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Electrical Research and Testing Laboratory Nuremberg Testing and research at the cutting edge of technology
siemens.com/energy/transformers
Electrical Research and Testing Laboratory Nuremberg Testing and research at the cutting edge of technology
siemens.com/energy/transformers
From general fundamental research using highvoltage tests with various voltage types to dielectric examinations and tests using test setups specially designed for use in electrical components, the Electrical Research and Testing (ERT) Laboratory Nuremberg is capable of conducting a wide range of tests and analyses. In addition to precise replication, modeling, and testing of even the most complex setups, the specific material properties of insulation components can also be examined.
Materials technology also plays an important role in the ERT Laboratory. Specially developed devices for oil treatment, drying, and impregnation plus other versatile process materials make it possible to consider quality criteria such as purity, cleanliness, or dryness of the insulants. This ensures that the study results are meaningful and precise.
Various test systems are used for electrical investigations, including a number of independent AC voltage test systems with a maximum test voltage of 400 kV, an auto matically polereversible DC voltage test system with
The latest methods, outstanding expertise
up to 400 kV, and a surge generator with a charging voltage of 1,200 kV for lightning and switching impulse voltages. In two separate test halls, highly sensitive measurements can be carried out at an extremely low noise level of <1 pC.
The services offered by the ERT Laboratory Nuremberg, however, go far beyond pure electrical testing. Its collaboration with the chemical and physical materials testing laboratory headed by Dr. AtanasovaHöhlein, which is located in the same building, opens up a wealth of possibilities for diagnostics and analysis. The materials testing laboratory fully focuses on the laboratory diagnosis of oilfilled electrical equipment. The materials that are electrically tested in the ERT Laboratory can then be examined right down to the tiniest detail. The close cooperation between the two laboratories creates synergies that ensure rapid, reliable, and highquality study results.
The ERT Laboratory Nuremberg offers comprehensive testing and analysis facilities for energy-related material testing, research, and development.
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Extensive equipment and the highly qualified staff of the ERT Laboratory Nuremberg make it possible to fulfill special customer requests and requirements which go far beyond the services available in the usual standard investigations.
Every step can be individually agreed upon and designed with the customer – including trial planning and preparation of the specification, planning and production of the test pieces, test design, as well as conducting the test series with subsequent evaluation and documentation.
The latest CAD and 3D software is available for the planning phase. This allows test assemblies to be designed using stateoftheart technology and then simulated with the corresponding electrical and magnetic calculation tools in order to find the ideal test design every time.
Testing tailored to customer require-ments: special contract measurements
From test planning to documentation, the outstanding technical equipment and individual design possibilities make the ERT Laboratory Nuremberg the first choice for meeting special requirements.
In addition, the ERT Laboratory Nuremberg offers testing of electrical components within the framework of its performance class, such as dielectric type and routine testing of capacitors or bushings.
The services provided by the ERT Laboratory Nuremberg are rounded out by a wide range of standard electrical tests for the characterization of insulation materials in accordance with the established regulations and standards.
Range of possible contract measurements
Electrical testing of solid insulants for partial discharge and puncture behavior
Determination of the parameters of electrical solid insulants
Investigation and research into the dielectric properties of liquid insulants
Investigation of alternative liquid insulants and green technologies
Development and testing of innovative insulation designs
Examination and testing of electrical components, type and routine tests
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Process technology and sample preparation
In investigations of insulation materials, the production and preparation of the samples and test items and compliance with the process parameters before and during the measurement are of enormous significance. Usable qualitative results can only be achieved if all the parameters are observed exactly. This is why the ERT Laboratory Nuremberg places such great importance on precision.
All wood and metal treatment processes are carried out in the ERT Laboratory’s own workshop, which is well equipped with everything from lathes to belt grinders and disk sanders.
For preparation work that includes drying and impregnating, vacuum drying cabinets and specially developed impregnating cabinets are available. These are used to precisely regulate and monitor required process parameters such as temperature and pressure.
Perfect, from preparation to documentation
Reliable test results ensured by high quality – from test planning to evaluation
Standard material investigations
In the characterization of insulation materials, there are various processes for determining the relevant parameters, depending on the material and area of use. These include determination of the electric puncture strength of insulating materials of all types – in the case of AC voltage according to IEC 602431 and with DC voltage according to IEC 602432.
Another important criterion is the partial discharge behavior of solid insulants. This is investigated in the ERT Laboratory Nuremberg using a specially developed, standardized testing method. The partial discharge behavior of the test pieces provides information about the quality and processing of the material.
To characterize the insulation properties with direct voltage loading, measurements of the specific resistance according to IEC 60093 or the measurement of polarization and depolarization currents (PDC measurement using a stepresponse measurement) can be carried out. In addition, dielectric properties such as the loss factor tan δ, the
Sample preparation Equipment for oil preparation4
capacities, and the relative dielectric constant of solid and liquid insulants can be determined according to IEC 60247. Determining the electric puncture voltage of liquid insulants according to IEC 60156 and determining the water content of solid and liquid insulants according to IEC 60814 enable all the important parameters to be recorded before, during, and after the measurements.
