OPERATION & MAINTENANCE OF POWER PLANTS
system and process might have as a whole, rather than focusing on the functioning or replacement of a single part. A systems approach also has an impact on the business aspects of an industrial process, as it encourages engineers to consider the total cost of ownership when comparing different options.
Troubleshooting by taking a systems approach
TAKING CONTROL
Jeff McClanahan on taking a systems approach to control panels to solve electrification challenges
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ndustrial organisations can push decarbonisation forward by shifting process heater systems from fossil fuel-burning to electric. Tis kind of electrification needs to be done with a systems approach in mind – by considering the entire thermal loop. Of all the components needed to switch to electric, control panels are one of the most important. For large-scale applications, control panels need to be designed to maximise reliability, accessibility and safety. Here, we explore why systems approach thinking is key in the manufacturing of components for electrification. Te question of electrification is less of an if or a when, and instead how. Globally, companies are prioritising the reduction of their carbon footprint. Tere is a huge push across different industries to “go electric” as part of a larger programme of decarbonisation. But the details for doing so can be elusive. It’s not as easy as swapping out gas-fired heaters for electric heaters, for example, without also considering the size, location and
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connectivity of the control panel that will regulate those electric heaters. Tese considerations will, in turn, have a bearing on how and when the system needs to be maintained, how long downtime lasts and what the prospects are for future expansion. Te point of a systems approach is to take a step back, seeing how different design considerations an impact on the
MEETING CHALLENGES AT SCALE Taking a systems approach to process heating was a foundational consideration behind the design of Watlow’s L and XL Watconnect control panels. Here, we take a deeper look at what went into that design as a way of illustrating the power of this kind of thinking. A systems approach means finding not just one or two solutions to meet a challenge, but finding as many solutions as possible to optimise a given outcome. Take reliability, for example. What are all of the different ways a system can be optimised to ensure near 100% uptime? One way this was done in the design of the Watconnect panels was by looking at the thermal design of the system. All systems generate some heat, and excess heat is the nemesis of electronics. Terefore, optimising the system to keep heat under control is critical. Watlow’s design looked at adding to the insulation of the system, reducing power where possible, and improving the airflow throughout the system. Airflow itself was improved by using high-reliability EC inlet and outlet fans with advanced monitoring, which provide up to twice the airflow compared to industry standard fans. Terefore, by better controlling waste heat within the panel, Watlow can extend the life of the electronic components and significantly increase reliability.
A six-bay panel installation of the Watconnect solutions
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