the United States, the Environmental Protection Agency's introduction of the MACT (Boiler Maximum Achievable Control Technology) Rule requires operators to institute maintenance procedures annually or bi-annually in an effort to force plant operators toward compliance. This strict new legislation has a large impact on how companies' control their emissions from industrial boilers, process heating systems and furnaces. 

pneumatic damper drive uses in plants
Typical drive applications and designs
(click for larger picture).
Industrial boilers use dampers and louvers to control the quantity of air admitted to the furnace. Tighter boiler draft control significantly improves combustion. Any improvement in controlling the position of the dampers and increasing the positioning speed improves boiler efficiency. Damper operation needs to be precise and fast for the accurate control. 

There are an estimated 15,000 boilers, furnaces, and process heaters running in the USA, and many are using an outdated primary component to control their lovers and dampers - the electric damper drive. Electric damper drives utilize motors and gear-boxes to move and position flue gas and combustion gas dampers. However, because of the inherent movement (sometimes referred to as hysteresis) between gears, linkages and other assorted mechanisms, these drives may not provide the accuracy, power, or signal response time required for optimum control.

Enter the pneumatic vane actuator damper drive. Pneumatic vane actuator drives are a newer, but still proven, method to provide high speed, accurate, and continuous modulation of air dampers for precise control. Replacing outdated electric damper drives with fast acting, pneumatic rotary vane damper drives offers measurable improvement to burner efficiency and cleaner emissions.

Switching out electric drives with their better performing pneumatic cousins is fairly simple. Downtime is not an issue.  The old drive footprint, lever positions, connecting rods, and operational envelop are considered with every design. Any existing mechanical or electrical connection placements are matched. Since the new drive mates to all existing mounting and connections, and the envelope size is typically smaller, installing the pneumatic drive is usually a matter of pulling the old one out, and dropping the new one in.

At the heart of the pneumatic damper drive is the stalwart pneumatic rotary vane actuator. With hundreds of thousands of these devices operating in the toughest process applications around the world, their reputation is well earned. These actuators are known for their incredibly long life, ability to withstand very high cycle rates, and smooth “bump-less” control. They are also designed to handle high ambient temperatures, high vibration, and very dusty environments, typical of where boiler dampers are located. Additionally, rotary vane actuators are available with direct mount pneumatic and electro-pneumatic positioners, manual overrides, network communication modules, limit switches, and spring modules. The direct mount design eliminates external brackets and coupling, and keeps the overall package size small.

Pneumatic vane actuator damper drives are a significant improvement over traditional electric damper drives. They provide fast response to input signal changes, very accurate positioning, a reduction in plant air consumption, and they lower fuel consumption. Engineers tasked with increasingly rigorous boiler emissions requirements must consider pneumatic vane style drives as a compelling alternative to the electric drive. They truly are an example of better form, fit, and function.

Bulk Material Handling Diverter Valves Choose Vane Actuators for Reliability and Compactness

Kinetrol diverter valve
2-Way Diverter with
Kinetrol Actuator
A diverter valve is used in a pneumatic conveying system to “divert” material being conveyed to two or more different destination locations.  Because diverter valves are directly in the flow of bulk material on a pneumatic conveying system, operating conditions for the valve and actuator can be severe. Requirements vary from application to application, but in general diverter valves must be constructed from very durable materials and with few moving parts. Same goes for the pneumatic actuator driving the valve. Because of the materials and conditions, the actuator must be able to endure high cycle rates, dusty atmospheres, and high vibration over long periods of time.

Kinetrol diverter valve
Dense Phase 2- Way Diverter
with Kinetrol Actuator
Pneumatic actuators are frequently used on conveying systems because they are operated pneumatically and eliminate additional installation and safety concerns required by electric operators. The actuator is used to rotate a stainless steel shaft and arm to either the bypass (straight through), or divert (90 Deg.) position.

The durability of the vane type pneumatic actuator, along with its compact design and simplicity, continues to win over the hearts and minds of diverter valve manufacturers.   The vane actuator's reliability is attributed to one significant advantage over rack & pinion, piston, and scotch yoke actuators - the vane actuator has only one moving part.

Not all vane actuators are created equal however. Some manufactures have compromised their performance and reliability by taking design short-cuts, such as eliminating high quality coatings, and eliminating important features, such as high tolerance machining and stainless steel internals.

