Over the past 40 years, hydraulic systems have been continually deemed a dying technology – if not pronounced dead altogether.
And these views don’t seem all that far fetched in light of the on-going energy efficiency debate and the apparent cure-all: electric drive systems. Perhaps the “dinosaurs of drive technology” are truly at an end. Yet they keep coming back and are more sustainable than ever – all thanks to consistent, systematic thinking.
Hydraulics form the core technology behind many industrial companies and many of the applications we see in our daily lives.
Whether it’s at home or at work, whether it’s in mobile or stationary applications: Life as we know it wouldn’t be possible without hydraulic systems.
Sluices wouldn’t open or close properly, construction vehicles wouldn’t function correctly, cable cars wouldn’t run, and most machines would no longer manufacture things. In the same vein, no theater stage would rotate, no harvesting machine would work quickly and precisely, and trucks couldn’t unload their goods. Personal and professional life would become a lot less convenient.
Many developments spell optimisation
That said, there have been many attempts over the past 40 years to replace hydraulic systems with other technologies. That’s because, apart from their undisputed advantages, hydraulic systems and applications were considered coarse, clumsy, and only really of any use in rough industrial settings.
They were also deemed inefficient energy hogs prone to leakages. In recent years, the energy debate has ferociously challenged hydraulic systems, and more and more electric solutions have tried to take on the leading role. Some have even predicted that hydraulic systems would share the same fate as the dinosaurs.
But the dinosaurs are coming back. A multitude of innovations, developments, and enhancements are seeing hydraulic systems and applications improve considerably – and sustainably.
There’s no end in sight. Is there evidence of this? Our university of applied sciences has established an endowed chair for oil hydraulics and our competence center for hydraulics now has 17 member companies – clear indications of a renaissance.
That’s because one thing is certain: hydraulic systems are strong, robust, and they work more reliably than most comparable technologies. And little by little, they are regaining ground lost in the battle. The reasons for this are quite clear.
Hydraulic systems and applications are becoming more intelligent
Thanks to new ways of thinking and development approaches that focus on systems, hydraulic technology is becoming more efficient, versatile, and precise. By integrating high-performance electronics and control software, hydraulic systems are constantly becoming more “intelligent.”
All the while, the software also ensures that increasingly complex systems are becoming easier to operate. And that’s not all – the focus on systemic factors is reaching out into more and more areas.
The limits to how far we can stretch the mechanical production of control blocks are being eradicated, but when we do reach the limit, software can help us go further – for example, when balancing oscillations at specific operating points. Control valves are becoming even more precise and faster. Oils and fluids are also advancing further. It’s quite conceivable to develop fluid sensors that detect wear, and report when a part should be exchanged.
Seals are becoming more application-specific and being developed in line with their intended use.
They will reconcile the two opposing objectives of minimizing friction while maximizing sealing performance.
This is giving rise to trendsetting sealing systems that can be connected or switched off, such as the Turcon Roto L system developed by Trelleborg Sealing Solutions. Such developments are paving the way for systems that we are already seeing in use, like a tire pressure system that allows for variable tire pressure and which can be adjusted while the system is running.
Hydraulics 4.0 – autonomous systems are feasible
Hydraulic systems will gradually become even more intelligent. They will be self-monitoring by using high performance sensors, and maintenance will not be carried out during downtime, but dynamically. Depending on the state and load of the hydraulic system, reports will be displayed indicating required maintenance or when to change components or fluids.
All of this will be accompanied by the highest possible energy efficiency and even greater overall efficiency. And this isn’t even taking Industry 4.0 into account. Quite conceivably, completely autonomous systems will exist in the future. These will monitor and service themselves – more like Hydraulics 4.0. All of this bolsters the undisputed advantages of hydraulic drives: No other drive system is as powerful and as robust. The “dinosaurs of drive technology” might just outlive everything else.