Weathering of PV Modules

Dr.-Ing. Michael Köhl, physicist, has been actively involved in the field of solar energy conversion since 1977. He presently works on service-life analysis of solar collectors and photovoltaic modules in the department Weathering and Reliability at Fraunhofer ISE. He was the coordinator of various successful EU projects on durability testing of solar energy systems, and leader of the German flagship project on durability of PV modules ?PV-Zuverlässigkeit?. Up till now he edited two textbooks on the durability of optical materials and on the potential of polymeric materials for solar thermal applications. Sandrin Saile, M.A. joined Fraunhofer ISE's department "Weathering and Reliability" in 2009 where she is responsible for the management and dissemination of the department?s research activities. Another field of work is networking in international solar energy committees with a special interest in transdisciplinary sustainability studies and the interconnection between environmental politics, culture and technology.

INTRODUCTION

Market needs and developments

Design of presently used and future PV-devices

Characterisation of PV-modules



OPERATION CONDITIONS

Weathering, voltages, soiling, salt impact



OUTDOOR MONITORING

Sensors for climate-measurements

Data-acquisition systems

IV-curve measurements



EVALUATION OF STRESS CONDITIONS

Correlation macro-climate and micro-climate

Modelling micro-climate: Module temperature, surface humidity, effective humidity

Comparison of the climate at different testing sites and evaluation of stress levels



ACCELERATION FACTORS AND TIME TRANSFORMATION FUNCTIONS

Acceleration possibilities

Acceleration models (time transformation functions) for the different stress factors



DEFINITION OF ACCELERATED LIFE TEST (ALT) CONDITIONS FOR DIFFERENT LOCATIONS AND DIFFERENT STRESS FACTORS

ALT for tropical, arid, urban, maritime and alpine conditions for UV-load, moisture, humidity, temperature difference, potential induced degradation etc.



SINGLE STRESS-FACTOR ALT

Requirements for the test equipment

Test results

Evaluation of the material-specific parameters for the time-transformation function



DESIGN OF COMBI-TESTS

Simultaneous stress application (UV and humidity, temperature cycling and humidity)

Modelling by FEM

Requirements to the test equipment

Sequential test procedures



EVALUATION OF COMBI-TESTS WITH DIFFERENT STRESS LEVELS

Service life estimation from combi-tests



OUTDOOR EXPOSURE

IV-curve monitoring and evaluation

Comparison with ALT



ANALYSIS OF DEGRADATION PRODUCTS

Non-destructive optical methods (spectroscopy, luminescence)

Destructive methods (Rheology, SEM/EDX)



PROPOSAL FOR ACCELERATED SERVICE LIFE TESTING PROCEDURE



MODELLING THE INTEGRAL ENERGY YIELD DURING THE LIFE-TIME

Degradation functions from combi-tests

Low-light-behaviour

Comparison of different modules and systems operating at different locations