Showing posts with label safety. Show all posts
Showing posts with label safety. Show all posts

Benchmarking Energy Consumption of Equipment and Facilities

Benchmarking Energy Consumption

Note: The following post discusses energy consumption and benchmarking in general. As you'll see, the most significant component of plant energy consumption is typically process heating/steam consumption. Mead O'Brien, along with products and technologies from Armstrong International, Shannon Global Energy Solutions and Everactive, has the people, equipment, and experience to assist you in developing a strategy to significantly improve your plant steam and hot water systems conservation efforts. Contact Mead O'Brien for more information.


While each manufacturing facility and production process is unique, every industry uses similar equipment. Most facilities' major energy consumers concentrate energy use on a few basic systems: lighting, process heating, steam generation, compressed air, pumping, and fans. Making a list of Significant Energy Users (SEUs) can assist in focusing efforts on projects that will result in the most significant savings. 


To create a list of SEUs, group equipment by location, type, or process, and record information such as estimated operating hours, rated power, and loading. The diagram below depicts the various systems and equipment that consume energy in a typical plant and the differences in potential energy savings between facility systems. 


Plant Energy Consumers

The 80/20 rule applies here. Eighty percent of energy consumption is accounted for by 20 percent of the equipment or processes. Only a few energy systems typically consume most of the energy at a site. Consider concentrating your efforts on these systems.

 

Comparing facilities, processes, or equipment over time is the baseline. 
Benchmarking: Comparing the energy performance of facilities, techniques, or equipment over time to similar internal or external facilities. 


Benchmarking the performance of your SEUs is a great place to start on your energy-saving journey. If you work in a multi-facility organization, you can use benchmarking to compare facilities and combine the results to identify best practices. Even if you only have one facility, benchmarking against similar equipment within your facility allows you to identify areas for improvement and best practices of your own. 


Benchmarking can include practices such as understanding, comparing, and optimizing maintenance measures and equipment energy use (such as boiler blowdown or compressed air leaks). 


Benchmarking your energy data allows manufacturers to compare their equipment, process, or facility to others and identify potential energy savings opportunities. Benchmarking understands how you currently operate (for example, how much energy your plant or a single SEU uses) and compares that to similar operations. 


Benchmarking internally (comparing similar steam boilers in the same facility), company-wide (comparing air compressors in different facilities), industry-wide (information from surveys, trade groups, etc.), or all three. Benchmarking can be intimidating for many small manufacturers because, unlike your larger industry peers, you don't have a large pool of plants, manufacturing lines, and heavy equipment for a fair comparison. However, even the smallest manufacturers must compare their major energy users to best practices. 


Energy savings occur in systems such as compressed air, steam generation/distribution, or process heating. Determine the types of energy resources used by each piece of machinery or process. A paint booth, for example, will use compressed air to spray the paint, exhaust fans, and process heating to cure the painted product. This activity will aid in the identification of individual energy-consuming systems and their supporting equipment. 


Small or medium-sized manufacturers may lack a large energy team, a large budget, or the resources to conduct large-scale energy audits or significant equipment overhauls. Turning to outside experts can be extremely helpful provide proven expertise all for reasonable costs.


Call a Mead O'Brien steam/hot water efficiency expert to help you establish your energy conservation plan.


Mead O'Brien
(800) 874-9655

A Commitment to Sustainability Starts With A Strong Value System and A Principled Approach to Doing Business

Commitment to Sustainability

Mead O'Brien Mission

"In partnership with our employees and principals, we provide product-based solutions and service to people dedicated to improving energy efficiency, improving production, and providing a safe working environment."

Mead O'Brien's sustainability efforts focus on three pillars - energy efficiency, improved production, and safe working environments - and the critical importance they present to our customer base. Mead O'Brien is fortunate to have partners and products that provide our client base with technologies and solutions that make meaningful contributions to a more sustainable future. We have strong relationships with world-leading decarbonization technology innovators like Armstrong International, Neles, Ashcroft, Parker, Shannon Global Energy Solutions, Everactive, and many others. These relationships assist us in making industrial plants more energy-efficient while improving throughput, reliability, product quality, and personal safety related to factory production and plant processes.
 

