Creation of a software tool for irradiance sensor allocation in PV plants

Creation of a software tool for irradiance sensor allocation in PV plants: Providing guidance for designers of the monitoring infrastructure of utility-scale solar parks

van Kouwen, Mathijs (TU Delft Electrical Engineering, Mathematics and Computer Science)

Ziar, H. (mentor)
Alcañiz Moya, A. (graduation committee)

Delft University of Technology

Electrical Engineering | Sustainable Energy Technology

2023-05-11

In existing standards for photovoltaic (PV) plants, little guidance is provided in the spatial allocation of pyranometers. No universal and easily scalable algorithms exist that help designers of monitoring infrastructure in solar parks choose the most representative positions for irradiance sensors.

To fill this gap, a software tool is created for determining the most representative sensor locations requiring only the PV plant's main characteristics, layout, and future data usage as input. If necessary, advice on the number of sensors can be given.

The sky view factor (SVF) was determined for all relevant planes in the PV plant. This was done by adding all SVF contributions of N_a altitude bands and NA azimuth slices. The horizon obstruction at each location was determined using 30m spatial resolution digital surface model (DSM) data from Sentinel Hub imagery service. Two SVF modelling variables were optimised by varying them in SVF calculations at 3800+ existing PV plant locations in Europe. N_A,optimal=1080 and r_max,optimal=2000m were found.

The Perez model stood out from a literature review of sky diffuse model comparison studies. Moreover, six decomposition models were compared using data from twelve European Baseline Surface Radiation Network (BSRN) weather stations. A seasonal bias was found and compensated in an attempt to improve the already best-performing BRL model. The average normalised root mean squared error (nRMSE) improved from 31.8% to 30.5%. The average absolute relative mean bias error (rMBE) improved from 11.2% to 10.6%.

The software tool determines SVF maps for different orientations and tilts. Ground albedo time series is extracted from the NASAPOWER database, and historical global horizontal irradiance is imported from PV-GIS. Plane-of-array irradiance maps are constructed through transposition modelling. Subsequently, error maps are created, from which the location with minimal measurement deviations can be extracted.

The software tool was tested for a case study in Eisleben (Germany) and Kolindros (Greece). The relative prevented measurement deviation (rPMD) was up to 1.2% in the Kolindros case, with an average of 0.8% compared to 0.3% in the Eisleben case. Instantaneous measurement deviations up to seven times the rPMD were seen. Furthermore, a simplified allocation algorithm only based on the SVF maps was found, only valid under the current assumptions.

Decomposition Modelling
Transposition modelling
Tilted plane modelling
SVF
Sky view factor
Separation modelling
Pyranometer
Utility-scale PV plants
Solar parks
Monitoring system
Irradiance modelling
Irradiance models

http://resolver.tudelft.nl/uuid:1463a5ed-b4b5-49cc-8b38-9f46db578394

2025-05-11

Student theses

master thesis

© 2023 Mathijs van Kouwen