Flowserve Valtek FlowTop GS design features include:
- PTFE packing as standard with optional PTFE live loaded to ISO 15848-1.
- A robust bonnet design.
- Seat retainer clamps and the seat ring with no threads for easy removal.
- Standard shutoff that's better than class 4, and no lapping required.
- Zero leakage between the seat and body for less maintenance.
- A stainless steel packing follower.
- Stable post guiding for no galling in the flow area.
- Precisely machined contours on the plug head, providing optional reduced trims.
- Excellent flow characteristics and a high flow globe valve body.
Ultrasonic level transmitters used in dry bulk solids level monitoring are starting to be eclipsed. Radar technology is now so good that it can get a signal and level or distance off of very unreflective media such as polypropylene pellets. Compared to ultrasonics, radar is often more reliable, easier to use, and has lower maintenance requirements. Check out this video from Swanson Flo highlighting the Schneider Electric LR64 and LR65 radar level transmitters.
Mass Flow Measurement of low flow rates, independent of fluid properties.
With the development of the mini CORI-FLOW™ series Bronkhorst achieved a technological breakthrough in Coriolis mass flow measurements and control, by realizing a compact, cost-effective Coriolis Mass Flow Meter/Controller for accurate measurement and control of (very) low flow rates. The unique design of the miniature Coriolis sensor features unsurpassed performance, even with changing operating conditions in pressure, temperature, density, conductivity and viscosity.
Contrary to many other Coriolis flow meters on the market, mini CORI-FLOW™ offers integrated PID control and close-coupled control valves or pumps, thus constituting very compact, cost- and space-saving, precise Coriolis Mass Flow Controllers.
Understanding the Operation of a Steam Filter with Integral Cyclone Separator: An Inside Look at the TLV SF1
There are important factors to consider when defining a thermal mass flowmeter to ensure precision and performance in a gas flow application.
- What is mass flow?
- Why is mass flow important?
- 9 benefits of thermal mass flowmeters
- Importance of proper installation
- Selecting the proper meter and specifications
- Wiring considerations
- Applications to avoid
Constant Seat Contact
Straight Thru Flow
Multiple Orifice Layout
Disc plate overlap
One of the most compelling features of the Paramount™ is its accompanying free software, SageCom™. The SageCom™ software effortlessly connects the Sage Paramount to your PC via a separate mini USB connector1 (cable supplied) located within the back terminal enclosure. This connector is independent of the normal Modbus communication channel allowing validation or reconfigurability of your Paramount, even while it’s standard Modbus output is connected to a network of additional Paramount meters going to the SCADA system.
- Siemens® - Westinghouse®
The TFX Ultra transit time ultrasonic meters from Dynasonics / Badger Meter measure volumetric and energy flow of clean liquids, as well as those with small amounts of suspended solids or aeration, such as surface water or sewage. It works by transmitting ultrasonic waves from outside the pipe into the liquid and propagate upstream and downstream. The flow velocity is determined by the difference in the time of flight and is used to calculate the volumetric flow.
For more information, contact Swanson Flo. Visit their website at https://swansonflo.com or call 800.288.7926.
TLV Consulting and Engineering Services constructed a clear piping system to visualize the complex bi-phase flow within a steam condensate return system to determine if water hammer can be reduced or eliminated in certain less-than-ideal piping configurations. Sometimes, condensate returns are incorrectly considered to be single-phase flow, but in reality the pipe volume can be primarily filled with flash steam. This creates a two-phase flow condition that presents challenges to the desired action of gravity drainage. Elevation changes in 2 phase condensate return lines are particularly prone to creating condensate backup which can lead to damaging water hammer. The damage can be particularly severe due to the magnitude of condensate mass present as the pipe size increases in diameter.
Two scenarios are examined. First is a commonly seen piping installation of flashing condensate with a vertical rise. Wave action can be seen in the top pipe. It is caused by high velocity steam moving over the surface of the liquid gradually forming waves within the pipe. When the wave grows large enough, it momentarily seals the cross section of the pipe, building a pressure wall behind it. This causes a slug of water to be sent down the line, potentially causing serious damage to piping, valves, gaskets or fittings.
