4 research outputs found
Uncertainty in energy yield estimation based on C-Si module roundrobin results.
Results of the European FP7 Sophia project roundrobin
of c-Si module power measurements at STC and
low irradiance and temperature coefficients were used to
calculate annual energy yield at four sites. The deviation
in the estimates solely due to the different measurement
results is reported, neglecting the uncertainty in the
meteorological data and losses unrelated to the
performed measurements. While minimising the
deviation in Pmax measurements remains the key
challenge, the low irradiance and temperature
coefficient contributions are shown to be significant.
Propagating the measurement deviation in c-Si module
measurements would suggest that expanded uncertainty
in energy yield due to module characterization alone can
be as high as ±3-4%
Results of the Sophia module intercomparison part-1: stc, low irradiance conditions and temperature coefficients measurements of C-Si technologies
The results of a measurement intercomparison between eleven European laboratories measuring PV energy relevant parameters are reported. The purpose of the round-robin was to assess the uncertainty analyses of the participating laboratories on c-Si modules and to establish a baseline for the following thin-film round-robin. Alongside the STC measurements, low irradiance conditions (200W/m2) and temperature coefficients measurements were performed. The largest measurement deviation from the median at STC was for HIT modules from -3.6% to +2.7% in PMAX, but in agreement with the stated uncertainties of the participants. This was not the case for low irradiance conditions and temperature coefficients measurements with some partners underestimating their uncertainties. Larger deviations from the median from -5% to +3% in PMAX at low irradiance conditions and -6.6% to +18.3% for the PMAX temperature coefficient were observed. The main sources of uncertainties contributing to the spread in measurements were the RC calibration, mismatch factor and capacitive effects at STC and low irradiance conditions as well as the additional light inhomogeneity for the latter. The uncertainty in the junction temperature and the temperature deviation across the module were the major contributors for temperature coefficients measurements
Three-dimensional Modeling of Anode-supported Planar SOFC with Direct Internal Reforming
Process and EnergyMechanical, Maritime and Materials Engineerin