SACA - SACA Releases New Process Control & Instrumentation Credentials

The Smart Automation Certification Alliance (SACA) is pleased to announce the release of new standards covering Process Instrumentation, Basic Process Control, and Advanced Process Control:

  • Process Instrumentation
    • C-261 Process Measurement Instrumentation 1
    • C-262 Process Measurement Instrumentation 2
  • Basic Process Control
    • C-270 Process Control Systems 1-Flow and Level
    • C-271 Process Control Systems 2-Temperature
    • C-272 Process Control Systems 3-Pressure
    • C-273 Process Control Systems 4-Analytical
    • C-274 Process Control Troubleshooting 1
    • C-275 Process Data Acquisition 1
  • Advanced Process Control
    • C-320 Smart Valve Positioners
    • C-321 IO-Link Smart Process Instrumentation
    • C-322 Visualization and Data Acquisition 1
    • C-323 Smart Process Control Systems 1

NOTE: The standards for these credentials have been released. Certification exams for these credentials are being finalized and will be released soon.

Process control and instrumentation are vital parts of many major industries, including: power generation; petrochemicals; food processing and bottling; chemical manufacturing; biotechnology; pharmaceuticals; refineries; and more. These industries need highly skilled workers to fill thousands of open positions, and employers need to know that potential employees have the skills they need to hit the ground running.

That’s why SACA’s new process control and instrumentation standards were developed with input and guidance from a combination of process control industry experts and representatives from various educational organizations. For example, Endress+Hauser collaborated with SACA to host Process Control Technical Work Group meetings at its U.S. headquarters in Greenwood, Indiana, as well as its campus in Pearland, Texas, south of Houston.

Representatives from many different organizations gathered to validate certification standards for process control and instrumentation, including: Endress + Hauser, Rockwell Automation, Vector Controls and Automation Group, Kirby Risk, Pearland Economic Development Corporation, The Manufacturers’ Association, the American Technical Education Association, the American Association of Community Colleges, the University of Wisconsin-Stout, Ivy Tech Community College, Monroe Community College/Finger Lakes Workforce Development Center, Galveston College, Lee College, Del Mar College, Lamar Institute of Technology, Alvin Community College, and San Jacinto College..

Thanks to these organizations and their expertise on the skills and competencies needed for today’s smart manufacturing workforce, SACA created these new nationally recognized, occupation-driven standards in the field of process control and instrumentation.

According to SACA Executive Director Jim Wall, “the whole goal of having the standards and certifications program is to help schools and colleges and other training providers develop and expand programs that include these new technologies, so that we get more people with these skills into the workforce.”

About SACA

SACA sits at the forefront of the effort to certify students and workers who demonstrate the required knowledge and hands-on smart automation skills employers so desperately need. SACA’s certifications were developed in conjunction with industry partners who could speak from experience about their needs when it comes to workers able to work alongside a variety of advanced automation technologies.

SACA offers a wide variety of certifications in popular industrial skill areas, including certifications at the Associate, Specialist, and Professional level. For those wishing to focus on building a strong foundation of skills employers need, SACA also offers many micro-credentials that allow students and workers to add certifications as they master new areas.

For workers, SACA certifications can help market their smart automation skills to potential employers. For those employers, SACA certifications represent confirmation that a worker has the skills to hit the ground running in the workplace.

To learn more about Industry 4.0 certifications and how SACA can help both future workers and industrial employers begin the task of bridging the Industry 4.0 skills gap, contact SACA for more information.

SACA - Proper Planning Necessary when Adopting New Technology

Have you noticed how the solution to most problems these days seems to be technology? Our lives are intertwined and interconnected in ways that few could have imagined several decades ago. From smart phones and televisions to smart cars and thermostats, advanced technologies that communicate and share information via the Internet have changed our lives forever.

They’ve also changed our workplaces. You’d expect this working in a technology field, but even industrial factory jobs have been impacted greatly by today’s advanced automation technologies. Just like in every other area of our lives, technology has changed the modern industrial workplace forever.

The seismic effect advanced automation technologies have had on manufacturing and other industrial sectors has many monikers, many of which you’ve probably heard of: the Fourth Industrial Revolution, Industry 4.0, Industrial Internet of Things (IIoT), and Smart Factory are just a few.

Especially in the wake of the COVID-19 pandemic, today’s industries know that they need to invest in advanced automation technologies to take them to the next level of efficiency and productivity. Yet, these investments should not be made lightly, especially by small and medium-sized manufacturers that don’t have the kind of money to spend that huge multinational corporations do.

