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Simulation of performance differences between offshore and land‐based photovoltaic systems

Sara Golroodbari, Wilfried van Sark

2020Progress in Photovoltaics Research and Applications146 citationsDOIOpen Access PDF

Abstract

Abstract The purpose of this study is to model, simulate, and compare the performance of a photovoltaics system on land and at sea. To be able to have a fair comparison the effect of sea waves, wind speed and relative humidity are considered in this model. The sea waves are modeled in the frequency domain, using a wave spectrum. The irradiation on a tilted surface for a floating system is calculated considering the tilt angle that is affected by the sea waves. Moreover, the temperature is estimated based on heat transfer theory and the natural cooling system for both floating and land‐based photovoltaic systems. Actual measured weather data from two different locations, one located at Utrecht University campus and the other one on the North Sea, are used to simulate the systems, thus making the comparison possible. Energy yield is calculated for these weather conditions. The results show that the relative annual average output energy is about 12.96% higher at sea compared with land. However, in some months, this relative output energy increases up to 18% higher energy yield at sea.

Topics & Concepts

Relative humidityEnvironmental scienceWind speedPhotovoltaic systemMeteorologyTilt (camera)Yield (engineering)Offshore wind powerPhotovoltaicsAtmospheric sciencesWind powerGeologyEngineeringPhysicsElectrical engineeringThermodynamicsMechanical engineeringSolar Radiation and PhotovoltaicsWind Energy Research and DevelopmentSolar Thermal and Photovoltaic Systems
Simulation of performance differences between offshore and land‐based photovoltaic systems | Litcius