Until now, using an electric vehicle to travel long distances on vacation has often meant long stops at rest areas or service stations to charge the vehicle. For many people, this was also coupled with the concern that they would be unable to find a charging station on their journey and could actually break down with an empty battery. However, long charging times and long distances to the next charging station should soon be a thing of the past. As a result of innovative new technologies, companies like ef cooling are shaping the future of electromobility and making it more convenient and compatible with everyday life. This not only applies to cars. Electric ships and ferries are already in use and could be joined by planes as well in the not too distant future. In logistics as well great advances are being made in terms of the performance and range of electric trucks.
High Power Charging (HPC)
High-power charging (HPC) is a technology that makes charging capacities of 150 kW to 350 kW possible. As a result, charging is three times faster compared with standard rapid charging stations. This means that an electric vehicle can be charged to 80 percent capacity in around 15 to 30 minutes at an HPC station. Depending on the vehicle model, this gives an average range of 300 kilometers. In order to use an HPC station, the vehicle must be chargeable with DC (direct current) and equipped with a CCS connection.
“The goal in the future is to be able to recharge electric cars to at least 80 percent capacity far faster than at present - in just ten minutes. And it should be possible to recharge electric trucks to their full range of 800 to 900 kilometers during a stop of just 40 minutes.” This is the vision described by Daniel Bärtschi, CEO of ef cooling. “In order to achieve this, we already need more high-performance, high-power charging (HPC) stations.” The Swiss company employs 70 people and supplies heat exchangers for liquid-cooled cables that ensure the efficient cooling of this kind of charging station. Daniel Bärtschi explains: “Around 95 percent of our heat exchangers are exported, especially to the Asian market and the USA, where electric vehicles are already more widely used than in Europe. However, I am convinced that efficient and fast technologies will enable us to achieve the same here as well.”
Efficient cooling for demanding electromobility
ebm-papst offers cooling solutions for all systems related to electric vehicle charging.
Heat exchangers for liquid-cooles cables
The main challenge presented by HPC stations is that the charging points overheat at peak periods. In order to charge an electric vehicle more quickly, a higher charging current is necessary. During the charging process, this generates more heat, which must be dissipated by the charging station. The voltage can be as high as 920 V. The process is not made easier by the weather conditions to which HPC stations are exposed throughout the year. Whether it is snowing and – 10 degrees Celsius or it is 50 degrees Celsius under a scorching sun, the charging point has to be ready to go from standby to delivering a full charge at any time.
In 2017, ef cooling was commissioned by a charging station manufacturer to develop a prototype that ensures the availability and efficiency of HPC stations. “An oil circulates in the charging cable and cools the copper wires,” says Bärtschi, explaining the cable cooling concept. “Oil may not exceed a maximum temperature of 30 degrees Celsius. An absolutely reliable solution is needed for the heat exchanger that is used to ensure this.” ef cooling began searching for a suitable compact fan. “The oil cooling can’t function without the heat exchanger, so the HPC station can’t function either,” emphasizes Daniel Bärtschi. “That’s why the choice of compact fan was a crucial feature of the prototype.”
Cool charging cable thanks to compact fans
The copper wires in the charging cable are surrounded by a sheath. The oil used as the cooling medium is pumped backwards and forwards through this sheath, first to the plug and then back to the heat exchanger once it has heated up. This cools the oil using three compact fans supplied by ebm-papst, emitting the heat to the ambient air. “The higher the outside temperature, the more difficult it is to cool the cable,” explains Daniel Bärtschi. “That’s why we chose a robust and very high-performance compact fan.” As the HPC stations are used all over the world, it was important to ef cooling that the fans were able to easily withstand environmental influences such as extreme heat or cold. Samuel Schlittler, a member of the sales team at ebm-papst in Switzerland, explains: “This was the reason for choosing fans with an IP68 rating for the HPC stations. As a result, the compact fans are resistant to splashing water, salt spray and other weather influences.”
A lot of effort and thought
Alongside the technical requirements, the design of the charging point also played a major role. The appearance of the HPC charging station was as important to the manufacturer as its internal workings. “The charging point was to be slimmer and taller, reducing the amount of space for the heat exchanger. Suddenly, the dimensions were too tight and we had to come up with something new,” says Daniel Bärtschi.
“Ultimately, we – like ebm-papst – are a supplier that works to implement our customer’s wishes as best we can.” That is why ef cooling developed a new unit in which the heat exchanger and the pump function independently of each other. “This was a true feat of engineering. There were actually critical voices within the company that doubted it was even possible,” recalls Daniel Bärtschi. “However, it was soon clear that we were building something that not everyone on the market is capable of.”
The oil cooling can’t function without the heat exchanger, so the HPC station can’t function either.
Daniel Bärtschi, CEO ef cooling Ernst H. Furrer AG
Reliable suppliers matter
Reliable suppliers are key to such a special high-tech solution. “In this project in particular, the people behind the product were important. We wanted a competent partner that could help us when a problem came up,” emphasizes Bärtschi. “We found a great partner in ebm-papst.” He goes on: “In addition to the high-end technical product, we were especially impressed by the efforts made by ebm-papst to reliably supply the number of compact fans needed, despite the difficulties of the coronavirus pandemic. For me, that is definitely an additional mark of quality.” Samuel Schlittler from ebm-papst recalls: “At peak times last year, we delivered 1,200 compact fans each week to ef cooling. They were used to equip a total of 400 cooling units weekly.”
The project has been running continuously since 2019 - and it remains exciting. Until now, every electric vehicle manufacturer has had its own plug for HPC charging stations. Now, after years of uncertainty, there is a global shift to the uniform NACS plug. It remains to be seen how e-mobility will evolve. In the future, electric aircraft, ferries, and even container ships could be traveling the globe.
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