A method to estimate the location and orientation of distributed photovoltaic systems from their generation output data

Distributed PV systems, mostly on household, commercial and industrial rooftops, represent around half of global PV capacity. Their orientation (tilt and azimuth) often depends on the particular rooftop on which they are installed, rather than being designed for optimal performance. Furthermore, data collection, and particularly validation, of their configurations is often lacking. However, their generation output is usually well monitored given this determines cashflows. Rooftop PV systems therefore pose important performance assessment challenges. Large databases of distributed PV generation performance now exist. However, there is often little information on the actual system installation, or quality checks on provided information, which is a major problem for performance assessment. We therefore present a method for estimating tilt, azimuth, and even location for PV plants by fitting a model to their time-series generation. The method is tested for three case studies: (1) simulated generation of a theoretical PV system using weather data; (2) measured generation of PV systems with validated location and orientation; and (3) measured generation from PV systems with self-reported information. Results suggest that the proposed method can estimate array tilt, azimuth, longitude, and latitude with Mean Absolute Deviations of 2.75°, 5.85°, 0.2°, and 4.08° respectively, for a typical PV system.

[1]  B. Marion Comparison of predictive models for photovoltaic module performance , 2008, 2008 33rd IEEE Photovoltaic Specialists Conference.

[2]  Nobuhiro Kameda,et al.  Experimental and Theoretical Study on the Optimal Tilt Angle of Photovoltaic Panels , 2006 .

[3]  John Boland,et al.  Evaluating tilted plane models for solar radiation using comprehensive testing procedures, at a southern hemisphere location , 2013 .

[4]  Clifford W. Hansen,et al.  Global horizontal irradiance clear sky models : implementation and analysis. , 2012 .

[5]  H. Manz,et al.  Empirical validation of models to compute solar irradiance on inclined surfaces for building energy simulation , 2007 .

[6]  Jonathan Leloux,et al.  Review of the Performance of Residential PV systems in France , 2012 .

[7]  Tapan Kumar Saha,et al.  Analysis of yearlong performance of differently tilted photovoltaic systems in Brisbane, Australia , 2013 .

[8]  Aron Dobos,et al.  System Advisor Model, SAM 2011.12.2: General Description , 2012 .

[9]  H.M.S. Hussein,et al.  Performance evaluation of photovoltaic modules at different tilt angles and orientations , 2004 .

[10]  Gilles Notton,et al.  Performance evaluation of various hourly slope irradiation models using Mediterranean experimental data of Ajaccio , 2006 .

[11]  E. D. Mehleri,et al.  Determination of the optimal tilt angle and orientation for solar photovoltaic arrays , 2010 .

[12]  Aldo Vieira da Rosa Chapter 12, Solar Radiation , 2009 .

[13]  Anna Bruce,et al.  Assessing the representativeness of ‘Live’ distributed PV data for upscaled PV generation estimates , 2015, 2015 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC).

[14]  J. Hay Calculation of monthly mean solar radiation for horizontal and inclined surfaces , 1979 .

[15]  I. Reda,et al.  Solar position algorithm for solar radiation applications , 2004 .

[16]  Ying-Pin Chang Optimal the tilt angles for photovoltaic modules in Taiwan , 2010 .

[17]  Sarah Kurtz,et al.  Analysis of Photovoltaic System Energy Performance Evaluation Method , 2013 .

[18]  John Boland,et al.  Modelling of diffuse solar fraction with multiple predictors , 2010 .

[19]  T. M. Klucher Evaluation of models to predict insolation on tilted surfaces , 1978 .

[20]  Brian Norton,et al.  The impact of array inclination and orientation on the performance of a grid-connected photovoltaic system , 2007 .

[21]  Marko Topic,et al.  Orientation and Tilt Dependence of a Fixed PV Array Energy Yield Based on Measurements of Solar Energy and Ground Albedo – a Case Study of Slovenia , 2011 .

[22]  Daniel M. Riley,et al.  Comparison of PV system performance-model predictions with measured PV system performance , 2008, 2008 33rd IEEE Photovoltaic Specialists Conference.

[23]  C.C.Y. Ma,et al.  Statistical comparison of models for estimating solar radiation on inclined surgaces , 1983 .

[24]  Amit Kumar Yadav,et al.  Tilt angle optimization to maximize incident solar radiation: A review , 2013 .

[25]  Aldo Orioli,et al.  The ASHRAE clear sky model. An evaluation in the Mediterranean Zone , 1988 .

[26]  Alistair B. Sproul,et al.  Photovoltaic (PV) performance modelling in the absence of onsite measured plane of array irradiance (POA) and module temperature , 2016 .

[27]  G. Kamali,et al.  Evaluation of 12 models to estimate hourly diffuse irradiation on inclined surfaces , 2008 .

[28]  John K. Kaldellis,et al.  Experimental investigation of the optimum photovoltaic panels’ tilt angle during the summer period , 2012 .

[29]  P. Ineichen,et al.  A new simplified version of the perez diffuse irradiance model for tilted surfaces , 1987 .