How should small and medium-sized manufacturers approach investing in new automation technologies? In a recent IndustryWeek article, author Robert Scipione provides some guidance, including this important starting point: “The most important aspect of your first automation project is to be clear about what problem you are trying to solve.”

Failure to address a specific goal is a recipe for disaster. Scipione notes that some manufacturers buy technology impulsively, but “if they haven’t considered all the related impacts on their people and processes, their chances of a successful automation implementation are diminished.”

Once a problem is identified, Scipione recommends tying “the initiative to financial performance” and then “build[ing] a system around the technology.” In this way, you can ensure smooth implementation while also tracking how your chosen automation solution saves money and provides a good return on investment.

While many might be tempted to focus on the technology options available as potential solutions, Scipione warns that current personnel must also be a big part of the equation: “you will want to factor your people and their skill sets into the automation implementation, operation, and support.”

Technology doesn’t exist in a vacuum, so it’s important to ensure skilled personnel are available to operate, maintain, troubleshoot, and repair these new technologies as implemented. In many cases, that will mean either upskilling current workers or hiring new workers with the advanced automation technology skills you require.

If hiring new workers ends up being part of your automation implementation plan, look for candidates with industry-standard credentials that prove they already possess the advanced automation skills needed to thrive. For example, if workers possess a certification from the Smart Automation Certification Alliance (SACA), employers can feel confident they’ve already proven they have the knowledge and hands-on skills needed for working with advanced smart automation technologies. SACA has been hard at work collaborating with industry leaders to develop a wide variety of industry-standard certifications that will help employers find workers who possess the advanced connected-systems skills they need to take their businesses to the next level. Be sure to check out SACA and all it has to offer!

SACA - Digital Twin Helps Confectioner Improve Efficiency

When the holidays roll around, do you find yourself yearning for homemade treats your mother, grandmother, or favorite aunt made when you were a kid? There’s simply nothing like cookies or fudge made from a recipe that’s been handed down for years from one generation to another.

Of course, most people won’t turn away sweet treats from the store either. In fact, many of your favorites might come from confectioners who have been making signature candies for decades using handmade recipes created by their founders long ago.

That’s certainly the case with Aldomak, a family-run Scottish confectioner with a factory in Glasgow. A recent article in The Manufacturer notes that “[t]he confectioner prides itself on its handmade recipes.” However, like most other factories in this modern age, Aldomak is “gradually integrating a degree of automation into production processes.”

While priding itself on its traditions, the family that runs Aldomak realized that incorporating some new advanced automation technologies could help them “streamline manufacturing processes and increase capacity.” That’s why they created “a digital simulation of Aldomak’s fudge production line” with the help of “the National Manufacturing Institute Scotland (NMIS) – operated by the University of Strathclyde and part of the High Value Manufacturing (HVM) Catapult.”

Using this digital twin of a production line, “Aldomak and the Design Engineering team at NMIS identified potential bottlenecks and explored various ‘what-if’ scenarios, such as adding new equipment or modifying workflows.” For example, “[b]y examining the capacity of boiling equipment and the movement of both personnel and products within the factory, Aldomak established how best to focus its efforts to boost efficiency.”

Like all advanced automation technologies, the digital twin used by Aldomak relies heavily on a wide range of data, including “the capacity of the machinery, the duration of different cycles, inventory levels and work schedules.” Analyzing this data has “encouraged the manufacturer to think differently, focus on bottlenecks, and explore various ways to increase throughput before considering major investments.”

Gwenole Henry, Research & Development Engineer at NMIS, points out that “[d]igital simulations of this kind can be an incredibly useful tool for manufacturers in any sector, helping them to meet goals and ambitions in terms of productivity, sales and even energy efficiency.”

However, advanced automation technologies like digital twins don’t exist in a vacuum. It’s important to ensure skilled personnel are available to operate, maintain, troubleshoot, and repair these new technologies as implemented. In many cases, that will mean either upskilling current workers or hiring new workers with the advanced automation technology skills you require.

If hiring new workers ends up being part of your automation implementation plan, look for candidates with industry-standard credentials that prove they already possess the advanced automation skills needed to thrive. For example, if workers possess a certification from the Smart Automation Certification Alliance (SACA), employers can feel confident they’ve already proven they have the knowledge and hands-on skills needed for working with advanced smart automation technologies. SACA has been hard at work collaborating with industry leaders to develop a wide variety of industry-standard certifications that will help employers find workers who possess the advanced connected-systems skills they need to take their businesses to the next level. Be sure to check out SACA and all it has to offer!