Hydraulics & Pneumatics November/December 2022

www.hpmag.co.uk HYDRAULICS & PNEUMATICS November/December 2022 43 By asking the right questions at purchase time, machine end- users can ensure their operation supports their key environmental and cost targets, that it is future proof, delivers live monitoring ‘out of the box’ and has power energy consumption built in. 3 – Exploit free online software tools to select the most energy-efficient products for existing machines If replacement of existing, less energy-efficient machines is not an option, it is possible to retrofit intelligent products that provide energy consumption monitoring and control. For example, air preparation units such as Festo’s MS-C2M and E2M offer live energy monitoring to the PLC (via fieldbus connections) and reduce system pressure and block air flow when production has stopped. Intelligent pneumatic valve technology, such as the ground-breaking VTEM Motion Terminal, offers flexible control of force and pressure by integrating pneumatics, sensors, electronics and app-based software in a single unit. The energy saving benefits of these and other products - including totalling flow meters, pulse valves and energy reducing vacuum generators - are now easier to identify than ever before, thanks to software tools, such as filters within Festo’s online catalogue. Where upgrades may invalidate machine warranties or certifications, it is best to work with the OEM to ensure documentation, warranties and compliance are maintained. 4 – Develop maintenance, engineering and operators’ energy reduction skills Involve your team in analysing which machines are using the most energy, what runs efficiently or not. Explain how they can contribute to profitability – and integrate it within an incentive scheme. Use skills gap analysis as a regular tool to consider how you can equip your people with the skills to become self-sufficient in spotting and solving issues such as leakage in compressed air systems. An external consultant such as Festo Didactic is often invaluable in supporting this process and can help you to develop an appropriate skills and training programme, as well as identifying key performance indicators to measure the return on investment and sustain progress over time. 5 – Utilise machine learning (AI) for energy management The collection of data is key to sustaining energy efficiency and cost reduction: however, it requires analysis and proposed actions to be truly effective. An AI platform can be ‘trained’ to analyse the energy data from every connected device. This saves a lot of rigid programming costs, making defect analysis quicker and simpler. It can also incorporate standard tools, such as peak consumption identification and derive predictive modelling, so the data can be used to model load off-setting and staggered operations. The Festo AX platform is one such example. AI learning requires experts to train the system and to utilise the best combination of algorithms to recognise relevant anomalies, but the benefits of continuous 24/7 monitoring and data driven solutions to energy and cost reduction are compelling. For more advice, watch the webinar on demand ‘Choosing your approach to reduce compressed air energy consumption in production’ at: www.festo.co.uk/energywebinar Festo’s VTEM Motion Terminal is one of many devices that can be retrofitted to existing machines to improve compressed air consumption.

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