Kinetrol diverter valve
Stainless Steel 2-Way Diverter
with Kinetrol Actuator
This isn't the case with the manufacturer Kinetrol however. Kinetrol invented the original pneumatic vane actuator back in the 1950's and has since continually improved its design. Understanding the value of the single moving part concept, Kinetrol has engineered quality into each component of the actuator. This attention to engineering detail has established Kinetrol vane actuators as the pneumatic actuator of choice for bulk material systems and diverter valve manufacturers.

Spring Return "Deadman" Handles: Certainty of Valve Position When Unattended

Spring Return Handle
Spring Return Handle on Ball Valve
If you want to operate a valve manually, but maintain the advantage of the fail-safe spring’s certainty of position when unattended, check out the Kinetrol's spring return handle.

This uniquely designed manual operator offers some compelling advantages in automating valves and provides additional levels of plant safety.

Spring return (also known as "deadman") handles will help you meet individual plant safety requirements as well as and OSHA requirements for valves that must return to the closed position after operation. Different from lever handle or gear operators which will leave the vale in the last position, the spring return deadman device ensures that the handle will always be driven to its original starting position by the associated spring.

Unique Features Include:
  • Manual unit cannot be left in the wrong position
  • Reliable torque delivery for valve reseat
  • Fire fail-safe option, for fail-safe manual operation of valves
  • Clockwise or counter clockwise 90° spring action 
  • Spring housing sealed to IP65 to protect from internal corrosion
  • ISO5211 female drive & ATEX Category 2 approved options available forKinetrol actuators 02, 03, 05 and 07

Troubleshooting & Set Up Guide for Kinetrol EL Positioners

Kinetrol EL Positioner
Kinetrol EL Positioner
The Kinetrol EL Positioner operates by modulating the percent opening / closing of a valve or damper by converting an electrical signal to a pneumatic output, which in turn, regulates the position of a pneumatic actuator.

In terms of response and accuracy, the EL Positioner is arguably one of the best electro-pneumatic positioners in the world,  particularly when used in tandem with a Kinetrol vane actuator.

The document below provides an illustrated troubleshooting and set-up guide for the EL electro-pneumatic positioner and is available to support the all the units installed in chemical, petro-chemical, water treatment, power generation and other applications across the world.

Superpulsator Vent Valve Operation Demands Performance

Kinetrol on superpulsator
Kinetrol on Superpulsator Vent Valve
Water treatment involves multiple physical, chemical and biological processes that transform raw water into drinking water. Clarification, which includes the removal of excessive color or turbidity of raw water to produces clear uncolored water, is one of these processes. Clarification typically includes coagulation, flocculation and settling.

A Superpulsator unit is a simple type of clarification system utilizing an upward flow tank and inclined plate settling.  It operates by varying the level of the flocculation tank through the use of a vacuum pump and vent valve. The pump creates a vacuum in the tank causing the water level to rise. A vent valve then opens to atmosphere causing the water level to fall. The valve is then closed, and the process repeats itself continuously. The actuated vent valve is controlled by a timer set to pre-defined vacuum and vent cycles.

A Kinetrol USA Distributor was called in to assist in a water treatment plant’s upgrade to superpulsators. After reviewing the application, the Distributor specified 4" plug valves actuated with Kinetrol vane actuators and Kinetrol ULS limit switches. The plant’s original system was using double acting, air cylinder operated valves. These had to be replaced because they wouldn't be able to withstand the superpulsator's constant vacuum and venting cycling. The more robust Kinetrol actuator, capable of very high cycle rates, was clearly the best choice.

After installation and startup, and several years in operation, the Kinetrol actuators are performing flawlessly and are providing maintenance-free operation.

Vane Actuator Compact Size, Power, and Smooth Control Perfect for Ergo Arms

An industrial ergonomic manipulator (also know as ergo arms, articulating arms, articulating jib arms, and lift assist devices) are lifting assistance devices used to help workers lift, maneuver, and place items that are impossible to safely lift themselves. Factors that usually determine the need for an “ergo arm” are item size, weight, or temperature. Different from vertical lifting equipment such as cranes and hoists, ergonomic manipulators can control the pitch, roll or spin of an items for proper placement.

The Kinetrol vane actuator is an ideal pneumatic drive for industrial ergonomic manipulators because of their compact size, powerful torque output, and exceptionally smooth control.



