Industrial Control Valves in New England


ARCA Flow Control is a global control valve manufacturer that serves the chemical, petrochemical, power, food and beverage, and other industrial markets. Their valve offering includes nominal diameters up to 32" rated to ANSI 2500 class for high-pressure applications, and temperatures ranging from cryogenic to 1100° F are manufactured and supplied by nine plants worldwide. A high degree of vertical integration makes the manufacturing process flexible and ensures a high capacity for delivery.

  • Sizes 1/2” to 32” 
  • Globe, Double Seated, Three-Way, Hygienic,  Angle
  • ANSI class 300, 600, 900, 1500, 2500
  • Temperatures –320° F (Cryogenic) to 1100° F
  • Hart, Profibus, Foundation Field Bus

Piping Specialties / PSI Controls
800-223-1468

Habonim Special Use Valves

Habonim Special Use Valves

Habonim develops, designs, manufactures, tests, supplies and service ball valves for the global market and is globally leading in some segments of ball valve usage. With high-end products, uncompromised quality, serviceability and innovation to create solutions for the most demanding applications Habonim has gained a long track record of proven success. Habonim’s ball valve product line supports extreme cold to extreme heat systems, industrial use up to very high pressures, and meets the specific needs and regulations of a wide range of industries.

HABONIM offers ball valves in a variety of design styles and technologies that is most effectively supports a wide range of applications and use cases. We offer Floating ball style valves and Trunnion-mounted ball style valves with several construction methods.

DOWNLOAD THE HABONIM SPECIAL USE VALVE CATALOG HERE

For more information about Habonim products in New England contact:

Piping Specialties / PSI Controls
800-223-1468

Protective Coating Options for the Series 3R Rack and Pinion Actuators


The standard coating option for the Series 3R rack and pinion actuator is a hard anodized coating. The body is coated inside and out with epoxy-coated end caps. The carbon steel pinions are zinc plated, and all the fasteners are stainless steel. This standard coating is suitable for most general and industrial applications.

Electroless nickel plating is another actuator coating option. This coating applies externally and internally. Electroless nickel coating provides excellent corrosion resistance for acid mines or caustic wash downs with sodium or potassium hydroxide.

Another coating option is PTFE infusion, which is also applied internally. This coating is excellent in seawater applications as it can withstand an ASTM B117 salt fog spray test. PTFE infusion is also ideal for caustic washdowns with sodium or potassium hydroxide.

A marine epoxy coating option for the actuator body may also be added to other items, such as valves and gearboxes. This coating is an excellent preventer of corrosion in marine service environments and is available in custom paint colors to meet your specifications.

Another option is not a coating, but instead, the series S2 all stainless steel rack and pinion actuator. This actuator has an electro-polished finish and is an excellent economical solution to harsh chemical environments. It is ideal for the chemical-resistant requirements of the pharmaceutical, food and beverage, pulp and paper, and petrochemical industries. Series S2 actuators can be coupled directly to stainless steel valves and accessories to create a complete stainless steel automated package.

For more information about the best coating application for your rack and pinion actuator, contact Piping Specialties.

Piping Specialties / PSI Controls
800-223-1468

SIL Level Switch Is Specifically Designed for Floating Roof Tanks

Capacitance Probe Level Switch Is Specifically Designed for Floating Roof Tanks

One of the most difficult and critical applications is measuring the high alarm or potential overfill condition on a floating roof tank containing liquid petroleum products such as crude oil or refined products such as fuel. It normally is comprised of a cylindrical steel tank equipped with an internal or external floating roof, that floats on the surface of the stored liquid. Floating roof tank systems are especially beneficial in eliminating the evaporative losses of the liquids. As opposed to a fixed roof tank there is no vapor space in the tank. This helps to reduce risk in highly explosive vapor environments. This is an extremely high cost of failure application, and one in which only the safest and most trusted products are accepted.

Safe operation of the tank farm relies on critical real time continuous level measurements of the liquids in the tank, as well as detecting when a high level condition exists. Products used in this application are typically required to meet the API 2350 Overfill Protection Standards, as well as SIL Safety Integrity Level performance standards to IEC 61508.

The challenges to reliably detect a high level condition on a floating roof tank are long sensor length requirements, and the variability of what is being measured. The floating roof may be dry in which case you need to detect the position of the physical metal roof. Or there may be a few inches of rain water or petroleum liquids on the roof. Measuring instruments need to determine very accurately, usually within a few millimeters, when the position of the floating roof has reached

The Drexelbrook SIL IntelliPoint capacitance probe level switch is specifically designed for Floating Roof Tanks (internal and external roofs) with a flexible brass level sensing probe. The level probe sensing element is field adjustable for lengths up to 15' (4.6 m). Electronics are designed to meet API 2350 Overfill Protection.