Additionally, in a flashing condensate line, the vapor space is occupied by low energy flash steam which can collapse and generate hammer as condensate rushes into fill the void. In this video, the vapor is non-condensing air, so the violent back slam of condensate filling an instantaneous void is eliminated for safety purposes. The second video introduces a non-ideal method incorporating a drop down loop seal (or DDLS)to help mitigate some water hammer effects. The ideal solution is always to incorporate gravity drainage in the flashing condensate return system design. However, when gravity drainage was not accomplished during the original design, the DDLS may reduce hammer and can be evaluated on a case-by-case basis by a professional engineer for suitability and safe operation. Notice the less violent flow draining into the loop where the wave action was occurring in the upper pipe.
This piping configuration minimizes the length of pipe where surging can occur and reduces the mass of potential water slugs. The result can be smoother flow with lessened water hammer. Although the DDLS is demonstrated using a loop with horizontal piping to enable visualization of the vapor/liquid interface promoting upward flow, it is considered that joining two long radius elbows with no horizontal section between them could further reduce hammer.
For more information about proper steam or condensate system design, contact Swanson Flo. Call them at 800-288-7926 or visit their website at https://swansonflo.com.
The Schneider Electric 80 GHz Radar (FMCW) Level Transmitter for liquids in narrow tanks with internal obstructions.This device is a non-contact radar level transmitter that uses FMCW technology. It measures distance, level and volume of liquids and pastes. It has an empty spectrum function that filters false reflections caused by equipment inside the tank.
- LR75 Free Space Radar
- 80 GHz FMCW technology
- cQPSus XP
- 4 -20mA /HART® 7
- 1/2" NPT Cable Entry
- Backlit Display
- (-14.5..580 psig) I (-40 deg F to +302 F) / FKM/FPM Process Seal
- 1-1/2“ DN40 Lens Antenna
- 1-1/2“ NPT ASME Process Connection
- Very low cost of ownership
Radar level transmitters provide non-contact level measurement. All radar level detectors send microwave beams, emitted from a sensor, to the surface of the liquid in a tank. The electromagnetic waves returns back to the sensor after hitting the surface of the fluid. Radar is the preferred technology for level measurement in many of today’s industrial applications. Newer high-frequency technology (80 GHz) offers advantages in certain application to older low (10 GHz) and mid-frequency (24 GHz) technologies. Selecting the best microwave frequency for your application is crucial. In as much, understanding the relationship between frequency and beam angle is very important.
In this video, Jeff Blair, Offer Manager for level products at Schneider Electric, presents the difference in beam angle at various frequencies. He also demonstrates how to use Beam Angle Calculators to determine beam width at various places in a tank or vessel.
For more information about radar level instrumentation, contact Swanson Flo. Call them at 800-288-7926 or visit their website at https://swansonflo.com.
Protecting Draft Range Transmitters from Storms and Wind
Normally, you wouldn’t think about an enclosure in the furnace or boiler area on these applications because they are measuring air flow or air pressure and are not subject to freezing. Pressure measurement in furnace and boiler combustion is critical for safety, efficiency and environmental control.
It doesn’t require heavy wind to cause problems: a 5 – 7 mph wind across the ambient pressure port might cause a 0.1” pressure change, 12 – 15 mph may create a 0.8” change. When the full range is 1 – 2” that can be a 40 – 80% error reading.
Even light wind across the open port can cause 10% error.
For example - in a a draft transmitter with full scale of 1” H2O ...
- 5 – 7 mph wind can cause up to a 10% full scale error.
- 12 – 15 mph wind can cause up to a 75% full scale error.