For more information contact Kinetrol USA
1085 Ohio Drive
Plano, Texas 75093

(972) 447-9443 phone
(972) 447-9720 fax
sales@kinetrolusa.com

20 Innovative & Elegant Engineering Improvements for Pneumatic Valve Positioners

Kinetrol AP Pneumatic Positioner
Kinetrol AP Pneumatic Positioner
on top of a Kinetrol Vane Actuator
A valve positioner is an instrument attached to a valve to ensure the valve is at a desired position of opening or closing as per the control signal. Positioners sense the valve position through a position feedback mechanism connected to valve stem. There are many types of valve positioners. Some utilizing pneumatic signals (referred to as pneumatic positioners) and some using electrical current as the signal (referred to as electro-pneumatic positioners). Many manufacturers stake claim over design and performance enhancements, but one pneumatic positioner stands out because of its elegant design. The Kinetrol AP Positioner.

The AP pneumatic positioner combines the smoothness and accuracy of Kinetrol’s proven mechanical positioner technology (using a proportional spool valve driven by a simple, accurate and robust force balance mechanism) with new advances in convenience and simplicity of use, derived from the unique innovative design both of the internal mechanism and of the overall package. 

The result is a positioner with unparalleled performance and real industrial robustness, sweet and easy to calibrate and characterize, and adaptable to the whole range of applications with its unbeatable list of options – high flow valves, direct mount or industry standard discrete mount housings, 4-20mA angle retransmit, limit switches, Clear Cone position monitor and I/P convertors (either simple or with various explosion proof options).

20 Innovative & Elegant Engineering Improvements
  1. ENCLOSURE – robust die-cast metal with tough corrosion-resistant epoxy coating and O-ring sealing. Layout gives easy access to all adjustments on removal of lid.
  2. LID – shown with optional Clear Cone sealed angle monitor. Epoxy coated die–cast metal held on by four captive screws gives quick access to the interior.
  3. CARRIER PLATE ASSEMBLIES – integrated assemblies carrying the feedback shaft and cam plus angle retransmit drive and pot (when specified). Easily removed for conversion or maintenance.
  4. FEEDBACK POT DRIVE – zero backlash, proven trouble free for life.
  5. OPTIONAL ANGLE RETRANSMIT CIRCUIT – externally powered (8–30v DC) linear 4-20mA feedback, rangable down to 30ยบ for full 4-20mA span. Easily accessible zero and span adjustment.
  6. RETRANSMIT POT – high quality conductive plastic servo–type with ball bearings. Proven long life and high precision.
  7. ACTUATOR INTERFACE – options include NAMUR standard (shown), Kinetrol male square or Kinetrol direct mount female square. Quick external conversion allows bracket mounting to any rotary or linear actuator.
  8. INTERCHANGEABLE PORT PLATES – easily convertible for different flowrate options.
  9. INTERNAL ANGLE SCALE – with adjustable indicator for easy field calibration.
  10. EXHAUST SNUBBER SCREWS – allow travel speed reduction down to 1/ 3 x full speed, independently in each direction, by screwing in to restrict exhaust air flow.
  11. GAUGE PORT – as standard.
  12. SPAN ADJUSTMENT – quick and easy thumbwheel setting with slotted locking screw.
  13. ZERO ADJUSTMENT – quick and easy thumbwheel setting with slotted locking screw.
  14. STRAIGHT–LINE MECHANISM – unique geometry allows cw/ccw change over by simple cam inversion.
  15. FEEDBACK CAM – quick and easy reversal ( for rotational sense handing) or replacement (to change the response characteristic) of the cam is facilitated by a spring loaded retention device.
  16. FEEDBACK SHAFT – innovative collet connection permits quick– fit/release of the actuator interface and eliminates backlash.
  17. 3–TERMINAL DIN PLUG – retrofit-able option available for 4-20mA angle retransmit. Allows fully external connection with rapid connect/disconnect capability.
  18. AIRFLOW CHANGEOVER BLOCK – allows selection of direction in which positioner moves (for direct mount models).
  19. SPOOL VALVE – highly reliable, all metal, 5 port proportional valve controls the air flow. Three versions, with different flowrates, are easily interchangeable.
  20. UNIT IDENTIFICATION – each positioner carries a unique serial number and is CE marked.