Using this standard, the project partners of the Network of Excellence DERlab (Distributed Energy Resources Laboratory) internationally unify long-term measurements of solar modules under real conditions.
Until 20 September, DERlab will be accepting comments. At the beginning of October, the network will publish the standard.
Measuring Real Yields
“The demand for measurements under real conditions is increasing. We have reacted to this by developing this new standard”, explains Professor Nikos Hatziargyriou, chairman of the DERlab workshop. With the long-term measurement of the effective energy output the standard provides procedures for energy rating of photovoltaic modules outside laboratory conditions.
In parallel in field tests, two modules will be measured for at least a year. A third module kept in a dark place will serve as a comparison. Every 15 seconds the data acquisition will record the current and voltage at the maximum power point of the solar module. In addition, it will measure the irradiation strength and the module temperature and captures the overall cu rent/voltage characteristic.
“With this new standard, DERlab creates uniform measuring procedures with which one can directly compare the energy yield of solar modules site-specifically in different locations and under the most varying of climatic conditions”, says Roland Bründlinger, board chairman of DERlab. “While the IEC standards consider specially the performance of partial aspects of the solar power plants, it is our objective to characterize the entire system in the future as a whole. Thus we shortly plan to incorporate inverters in the testing as well.”