The pressure range is so small, often just 1 – 2” of H2O or 2 – 4 mm of Hg, that even a light breeze might cause automated dampers to fluctuate or trigger systems to shut down. Using a differential pressure transmitter the reference measurement is vented to atmosphere, where air flowing past the open port creates pressure changes and errors in furnace, heater and boiler combustion box pressure. As part of the Safety Instrumented System these measurement errors can create nuisance maintenance and shutdowns affecting the entire unit.
The O'Brien VIPAK Draft Transmitter enclosure, is a field tested and proven solution addressing the common sources of draft transmitter installation error with:
- Still Air Chamber
- Atmospheric Equalization
- Uniform Capsule Temperature
The O'Brien VIPAK draft range transmitter enclosure atmospherically equalizes the still air chamber for the transmitter and manifold. The pressure inside the enclosure changes at the same rate as the barometric pressure but is unaffected by wind or wind gusts.
The enclosure system also ensures that both sides of the instrument measurement capsule are at the same temperature. Since these instruments are often placed near the furnace, heater or boiler one side can be hotter than the other creating an error in measurement.
A large refinery was experiencing furnace upsets and shutdowns caused by storms and wind in the unit. They installed two O'Brien Draft Transmitter Enclosures on their most trouble prone units as a trial. After a severe storm hit and the units with the O'Brien Draft Transmitter enclosures ran with no problems they installed another 128 protection enclosures. To date there have been no more upsets or shutdowns caused by wind induced measurement errors.
The O'Brien STILL AIR PORT is a critical component of the draft range transmitter solution. It equalizes the still air chamber for the transmitter and manifold, allowing the pressure inside the enclosure to change at the same rate as the barometric pressure and not allowing wind or wind gusts to have any affect.
For help in determining how you can protect your instrumentation from the effects of weather, contact Swanson Flo. Call them at 800-288-7926 or visit their website at https://swansonflo.com.
Swanson Flo Performance supports every process control customer with region-based, full-capability service and repair. Their factory-certified technicians provide you with a complete overhaul and repair of the control valves, actuators, and instrumentation. Equipment is fully disassembled, inspected, cleaned, reassembled, calibrated, and tested to meet factory original standards. Swanson Flo Performance utilizes only factory OEM parts to repair your equipment.
- Commissioning - to ensure that equipment performs to expected specifications.
- Mechanical Inspection - detailed reports on the mechanical health of your valves.
- Valve Repair - returning the customer's valves to "like new” condition.
- Onsite Repair - bringing resources and equipment to the customer's facilities.
- OEM Parts - certified original manufactured parts maintaining highest standards.
- Re-instrumentation - upgrading performance and equipment to meet ever-changing needs.
- Site Surveys - gathering plant data for asset management.
- Training - hands-on technical and practical training custom designed for their customers.
Swanson Flo is a multi-brand factory trained control valve repair center providing factory trained technicians and certified repairs and parts from Foxboro/Schneider Electric and Flowserve Limitorque (notably, Swanson Flo is the only FM approved Limitorque repair facility in the upper-midwest).
For more information, contact Swanson Flo by calling 800-288-7926 or visit their web site at https://swansonflo.com.
It's not unusual for Jordan Valve applications to require a solutions-oriented approach, where in-house engineers and application specialists work closely with the customer to solve a stubborn problem. Whether requiring a unique valve design, or needing special construction materials, Jordan Valve has both the know-how and manufacturing capabilities to meet the requirement.
This guide provides 25 real-world applications where Jordan Valve products are used.
For more information, or if you wish to discuss an application you're working on, contact Swanson Flo. Call them at 800-288-7926 or visit their web site at https://swansonflo.com.
This video demonstrates the removal and installation of the feedback mechanism of the Flowserve Logix 3800 valve positioner.
Make sure the valve is bypassed or in a safe condition. Disconnect power to the positioner. Disconnect air supply to the positioner. Remove the take off arm and follower arm.
Note, it is recommended that when the positioner is removed from the valve, it is taken to a clean work environment for disassembly and reassembly.
