How one iron foundry fostered a competitive edge by incorporating SCADA and ERP

One foundry invested in digital transformation initiatives and found themselves in a safer –– and more competitive –– position.

By Aaron Block November 27, 2024
Courtesy: Inductive Automation

 

Learning Objectives

  • Understand how Ferroloy, a foundry headquartered in Wichita, Kansas, automated its data collection processes to establish a connected, integrated factory.
  • Grasp steps needed to automate in ways that help connect systems and processes.

SCADA and ERP insights

  • Investing in digital transformation initiatives can help industrial plants remain competitive.
  • Incorporating industrial automation platform for SCADA, HMI, IIoT and more can help industrial plants gather data seamlessly and make processes safer and faster.

Most American foundries are family-owned and privately held small- to mid-sized companies that have minimal capital to invest in digital transformation initiatives. However, in an increasingly competitive market, organizations like Ferroloy, Inc., a 50,000 square-foot cast iron foundry and machine shop in Wichita, Kansas, understands new approaches and innovative technologies are vital to success.

Ferroloy needed to find an alternative to its highly manual data collection processes, which were riddled with inaccurate and unused data. The company was seeking a solution to improve throughput and quality, reduce equipment downtime, and integrate with its existing software and specialized machinery.

All of this was top-of-mind for Mark Soucie, Ferroloy’s president and owner, when he attended a presentation from Folsom, California-based system integrator Artek Integrated Solutions about the benefits and return on investment of a connected, integrated factory.

After that initial meeting at the AFS Conference, Ferroloy chose Artek to implement Ignition — an industrial automation platform for SCADA, HMI, IIoT and more — into its foundry (see Figure 1).

Figure 1: Ferroloy’s 50,000 square-foot cast iron foundry and machine shop in Wichita, Kansas. Courtesy: Inductive Automation

Figure 1: Ferroloy’s 50,000 square-foot cast iron foundry and machine shop in Wichita, Kansas. Courtesy: Inductive Automation

SCADA implementation as a team effort

SCADA systems are not as common in foundries as Excel spreadsheets or scratch paper (see Figure 2).

Figure 2: SCADA systems are not as common in foundries as Excel or scratch paper. Courtesy: Inductive Automation

Figure 2: SCADA systems are not as common in foundries as Excel or scratch paper. Courtesy: Inductive Automation

“The truth is that a lot of other foundries are looking for something like what we’ve implemented for Ferroloy, and they just don’t know where to start,” said Jerry Eppler, co-founder and chief executive officer of Artek. “Mark [Soucie] was in the exact same position and thankfully found us at the right time and right when he was beginning his journey, and we helped guide him through this process to really take the ideas that he had and the opportunities that he knew were there and really bring them to fruition.”

To ensure the success of the project, Soucie brought on an in-house engineer, Clint VenJohn, as process engineer at Ferroloy. VenJohn, along with Jim LaPratt, design service engineer at Artek, were instrumental in designing and implementing Ferroloy’s Ignition system, even though each came into the project with vastly different levels of Ignition experience.

LaPratt had logged 25 years in the foundry industry, combined with extensive knowledge of Ignition. In contrast, VenJohn had no prior experience with the platform. Far from a setback, between VenJohn’s OT background as a Plant Operations Manager and strong knack for IT, and Inductive Automation’s free learning resources, he was quickly contributing “some marvelous ideas” to the project, according to LaPratt.

SCADA as a centralized data repository

With this Ignition system, Ferroloy wanted to implement lean manufacturing practices to drive overall behavioral change and to rely more on systems versus individual skill.

“What we’re trying to accomplish is to digitize an aged process and gain better visibility to unlock the latent potential within the process,” said VenJohn.

Previously, data was mostly used to solve individual problems rather than to bolster companywide initiatives. To create a SCADA system that was beneficial to operators as well as upper management, Artek built and configured a MySQL database on Ferroloy’s servers, which was then connected to Ignition, specifically the Tag Historian Module, as a centralized repository for maximizing data collection and analytics. This combination created a single source of truth anyone could reference (see Figure 3).

Figure 3: Ignition’s Tag Historian Module created a single source of truth. Courtesy: Inductive Automation

Figure 3: Ignition’s Tag Historian Module created a single source of truth. Courtesy: Inductive Automation

“The goal with the Ferroloy project was to digitally transform their disconnected foundry that relied heavily on manual paper data collection through efficient data collection and analysis,” said Eppler.

Ferroloy’s target is to increase capacity by 25 to 30% while reducing scrap by 30 to 35%. The Ignition system allows Ferroloy to identify methods for improving efficiency, backed by quantitative data.

“With Ignition, we’re able to see more or less up-to-the-minute production data, whereas before we would lag behind by a week or so,” said VenJohn. “We’re able to identify trends, shift reports and that type of thing can come out almost in real time. Those have been huge improvements and have allowed us to identify and more quickly react to problems.”

Ignition was a cost-effective solution for achieving this new level of data collection, which is critical for a foundry the size of Ferroloy. The low initial cost isn’t what gives Soucie confidence; it’s the flexibility to adapt and make changes quickly based on real-time data.

With the data analytics facilitated through Ignition, Soucie said the opportunities could be endless.