Carbon footprint reduction, increased throughput, and safety is our goal. 

Mead O'Brien and our partners help in decarbonization and sustainability through:
  • Benchmarking Energy Consumption
  • Analytical Measurements for Steam or Hot Water Generation
  • Use of Instrumentation to Increase Throughput
  • Use of Instrumentation to Increase Safety
  • Control Environmental Leakage Rates Through Valves
  • Optimize Valve Selection & Automation for Reliability
  • Applications of Appropriate Safety Approvals Such as FM, API, NFPA, ANSI
  • Valve Assembly and Testing Documentation
For more information about the intersection of industrial plant automation, sustainability and decarbonization, contact Mead O'Brien. Call (800) 874-9655 or visit https://meadobrien.com.

Thermal Acoustic Blanket Insulation Solutions for the Power Generation Industry


Shannon Global Energy Solutions engineers and manufactures reusable blanket insulation and shields for manufacturing plants, power generation facilities, universities, hospitals, oil and gas facilities, and government buildings for energy conservation, thermal efficiency, noise reduction, and safety.

SOLUTIONS FOR THE POWER GENERATION INDUSTRY

Pre-engineered thermal acoustical insulation system designed to minimize insulation maintenance, improve engine performance and improve the surrounding work environment.

Eliminates the problems associated with conventional cement block insulation in which heat is readily conducted through the solid parts of the walls such as block webs and joints.

Removable and reusable. Blanket pieces can be installed and removed using in-house personnel. By following an installation assembly drawing, blanket pieces can be installed in tag number sequence.

Custom fit, through CAD/CNC technology allowing versatility in equipment coverage. Varying blanket designs will accommodate operating temperatures to 1500°F (815°C). Our exact fit approach assures a high quality reusable system.

Many Products / Many Solutions which are application specific to meet the exact requirement. Shannon's library of proven design specifications are ASTM / ISO and UL tested to meet industry standards, assuring quality and performance. Each blanket specification will accommodate Thermal, Acoustic and Safety performance unmatched in the industry to assure a 15 year service life.

For more information, contact Mead O'Brien. Call (800) 874-9655 or visit https://meadobrien.com.

Replace Existing Valves or Steam Traps Quickly With Armstrong's Patented, 10-in-1 TVS 6000UD

Upgrade to the flanged version of Armstrong's compact, Double-Isolation-and-Bleed Trap Valve Station, and you can replace any existing flanged steam trap, valve, or strainer quickly without any pipework modifications. Replacing a complete welded or threaded set of ancillaries requires only four welds or threads with the SW / BW or NPT / BSPT versions.

A safer way to prevent burns during steam trap replacement—with no need to shut down the system.

Single Isolation valves and standard double-block-and-bleed configurations allow operators to close just one of the two isolation valves, resulting in a severe accident. This mistake is impossible with Armstrong's unique, Double-Isolation-and-Bleed Trap Valve Station because both isolation valves operate simultaneously.

Save design, procurement, and installation costs with Armstrong's compact, 10-in-1 TVS 6000UD.

Armstrong's  Double-Isolation-and-Bleed Trap Valve Station contains eight high-quality valves with one strainer and one two-bolt universal connector—all in a single unit. There is no need to design, purchase, store, and install ten separate components with Armstrong's Trap Valve Station, making it the most cost-effective solution on the market to eliminate risks associated with replacing steam traps.

Features of TVS 6000UD include:

  • Error-proof double-isolation and bleed design
  • Allows for optimal energy efficiency through steam trap replacement with no system shut-down
  • PN40 has a standard steam trap face-to-face (DN15 and DN20 are 150 mm and DN25 is 160 mm)
  • Custom footprints for existing installations available upon request
  • Available for all steam trap technologies with universal two-bolt connector
  • Streamlined mounting and fewer weld points
  • 3-year warranty and repairable piston valve technology

In Missouri, Kansas, Southern Illinois, and Western Kentucky contact Mead O'Brien. Call them at (800) 892-2769 or visit their website at https://meadobrien.com.

