The world’s first liquid air storage facility feeding power back to the grid
An environmentally neutral, grid-scale energy storage system that utilises electrical energy to liquefy the air around us, store it, then expand it back through a generator to feed power into the grid - may sound a bit like tomorrow’s world. It is however, a very real prospect since the new 5MW Liquid Air Energy Storage (LAES) facility, designed by Highview Power Storage will soon be operational thanks, in part to control and systems integration work from Optimal Industrial Automation.
After having built and tested a successful pilot plant (which has now been moved to University of Birmingham), Highview and project partner Viridor were awarded government funding by the Department of Energy and Climate Change (DECC) to build a pre-commercial scale 5MW Liquid Air Energy Storage technology demonstrator. That LAES plant is now currently undergoing final commissioning in Bury Lancashire, where control panels built and supplied by Optimal are dotted throughout the site ready to manage and synchronise each of the crucial stages of the process.
How the The LAES system works
The LAES system comprises of three primary processes: a charging system, an energy store and a power recovery stage. In its commercial form, these can be scaled independently to optimise the system for different applications.
Mike Weeks, automation project engineer at Optimal describes the control architecture, ‘The entire system relies on a Siemens SIMATIC PCS 7 PLC for overall control; this manages I/O from other controllers, inverter drives, RTU units, meters and sensors. Each of the large process items has its own unique set of control parameters, which we have connected over a Profibus network. We also connect to a GE PLC unit over Modbus communications that controls the waste gas turbo-expander, which is connected to the power generator set.
‘From a supervisory control point of view the entire system is transparent and information is updated in near real-time whether engineers and operators are viewing the system on-site or remotely from head office in London. For many automation system integration projects, providing secure networking for control and visualisation, trending and analysis has become as important as the actual control over the electro-mechanical equipment on-site and this project is no different.
Stuart Nelmes Head of Engineering at Highview and leading the project comments,
The beauty of this system is that each component part of the process is built using tried and tested technology, which we know works and has established performance parameters. The design envelope and the application of some of it has been developed a little to meet our particular requirements, but it’s the way all the different processes interact which truly delivers the viability of the process.
The funding has supported the design, build and testing of this LAES technology demonstrator on the same site as Viridor’s Pilsworth landfill gas generation plant. ‘This has proved to be a smart move for several reasons’ continues Nelmes, ‘the location was good from a planning permission point of view, but it also has a technical benefit in that we can use low-grade waste heat from the GE Jenbacher generator engines to make our gas expansion stage more efficient.
‘Expanding the liquid air, (or Nitrogen as we are using for this full-scale demonstrator project) has a refrigerating effect, so our process is more efficient if we can counteract that by using waste heat energy from combustion. This is why conventional power stations are a good potential site for the final stage commercial installations, which is the next step for us.’
The solution would also be very effective for storing energy from renewable sources such as wind turbines when there is a grid surplus and then fed back in to the grid when demand peaks. Fast, effective peak-lopping is an extremely desirable function from an energy grid management point of view and is one reason why government funding has been provided. It is also a reason for considerable global commercial interest in the project.
The project will operate for at least 1 year and is intended to demonstrate how LAES can provide a number of electricity grid balancing services, including Short Term Operating Reserve (STOR), Triad avoidance (supporting the grid during the winter peaks) and testing for the US regulation market. Construction on the project began in February 2015 and it is expected to be operational during 2016.
Mike Weeks concludes,
‘The system is not massively complex, the main challenge we have is that it is a development project and by its nature some of the fine details of how best to realise various aspects of the control and monitoring architecture have been worked-out as the project has progressed. We have been able to remain flexible and help the design team and all the suppliers come together to achieve a harmonious working system that allows both proof of operational targets and room to fine-tune and learn from it.
So how exactly does an LAES work?
Air turns to liquid when refrigerated to -196°C, which is usually achieved by a cycle of compression, cooling and expansion, it can then be stored in conventionally insulated, ambient pressure vessels at very large scale. Exposure to ambient temperatures causes rapid re-gasification and a 700-fold expansion in volume, which is used to drive a turbine and create electricity.
Highview’s technology draws from established processes from the turbo-machinery, power generation and industrial gas sectors. The components of Highview’s processes can be readily adapted from large OEMs and have proven operating life times and performances.
Why Liquid Air Energy Storage?
- No geographical constraints
- Close to environmentally neutral in operation
- Competitive capital cost
- Long lifetime 25+ years
- Scalable to 200MW/1GWh
- Components available from a global supply chain
- Integration of industrial low-grade waste heat and waste cold
- Uses no scarce or toxic materials
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