Achieving effective digitization with minimal inputs

The digitization process proved more complicated than a simple transition from paper to human machine interface (HMI). There was also a human element. The last thing Ferroloy or Artek wanted was to distract operators in a fast-paced environment while they were pouring 2,700ºF molten iron (see Figure 4).

Figure 4: Ferroloy did not want to distract operators while they were pouring 2,700ºF molten iron. Courtesy: Inductive Automation

Figure 4: Ferroloy did not want to distract operators while they were pouring 2,700ºF molten iron. Courtesy: Inductive Automation

While the initial impulse was to adhere to a high-performance grayscale philosophy, LaPratt and VenJohn adapted their approach to better suit the workforce, keeping the screens straightforward, focusing on ease of use and legibility.

“We have a lot of employees out there that are not very tech-savvy, some older and some that there’s a language barrier with. The simplicity of [the HMI] just makes it easy for them to interact with and be able to do what they need to do easily and properly,” said VenJohn.

All visualization for the system was designed using the Perspective Module and each screen features a minimal set of buttons, reducing interaction to the essentials of a given process. With so few visual components, the HMIs needed to retain color to make key information “pop” so that operators could quickly ascertain the status of the process in progress.

“Due to the extreme heat needed to melt iron, safety is a high priority in a foundry. We wanted to make sure our screens were extremely intuitive and simple as to not distract operators from the potential hazards around them,” said Eppler.

Interoperabiity built into programmable logic controllers (PLCs)

Ferroloy, like many foundries, has a heterogeneous mix of programmable logic controllers (PLCs) from a variety of manufacturers across a range of vintages, plus other types of equipment that do not communicate via PLC at all.

Ignition’s built-in suite of device drivers allowed Ferroloy to connect to all their hardware.

This freedom also sparked ideas for additional creative solutions; the foundry environment is inherently dusty, making it particularly harsh on electronics, so Ferroloy needed a software that could run on equipment that was inexpensive to replace. Leveraging Ignition, Ferroloy is using smart televisions to display key performance indicator (KPI) dashboards above each of the six production lines for quick reference.

“Ferroloy’s main problems were that the data that they were gathering on the floor was siloed from their equipment through that software. If you needed that information, you had to walk there to get it,” said LaPratt. “Ignition brought the siloed data from their Hitachi and Heraeus equipment directly into screens that could be used on the floor for verification that the product was good at the point it was being used.”

Another key aspect of the project was connecting Ignition to Ferroloy’s Sinto molding machines so molding production could be fed back to its Odyssey ERP system through an API. This eliminated the need for the operator to input the data on the floor and reduced the risk of data entry errors (see Figure 5).

Figure 5: Integrating Ignition and Odyssey was vital because certain steps in the iron casting process have rigorous time limits. Courtesy: Inductive Automation

Figure 5: Integrating Ignition and Odyssey was vital because certain steps in the iron casting process have rigorous time limits. Courtesy: Inductive Automation

Originally, Artek planned on utilizing a third-party solution to connect Ignition to the Mitsubishi PLCs collecting data from the molding machines, but thanks to some fortuitous timing, Inductive Automation released the beta version of the Ignition Mitsubishi Driver during the project’s development phase.

The driver, which supports Mitsubishi MELSEC over TCP, allowed for a direct connection, eliminating the need for any additional software and lowering the overall cost of the project in the process.

SCADA and enterpise resource planning (ERP)

Beyond simply moving process data out of desk drawers and into a database, Artek needed to integrate Ignition with B&L Information Systems Inc.’s Odyssey software, an off-premises ERP software-as-a-service (SaaS) Ferroloy implemented over a decade prior.

Pulling data from Ferroloy’s ERP system was a cornerstone of the project, eliminating data reentry and its corresponding human error. Artek created sync routines that run through an API interface to monitor Odyssey and look for changes in real time.

When a change occurs, the updated information is brought into the Ignition system so that operators can have an immediate understanding of the order in progress, including the work order and associated product, along with statistics like weight and temperature range.

The integration of Ignition and Odyssey is vital because certain steps in the iron casting process have rigorous time limits. The HMI displays what is currently on all six pour lines, each of which have molds coming down them, along with data synced from the ERP system. This allows operators to know what is being poured when they tap the furnace and put the molten iron into the ladle, because once a new ladle is started, the iron is only usable for 10 minutes.

SCADA implementation is only the beginning

Ferroloy now leverages Ignition from the plant floor to upper management, but even so, Soucie said that this is only the beginning of Ferroloy’s Ignition journey. Befitting a server-centric platform with unlimited licensing, Ferroloy has found that the more they use Ignition, the more uses they find for it.

“Ignition is already expanding into other areas of the plant. As we speak, they’re working on integrating their QA lab into Ignition. We’re getting spectrometer data into Ignition now,” said Eppler. “On top of that, now we’re starting to work on getting some of the grinding room data into Ignition and also working on dashboards for the break room.”

By integrating Ignition with their spectrometer, which analyzes the elemental content of the iron being poured, Ferroloy plans to increase the traceability of the iron production process. This also allows Ferroloy to closely monitor variations across all measured elements and make small adjustments timelier. This improves the workflow for lab technicians, giving them direct data access instead of requiring them to hunt down the information on the foundry floor.

“Over the next several months, I can only imagine the level of knowledge and information I’ll have available at my fingertips,” said Soucie.


Author Bio: Aaron Block, marketing content writer, Inductive Automation