Lead-Free, Regulation Compliant Water Valves from ASCO and Mead O'Brien

Mead O'Brien ASCO Lead-free valves

Lead is extremely toxic. Tight US safety regulations affect manufacturers of products such as drinking water fountains, reverse osmosis systems, coffee machines. and commercial kitchen equipment. A lead-free system cannot contain soldering flux with greater than 0.2% lead content, or more than a weighted average of 0.25% lead in the wetted surfaces of pipes, pipe fittings, plumbing fittings, and fixtures. Under the law, lead free is a cumulative concept. Let's take an example. A manufacturer who makes dishwashers performs the lead content calculation, averaging all of the models relevant components. A brass valve has 2.5% lead content in the brass parts, well over the 0.25% limit. But the small wetted surface area of the valve is outweighed by the large wetted surface of the stainless steel tank with zero lead content. No design changes are needed to comply with the law.

Considerations for Solenoid Valve Selection

  • Brass can have 2.5% lead content, so you must do a calculation to ensure compliance.
  • Lead-free brass products are now available.
  • Composite and plastic components are lead free.
  • Stainless steel is lead free, but it remains expensive.
  • NSF approved valves are often the preferred choice and may even be mandated in the future

ASCO Lead-Free Valve Solutions

ASCO Series 212 Composite Valves - These composite valves are designed for use in potable water applications and come with NSF certifications. Installation is made easy through the FasN system, with multiple end connector options. Download the Series 212 Brochure for more information.

ASCO Series 210 Solenoid Valves - ASCO has introduced new lead-free brass solenoid valves to the market that are aimed at providing a safer alternative to standard brass valves. The new products meet the EPA’s Safe Drinking Water Act Section 1417 low lead requirements. 

DOWNLOAD THE ASCO LEAD-FREE SOLUTIONS CATALOG, THE SERIES 212 CUT-SHEET, AND THE SERIES 210 CUT-SHEET FROM THIS MEAD O'BRIEN WEB PAGE

For more information about ASCO products, contact Mead O'Brien. Call them at (800) 892-2769 or visit their website at https://meadobrien.com.

Flowserve Limitorque Actuators: General Safety Precautions and Practices

Limitorque actuator
Limitorque multi-turn actuator.
The following are general guidelines for safely operating Limitorque actuators. This post is intended to supplement Flowserve / Limitorque's ongoing efforts to provide information on the safe and proper use of electric valve actuators on industrial globe, gate, ball, butterfly and plug valves.  It is critically important to always refer to the installation & maintenance manual before applying, installing and servicing Limitorque actuators. If unsure about any of the recommended safety or installation procedures, contact a factory authorized technician before going any further.

More than 1 million Limitorque actuators have been installed around the world, and some have been in operation for more than 50 years. The ruggedness and reliability of Limitorque electric actuators are among the primary reasons that customers continue to select Limitorque products.

Actuators requiring 90° of rotation to operate are necessary for quarter-turn valves such as ball, butterfly, plug and dampers, and rotary control valves. These types of Limitorque electric actuators are available for operations such as open-close, modulating, network and rotary service.

Multi-turn actuators are required to operate various types of rising stem valves such as gate, slide-gates, globe, check and linear control valves. These types of Limitorque electric actuators are available for operations such as open-close, modulating, network and linear service.

