CERDA high-voltage, high-power laboratories
07/26/2018 - 3.16 pm
To help meet the challenges of the future, CERDA is ramping up its HV testing facilities to support new technology developments, new product introductions and type-test certification.
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The origins of CERDA go back to the 1920s when it was known as CERDEL. It was re-inaugurated in June 1959 as Cerda to become the research and testing center for two manufacturers: Delle and Alsthom. Today, Cerda continues to evolve to face intensified T&D challenges with new state-of-the-art testing facilities being introduced in 2018 to carry out electrical and thermal tests at higher voltage and current levels. Marc Vittoz, Senior Manager, explains how utilities can benefit from these new facilities.
CERDA used to be known as an internal testing facility. Why did you open the doors to external customers?
Marc Vittoz: We have always offered other equipment manufacturers and customers the possibility of carrying out tests at CERDA. We have completed a large number of National and International certifications to ensure the impartiality of the test results. However, we never really pushed this as a service to the market. Now, with the joint commitment of the SuperGrid Institute and GE’s Grid Solutions business, we really want to maximize the return on the latest investments and officially offer HV and power tests as a service, like an independent test house. We believe that companies interested in doing business in France and neighboring countries may well be interested in having these tests done by CERDA, given its in-depth expertise in HV equipment and vast experience in the field of power testing. Also, European manufacturers who plan to export to North America or other countries where the frequency is 60 Hertz will also be very interested in our new facilities.
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Why is CERDA extending its facilities now?
M.V.: It was decided to extend CERDA’s capabilities to respond better to today’s need for new technologies and products, as well as for certification purposes. At the same time, the creation of the SuperGrid Institute created an opportunity as both companies had an interest in extending their testing facilities in specific domains. These included the development of HVDC current breaking technologies, the increase in circuit-breaker performance (in particular for high voltages), and the need to have a real 60 Hz power source. In addition, the overall benefits will be to shorten the time to market for new product introductions and reduce the costs for each development project by recouping the investment in the testing facilities by increasing the number of clients.
What are the major new testing areas? What are the new capabilities that CERDA customers can expect to access?
M.V.: The new major test areas are, a new medium-power lab, increased capability for HV dielectric tests, a new high-power test hall combined with higher-performance synthetic test facilities aimed at switchgear, and a new short-circuit generator including power transformers and a DC rectifier. New assembly halls for preparing test objects will also been installed soon. With these new facilities, it will be possible to perform all power tests on HVAC switchgear up to 800 kV, 63 kA, at 50 Hz as well as 60 Hz. New, innovative HVDC capabilities will also be available, including an HVDC power rectifier and direct power tests at low frequencies.
Medium Power Test Laboratory with Transformers 1 & 2
Do you plan further improvements in the coming years? And when will the CERDA extension be completed?
M.V.: Yes, we are undertaking a step-wise development of the new facilities. The medium-power lab and the increased capabilities for dielectric tests are already up and running. The new high-power test hall and the increased capability for the synthetic test facilities are expected to be completed by the end of 2018. For 2020, the plan is to commission a new power generator and DC rectifier, and open a new assembly halls for test objects for CERDA clients.
What kind of equipment can be tested now and in the coming years?
M.V.: At present, any HVAC circuit-breaker up to 420 kV, 63 kA can be type tested for power tests. Dielectric tests can be performed now up to 800 kV on HVAC switchgear for AIS and GIS applications, for example. By the end of 2018, power tests will be available up to 550 kV initially, and up to 800 kV thereafter.
View of High Voltage Testing Laboratory
What makes CERDA a service of choice?
M.V.: CERDA offers a complete spectrum of services to perform all kinds of power and dielectric tests. Cerda is also integrated with both the ARC Research Centre and the Supergrid Institute whose research teams are highly skilled in the design of HVAC and HVDC current breaking technologies, prototyping and numerical simulation. This adds up to a very wide-ranging, integrated power and HV test service to develop and type-test switchgear equipment with tight design stage lead times.
Top view of High Power Test Laboratory Synthetic lab. Capacitor bank (left) and reactor bank (center, white)