This level measurement system is specifically designed for spill prevention in floating roof tanks (internal and external roofs) using the IntelliPoint level switch with a flexible level sensing element for ease of installation (model 700-0005-595).

This level measurement system meets API 2350 regulations. It is ideal for use in safety related systems with requirements for functional safety for SIL2 in accordance to IEC61508-2, ed2, 2010 (Exida).

To prevent false alarms this level measurement system automatically recognizes and ignores coatings and is supplied with continuous self-test monitors circuits and sensing elements to detect faults.

A dual compartment housing separates the customer wiring from the sensing element and operating circuits. The encapsulated power supply/terminal block design eliminates the possibility of damage caused by moisture in the conduit.

The Floating Roof Tanks system comes with field adjustable lengths from 1' to 15' (0.3 to 4.6 m).

The system is based on our Manual Certify principle which allows the entire system to be manually tested without removing the sensor from the tank. The Manual Certify test checks that the Auto Verify circuits are operating and confirms the probe and cables are properly connected. Furthermore, the Manual Certify feature allows the electronics to sense changes in the probe that simulate contact with the media or floating roof. This provides the user with a method to ensure working performance without having to climb the tank.

No calibration or setpoint adjustments are required.

Key Features
  • Loop or Line Powered
  • Wetted Parts: 316SS 3/4" NPT Mounting, 3/16" FEP insulated flexible and adjustable cable, non-sparking brass sensor.
  • Automatic and local or remote manual test functions ensure proper system operation.
  • One system fits most floating roof tank applications, reducing field spans
  • Adjustable insertion lengths up to 15' (4,6m)
  • Excellent trip point accuracy over a wide range of medias and tank roof
Piping Specialties / PSI Controls
800-223-1468

High-performance and Resilient Seated Butterfly Valves for Commercial and Industrial Applications

High-performance and Resilient Seated Butterfly Valves

A butterfly valve has a disc that is in the fluid flow path. In the most common style of butterfly valve, the disc revolves around a central axis, the stem, via a 90-degree arc from parallel to the flow direction (open) to perpendicular to the flow direction (closed).  Butterfly valves have a straightforward design with few moving components, making them simple to repair and maintain. The valve has four main parts: the body, the stem, the disk, and the seat. 


The butterfly disk is always in the flow path, but its thin profile has little effect on flow. Butterfly valves are popular because they provide tight shut-off, are available in various materials and sizes, and may be easily automated using a variety of quarter-turn electric and pneumatic actuators. 


You'll find butterfly valves in a wide range of industrial applications, from managing the flow of water to handling far more hazardous industrial fluids. Many industries use butterfly valves, including water treatment, chemical processing, pulp, paper manufacturing, food processing, power generation, etc. 


There are two primary classifications of butterfly valves:


  1. High-performance butterfly valves (HPBV)
  2. Resilient seated butterfly valves

 

High-performance butterfly valves include carbon or stainless steel bodies with Teflon seats and can withstand more significant pressures and temperatures.  Resilient seated valves usually feature ductile iron or aluminum bodies and operate at lower pressures and temperatures.


Butterfly valve bodies are available in two mounting styles: lug and wafer. Lug bodies include cast-in lugs with bolt hole designs that match pipe flanges. A wafer body valve does not have a mounting hole pattern, and mounting is facilitated by sandwiching the valve between two pipe flanges, with mounting bolts around the valve body. Wafer-style bodies are less costly. An advantage to lug body valves is their use as a dead-end valve, whereas wafer valves are unsuitable for this service.


The stem is a one or two-piece shaft that keeps the disk in place and provides the rotational torque that allows the disk to open and shut. The stem of resilient seated valves has protection from the process media by packing rings, allowing for a more cost-effective solution to regulate the valve's application to various potentially corrosive media. High-performance butterfly valve stems come into touch with process media and must be media suitable. 


The disk is the valve component that comes into direct contact with the process medium and regulates flow. Disks are available in various materials and optionally come with corrosion-resistant polymer coatings. Some butterfly valves include contoured disks that are carefully aligned with the stem to increase flow control, modify torque needs, or give the valve a longer life. 


A resilient seated valve closes via an "interference fit," which means the disk forces itself into the seat. The seat is the soft substance (polymer elastomer) including Buna-N and Nitrile, and should be specified depending on the process medium involved.


High-performance butterfly valves use an interference fit as well, but with significantly tighter tolerances, but also ensure tight seating with assistance from upstream pressure. PTFE or RTFE are the most often used materials for HPBV seats. Metal seats on HPBVs accommodate more significant pressure and temperature applications. 


Like other valves, butterfly valves have applications in which they outperform. To apply the optimum solution to your flow control applications, combine your process knowledge with your product knowledge with the application skills of a proven valve engineering professional. Contact Piping Specialties, Inc. for more information about industrial valves. Visit https://psi-team.com or call 800-223-1468.