General Safety Precautions
  1. Warning: Read the Installation and Maintenance Manual carefully and completely before attempting to install, operate, or troubleshoot the Limitorque actuator.
  2. Warning: Be aware of electrical hazards. Turn off incoming power before working on the actuator and before opening the switch compartment.
  3. Warning: Potential HIGH PRESSURE vessel — be aware of high-pressure hazards associated with the attached valve or other actuated device when installing or performing maintenance on the actuator. Do not remove the actuator mounting bolts from the valve or actuated device unless the valve or device stem is secured or there is no pressure in the line.
  4. Warning: For maintenance and/or disassembly of the actuator while installed on the valve, ensure that the actuator is not under thrust or torque load. If the valve must be left in service, the valve stem must be locked in such a way as to prevent any movement of the valve stem.
  5. Warning: Do not attempt to remove the spring cartridge cap, housing cover, or stem nut locknut from the actuator while the valve or actuated device is under load.
  6. Warning: Do not manually operate the actuator with devices other than the installed handwheel and declutch lever. Using force beyond the ratings of the actuator and/or using additive force devices such as cheater bars, wheel wrenches, pipe wrenches, or other devices on the actuator handwheel or declutch lever may cause serious personal injury and/or damage to the actuator and valve.
  7. Warning: Do not exceed any design limitations or make modifications to this equipment without first consulting Limitorque.
  8. Warning: Actuators equipped with electrical devices (motors, controls) requiring field wiring must be wired and checked for proper operation by a qualified tradesman.
  9. Warning: Use of the product must be suspended any time it fails to operate properly.
  10. Caution: Do not use oversized motor overload heaters. Instead, look for the cause of the overload.
  11. Caution: Do not operate the valve under motor operation without first setting or checking the limit switch setting and motor direction.
  12. Caution: Do not force the declutch lever into the motor operation position. The lever returns to this position automatically when the motor is energized.
  13. Caution: Do not depress the declutch lever during motor operation to stop valve travel.
  14. Caution: Do not use replacement parts that are not genuine Flowserve Limitorque parts, as serious personal injury and/or damage to the actuator and valve may result.
  15. Caution: Do not lift actuator/gearbox or actuator/valve combinations with only the eye bolts in the SMB actuator. These eye bolts are designed for lifting the SMB actuator only.
General Safety Practices

The following check points should be performed to maintain safe operation of the actuator:
  1. Eye bolts in SMB and SB actuators are designed for lifting only the actuator and not associated gearboxes or valves.
  2. Mount the actuator with the motor in a horizontal plane, if possible.
  3. Keep the switch compartment clean and dry.
  4. Keep the valve stem clean and lubricated.
  5. Set up a periodic operating schedule for infrequently used valves.
  6. Verify all actuator wiring is in accordance with the applicable wiring diagram.
  7. Carefully check for correct motor rotation direction. If the valve closes when open button is pushed, the motor leads may have to be reversed.
  8. Verify the stem nut is secured tightly by the locknut and that the top thread of the locknut is crimped or staked in two places.
  9. Use a protective stem cover. Check valve stem travel and clearance before mounting covers on rising stem valves.

Authorized Blue Ribbon Limitorque Parts & Service
Mead O'Brien Authorized
Blue Ribbon Limitorque Parts & Service
For more information, or if you need field support with any Limitorque actuator, parts, or service, contact one of the following Mead O'Brien offices: 


Mead O’Brien, Inc.
10800 Midwest Industrial Blvd
St. Louis, Missouri 63132
(314) 423-5161

Mead O’Brien, Inc.
1429 Atlantic
North Kansas City, MO 64116
(816) 471-3993

Mead O’Brien, Inc.
16 South Main Street
PO Box 1086
Calvert City, Kentucky 42029-1086
(270) 395-7330

Mead O’Brien, Inc.
824 West Elgin
Broken Arrow, Oklahoma 74012
(918) 251-1588

Safety Compliance White Paper for Solenoid Valves

ASCO Valve
Discussion of safety when
selecting solenoid valves.
(White paper courtesy of ASCO Valve)

Regulatory modifications have raised important issues in design and use of industrial safety systems. Certain changes in IEC 61508, now being widely implemented, mean that designers and users who desire full compliance must give new consideration to topics such as SIL levels and the transition to new methodologies. 

In particular, these issues can impact users’ selection of solenoid valves and prepackaged redundant control systems (RCS) for implementation in a safety instrumented system (SIS). Such selections may also be affected by how experienced valve suppliers are at dealing with complex new compliance methodologies.

These issues are especially applicable to the oil, gas, chemical, and power industries - in applications such as safety shutdown systems, boilers, furnaces, high-integrity protection systems (HIPS), and more. They’re of concern to safety engineers and reliability engineers, as well as to process engineers, engineering executives, and plant managers.

This report will address these issues in developing a compliant SIS using valves and RCSs. Making the right choices in safety system planning and in valve supplier selection can affect design time, costs, and effort — as well as the safety of the plant itself.