Note, the procedure is the same for both intrinsically safe, or explosion-proof, positioners.
Begin by removing the three screws that attach the feedback assembly to the positioner housing. Install the replacement feedback assembly to the positioner housing.
Note, the orientation is irrelevant since the feedback mechanism has a clutch. Torque the screws to 0.9 Newton meters or 8 inch pounds. Next reconnect the positioner follow arm and take off arm to the valve.
For more information, contact Swanson Flo. Visit their web site at https://swansonflo.com, or call them at 800-288-7926.
|Download the Brewery Valve|
Application Guide Here
Many types of valves are commonly used in a brewery to regulate the flow of fluids throughout process pipes in a plant.
One type is the diaphragm valve, in which a soft diaphragm is pushed against a bell-shaped feature using a mechanical screw . This mechanism allows gas or liquid flow to be controlled within the valve’s total variability, but the flow pressure tolerances are fairly tight.
The butterfly valve is the next most commonly used valve in breweries due to its compact design and wide pressure and flow tolerances. It consists of a metal disc which rotates within the body of the valve and closes against a rubber seal. Its flow-through design makes it easy to clean.
The Brewery Valve Application Guide, located on Swanson Flo web site, provides a quick reference on the various processes involved in brewing and what type of valves are used for those processes.
The Valtek VR rotary cylinder actuator is a high pressure, compact actuator with high torque and pneumatic stiffness for excellent throttling capabilities. The standard splined shaft connection eliminates backlash for precise control. This video shows how to change the orientation on a Valtek Rotary Valves including Valdisk, Shearstream and MaxFlo products.
For more infomration on Valtek Control Valves, contact Swanson Flo by calling 800-288-7926 or by visiting https://swansonflo.com.
|Electric Valve Actuator in Service (Limitorque)|
Electric Valve Actuation Advantages
- Electric power is relatively inexpensive, easy to manage, and normally available to most industrial sites. The capital cost of electric actuators is typically cheaper per equivalent unit of torque/thrust output. They’re also cleaner and safer to operate.
- Electric actuators can provide superior positioning accuracy for control or modulating valve functions, which can include provisions for a high degree of process monitoring, data logging and information feedback.
- All necessary control functions are integral to electric actuators, reducing capital costs.
- Electric actuators significantly reduce control wiring costs by enabling distributed control. They simplify control logic by integrating control commands and feedback into customer SCADA or DCS systems. (Traditional electromechanical control systems require a dedicated wire for each command and feedback signal, leading to cable bundles with seven or more cores as minimum for each actuator. By contrast, a typical bus system can use one twisted pair wire in a daisy chain configuration to carry all required input and output signals.)
- As torque and thrust requirements increase, electric actuators weigh less and have smaller footprints compared to pneumatic actuators.
- Electric actuators may be combined with external gearboxes to produce extremely high output thrust and torque values.
Electric Valve Actuation Disadvantages
- With the exception of a few specific configurations, electric actuators can’t guarantee a fail-safe stroke but will “fail in the last position.” (Fail-safe stroke refers to an actuator’s ability to move a valve to a predefined safe position when power fails).
- Electric actuators have more complex and sensitive components than the mechanical parts used in other types of actuators. Electronic technology also requires periodic refreshing to keep pace with component changes and improvements.
- Beyond a certain size/torque range, electric actuators are less cost-effective and generally have limitations in operating speed when compared to pneumatic and hydraulic actuators.
- In hazardous areas with potential exposure to explosive process media, electric actuators require more specific certifications and construction features to be considered safe for use.
Recommended applications for electric actuation.
Electric actuation is the first choice for most oil and gas applications. They’re ideal for general process valve automation, non-critical applications, and light-duty modulating applications (generally up to 1200 starts per hour), although some can modulate continuously up to 3600 starts per hour.
For more information about electric valve actuation, contact Swanson Flo. Call them at 800-288-7926 or visit their web site at https://swansonflo.com.
Reprinted with permission from Flowserve Limitorque.