A novel approach suggestion for assessing the impact of topographic shading on the estimation of the floating photovoltaic technical potential

Author:

Yilmaz Osman SalihORCID,Ateş Ali MuratORCID,Gülgen Fatih

Publisher

Elsevier BV

Subject

General Energy,Pollution,Mechanical Engineering,Building and Construction,Electrical and Electronic Engineering,Industrial and Manufacturing Engineering,Civil and Structural Engineering

Reference67 articles.

1. Long time-series mapping and change detection of coastal zone land use based on google earth engine and multi-source data fusion;Chen;Remote Sens,2022

2. Location alternatives generation and elimination of floatovoltaics with virtual power plant designs;Tercan;Renew Energy,2022

3. Techno-economic perspective of a floating solar PV deployment over urban lakes: a case study of NUST lake Islamabad;Hafeez;Sol Energy,2022

4. Electric power components and systems an improved active disturbance rejection model predictive power control with circulating current reduction for grid-connected modular multilevel converter an improved active disturbance rejection model predictive powe;Bekhouche;Electr Power Components Syst,2022

5. Determination of the appropriate zone on dam surface for Floating Photovoltaic System Installation using RS and GISc technologies;Yılmaz;Int J Eng Geosci,2022

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