Plug Power partnership with Burckhardt Compression yields successful hydrogen liquefaction
Published by Poppy Clements,
Assistant Editor
Global Hydrogen Review,
Green hydrogen is produced from water by splitting the hydrogen and oxygen molecules using electrolysis. This process is powered by renewable energy sources such as solar, wind or hydro, and when the resulting gas is utilised in a fuel cell system, the only emission is water. Consequently, green hydrogen promises to decarbonise industry, vehicles, and the way fuel is produced. There is a catch though – hydrogen is an incredibly light gas which makes it challenging to deliver it in required quantities to the consumer. Therefore, it must be compressed, or like in this case, even liquefied before transport to filling stations.≤/p≥ Big efficiency for large equipment
Oliver Franz, Sales Manager Hydrogen for Mobility & Energy at Burckhardt Compression, explains the best approach: “To move large quantities of hydrogen efficiently, ring type compressors are a better choice than centrifugal. Our designs offer industry leading efficiency, which is an advantage especially in a renewable energy project where maximising production output versus power consumed is crucial.”
Considering this, Plug Power approached Burckhardt Compression to deliver a large quantity of hydrogen piston compressors in a phased order to support the construction of multiple new hydrogen liquefaction facilities. The first phase of compressors required the Burckhardt Compression team in the US to quickly grow its capacity.
“We have operated a facility in Waller, Texas, for eight years now, and assembling the piston compressors required for the project on-site meant we had to expand. Each compressor weighs more than 200 000 pounds (91 t), which exceeded the capacity of our cranage. Beyond equipment upgrades, we also needed to bolster our team,” said Michael Ciambella, Compressor Engineering and Manufacturing Manager.
Increasing capacity and expertise
The expectations from Plug Power were high and Burckhardt Compression planned to exceed them. Ramping up assembly was dependent on the ability to move around a fully built compressor to enable assemblies to be executed in parallel. Burckhardt Compression invested in a hydraulic gantry crane system with a 1-million-pound (450 t) lifting capacity, which would allow the safe, slow movement of the compressors across the workshop. The company worked with experts to install and supervise all lifts during the project.
The investments paid dividends, Ciambella said: “We were able to grow our assembly capacity at Waller by 50%, which allowed us to effectively meet the first phase of compressors and any afterwards. The assembly turnaround time for each compressor was reduced from six weeks down to four, and sometimes we delivered even faster than that. We managed to complete the first phase three days ahead of schedule with zero safety incidents."
Eleven new personnel joined the team too, including a consultant and a project lead with 20-years’ experience in compressor projects. As a global company, the US team also received training from a Burckhardt Compression expert from Switzerland, who joined the company for six weeks to ensure transfer of know-how for the assembly work. Components for the compressors would be manufactured in Switzerland and delivered to the team in the US.
Specifically designed for hydrogen
Burckhardt Compression was able to design a dry running piston compressor with a highly variable turndown arrangement to exactly meet customer needs. This will allow operators to match the compressor’s performance to the process requirements without any wasted energy.
Ciambella said: “This is a dry design to ensure that no lubrication oil can contaminate the hydrogen and reduce fuel quality. With large diameter pistons for the first stage, there is a lot of heat from frictional forces, so the rider band must be able to withstand this and provide a long service life. We use proprietary polymer materials we have developed in-house. This enables over a year of operation before maintenance is required, which is unsurpassed in terms of uptime.”
The minimal weight pistons were designed with energy saving in mind, while still ensuring enough strength to compress the hydrogen. Compressor chambers are fitted with a fixed pocket, which can expand to increase internal space. Specially developed pressure packing further contributes to an extended service life. Ultimately, the design philosophy is to find the sweet spot in terms of gas temperature and required production output for the customer.
A monitoring solution from Burckhardt Compression’s digital experts PROGNOST Systems is also included. A suite of sensors constantly delivers data regarding the performance of suction and discharge valves, bearing temperatures and rod drop. Consequently, operators can monitor equipment condition and predict any preventative maintenance measures steps needed, improving uptime.
As of Q124, Burckhardt Compression has successfully delivered the first order and has more projects underway. Following the expansion of its team and facilities, this partnership has let Burckhardt Compression lead the way in hydrogen production.
A significant factor in the success of this partnership has been the readiness of Burckhardt Compression's service and its flexibility to operate both within and outside the country, thanks to the extensive setup in the US. This ability instilled confidence in Plug Power to opt for the ‘new’ technical solution.
Read the article online at: https://www.globalhydrogenreview.com/hydrogen/21112024/plug-power-partnership-with-burckhardt-compression-yields-successful-hydrogen-liquefaction/
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