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Dutch researchers propose modified IEC 61853 standard for bifacial solar – pv magazine International


Scientists within the Netherlands have proposed an extension of the IEC 61853 commonplace on bifacial photo voltaic modules, with some necessary corrections. Specifically, they suggest altering the third and fourth elements of the usual.

The researchers from Delft College of Expertise within the Netherlands tried to point out that the IEC 61853 commonplace, which describes primary development necessities for PV modules, could be prolonged to the bifacial panel.

“Our job offers a complete methodology for calculating the power ranking of bifacial modules and reveals that, to make it appropriate with the present commonplace, the Local weather Particular Power Score (CSER) should be normalized to the entrance aspect irradiation,” stated the researcher Malte Vogt. pv journal.

Vogt famous that IEC 61853 presently solely applies to monofacial panels. “Our paper is a step in updating the usual to additionally cowl bifacial modules, that are quickly growing their market share,” stated Vogt.

Specifically, scientists have proposed modifications for the third a part of the IEC 61853 commonplace, which mixes module measurements and local weather information in an power yield and ranking calculation algorithm. In addition they suggest modifications for the fourth half, which defines reference climates with hourly illumination, temperature, wind velocity, and angle of incidence information.

The Dutch group says that the local weather information from the fourth half could be expanded to acquire all of the irradiance values ​​for the bifacial modules. They stated that within the third half, the power yield calculation algorithm needs to be adjusted for bifacial panel configurations.

The lecturers launched a brand new mannequin to calculate the rear irradiance and stated that its calculation needs to be executed completely by creating the bifacial module power ranking information of the local weather and never of every consumer.

“It expands the local weather information from IEC 61853-4 to supply extra again irradiance elements required for bifacial modules,” they stated.

They divide the again irradiance (Mrr) to beam direct, sky diffuse, and floor mirrored diffuse irradiance.

“Observe that we use the 20-degree tilt angle of the module to make the comparability of the power rankings of the monofacial and bifacial module, as a result of the usual monofacial fixes the angle of 20 levels for all climates whatever the finest tilt for the local weather,” the scientists stated, noting that east-west oriented and vertical installations, in addition to programs with trackers, shouldn’t be thought of.

The researchers stated they maintained the IEC 61853 commonplace of 4 essential calculation steps for monofacial panels, whereas correcting angular losses for the yield calculation algorithm.

“Opposite to the usual, we use it twice as soon as for the entrance and as soon as for the illumination of the again,” they defined, saying that they carried out the correction of the irradiance mirrored by the bottom, in addition to the spectral correction .

The staff examined the algorithm with two completely different strategies underneath actual out of doors situations over a nine-month interval. One of many two strategies provides the identical CSER worth for a bifaciality of zero because the monofacial module. One all the time provides a decrease CSER.

The scientists say their work consists of extending the rear-side angular correction for ground-reflected irradiance and mixing complete and efficient irradiance with temperature and energy calculation measures.

“Thus, comparatively easy calculation steps and no measurements, which haven’t been used for the entrance half, are added when increasing the bottom of bifacial modules,” they stated. They offered their findings in “Growing an power ranking for bifacial photovoltaic modules,” which was just lately revealed in Advances in Photovoltaics.

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