Research and development projects
The ERT Laboratory Nuremberg provides the best possible conditions for electrotechnical research and development. The excellent equipment in the laboratories and workshops makes it easy to carry out customerspecific examinations. The experts at the ERT Laboratory Nuremberg are also happy to provide assistance in the development of concepts, and they can be helpful in planning the tests or carrying them out on behalf of the customer. When the tests are actually conducted, it is possible to react flexibly and unbureaucratically to technical idiosyncrasies, for example with modifications to the test design or test pieces. Moreover, it is also possible to react spontaneously
to effects during the course of the test series. What is important is the scientific character of the investigations. Because the ERT Laboratory Nuremberg has enough room to maneuver, it can offer a wide range of options to specifically pursue any phenomena that might arise.
All work stages can be swapped on short notice and through direct communication. It goes without saying that the client can be present at every test and investigation and make resulting modifications to the test item. To ensure full reporting, all process stages and measurement results are documented and reported with absolute precision.
Airconditioned measuring and test cell Sample inside the test container 5
Cutting-edge testing technology for precise, reliable results
Technical data for the test areas and material equipment of the ERT Laboratory Nuremberg
Mobile 150 kV AC test system Workshop equipment
Precision highvoltage system device, 60 kV (electrically polereversible)
Fully airconditioned measuring cell, temperature range –40 °C to +180 °C, ambient humidity 10% to 98% rH
Measuring cell to determine dielectric parameters of solid and liquid insulation materials (tan δ, capacity, dielectric constant)
Process technology
Oil preparation unit (300–700 l/h), which can also be used for other liquids
Vacuum drying cabinets
Special vacuum impregnation chambers
Determination of the water content of liquid and solid insulation materials (Karl Fischer titrator)
Determination of oil puncture voltage according to IEC 60156
Workplace for hazardous materials
Workshop for test piece preparation and modification of test designs
High-voltage laboratory
400 kV AC test system with 200 kVA (50 Hz)
150 kV AC test system (50 Hz)
Impulse generator with 1,200 kV charging voltage for lightning (1.2/50 μs) and switching impulse voltages (250/2,500 μs)
Multiple chopping gap for chopped impulse voltages, e.g. for measurements according to IEC 600763
400 kV DC test system, automatically polereversible (for measurements according to IEC 613782)
Screened highvoltage laboratory, background noise level < 1 pC
Crane capability 1 t
Air cushion system up to 7.5 t
Air-conditioned test cell
Screened measuring cell, background noise level ≤ 1 pC
Highvoltage module (AC 100 kV/DC 140 kV/LI 140 kV)
PDC measurement system for conductivity investigations of individual materials or components
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New opportunities in diagnosis and analysis
Factors such as humidity and temperature play a crucial role in the electrical characterization of insulants. In the ERT Laboratory Nuremberg, both the characteristic parameters of the test pieces and the ambient and process parameters can be precisely monitored with the latest measuring and testing equipment. This means that the empirical investigations can be statistically analyzed so that the right conclusions can be drawn for the object under investigation.
The new ERT Laboratory Nuremberg
The laboratory building for the newly established ERT Laboratory Nuremberg is completed in December 2011. After the installation and commissioning of the electrical components, the ERT Laboratory Nuremberg starts work in July 2012. The new facilities set a new quality standard in the testing of insulants. One of the special features of the ERT Laboratory Nuremberg is its close cooperation with the chemical and physical test laboratory housed in the same building, which creates unique synergies for development projects and quality testing.
A long tradition of research and development
In the 1920s, the transformer plant systematically expands its research and development capacities, adding the most modern equipment. The development of transformer technology makes great progress. Oil transformers are monitored for the first time with a Buchholz relay, an electrical safety device. In 1923, the first fivelimb cores are produced for highcapacity 3phase AC current transformers. 1927 sees the start of the manufacture of transformers with step switches for uninterruptible voltage adjustment under load. After the war, the research facilities are built up again and systematically expanded. The investigations made possible as a result lay the foundations for the steady growth of the Nuremberg transformer plant.
A comprehensive test portfolio
The ERT Laboratory has a testing hall and an air conditioned measurement cell. Both can be operated in parallel or independently of each other. This facilitates flexible workflows and operating sequences and enables unconventional studies to be carried out. In addition to the standard test voltages such as AC, DC, and impulse voltages, polarity reversal tests (DC) can also be carried out and chopped impulse voltages can be generated. In parallel, partial discharge analyses can be conducted and dielectric measurements (e.g. loss factor and capacity measurements) can be carried out in defined climatic conditions.
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Published by and copyright © 2014: Siemens AG Energy Sector Freyeslebenstrasse 1 91058 Erlangen, Germany
Siemens AG Energy Sector Power Transmission Division Transformers Katzwanger Strasse 150 90461 Nuremberg, Germany
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Subject to change without prior notice. The information in this document contains general descriptions of the technical options available, which may not apply in all cases. The required technical options should therefore be specified in the contract.