Is floating photovoltaic better than conventional photovoltaic? Assessing environmental impacts

ABSTRACT Photovoltaic (PV) solar energy installations are growing all over the world as a promising renewable alternative to generate electricity. However, many studies have highlighted some drawbacks associated with the installation and operation of conventional solar energy power plants. Thus, floating photovoltaic (FPV) systems have been emerging as a new concept in solar energy to lessen negative environmental impacts caused by allocation of conventional PV facilities. This paper is an overview of the potential negative and positive environmental impacts caused by photovoltaic systems with particular interest on large-scale conventional and floating photovoltaic. This study addresses and compares the impacts at all phases of project implementation, which covers planning, construction, and operation and decommissioning, focusing on ambient located in the tropics. The overall impacts associated with project allocation such as deforestation (for the project implementation and site accessing), bird mortality, erosion, runoff, and change in microclimate are expected to have higher magnitudes for the implementation of conventional PV facilities. The results highlight advantages of FPV over conventional PV during the operational and decommissioning phases as well. Though, further studies are required to assess both qualitative and quantitative aspects of installations in similar areas.

[1]  Ashley Bowes,et al.  Strategic Environmental Assessment , 2019, Encyclopedia of the UN Sustainable Development Goals.

[2]  Giuseppe Marco Tina,et al.  Floating photovoltaic plants and wastewater basins: an Australian project , 2017 .

[3]  Turlough F. Guerin,et al.  Evaluating expected and comparing with observed risks on a large-scale solar photovoltaic construction project: A case for reducing the regulatory burden , 2017 .

[4]  Gardenio Diogo Pimentel da Silva,et al.  ESTIMATIVA DE GERAÇÃO DE ENERGIAATRAVÉS DE UM SISTEMA FOTOVOLTAICO: IMPLICAÇÕES PARA UM SISTEMA FLUTUANTE NO LAGO BOLONHA, BELÉM-PARÁ , 2017 .

[5]  Qie Sun,et al.  Power Generation Efficiency and Prospects of Floating Photovoltaic Systems , 2017 .

[6]  Turlough Guerin,et al.  A case study identifying and mitigating the environmental and community impacts from construction of a utility-scale solar photovoltaic power plant in eastern Australia , 2017 .

[7]  Christopher Doll,et al.  Renewable energy and biodiversity: Implications for transitioning to a Green Economy , 2017 .

[8]  Ankit Kumar Singh,et al.  Feasibility study of a grid-tied 2MW floating solar PV power station and e-transportation facility using ‘SketchUp Pro’ for the proposed smart city of Pondicherry in India , 2017 .

[9]  Jeffrey C. Joe,et al.  Utility-scale solar and public attitudes toward siting: A critical examination of proximity , 2016 .

[10]  Neha Yadav,et al.  Floating photovoltaic power plant: A review , 2016 .

[11]  Karen P. Smith,et al.  A preliminary assessment of avian mortality at utility-scale solar energy facilities in the United States , 2016 .

[12]  Oriol Gomis-Bellmunt,et al.  Topologies for large scale photovoltaic power plants , 2016 .

[13]  Ana Delicado,et al.  Community perceptions of renewable energies in Portugal: Impacts on environment, landscape and local development , 2016 .

[14]  Yosoon Choi,et al.  Analysis of the Potential for Use of Floating Photovoltaic Systems on Mine Pit Lakes: Case Study at the Ssangyong Open-Pit Limestone Mine in Korea , 2016 .

[15]  Joshua M. Pearce,et al.  The potential of agrivoltaic systems , 2016 .

[16]  Jeffrey C. Joe,et al.  Public attitudes regarding large-scale solar energy development in the U.S. , 2015 .

[17]  K. Trapani,et al.  A review of floating photovoltaic installations: 2007–2013 , 2015 .

[18]  Thomas Rose,et al.  The Dark Side of Photovoltaic - 3D Simulation of Glare Assessing Risk and Discomfort , 2015, EnviroInfo.

[19]  Roberta Aretano,et al.  The contribution of Utility-Scale Solar Energy to the global climate regulation and its effects on local ecosystem services , 2014 .

[20]  Frede Blaabjerg,et al.  Renewable energy resources: Current status, future prospects and their enabling technology , 2014 .

[21]  Soon-Jong Yoon,et al.  Design and installation of floating type photovoltaic energy generation system using FRP members , 2014 .

[22]  Zhiyong Wu,et al.  Environmental impacts of large-scale CSP plants in northwestern China. , 2014, Environmental science. Processes & impacts.

[23]  Young-Kwan Choi,et al.  A Case Study on Suitable Area and Resource for Development of Floating Photovoltaic System , 2014 .

[24]  S. Larsen Is environmental impact assessment fulfilling its potential? The case of climate change in renewable energy projects , 2014 .

[25]  Paula Varandas Ferreira,et al.  Public opinion on renewable energy technologies in Portugal , 2014 .

[26]  Miguel Redón Santafé,et al.  Theoretical and experimental analysis of a floating photovoltaic cover for water irrigation reservoirs , 2014 .

[27]  Miguel Redón Santafé,et al.  Implementation of a photovoltaic floating cover for irrigation reservoirs , 2014 .

[28]  Young-Kwan Choi,et al.  A Study on Power Generation Analysis of Floating PV System Considering Environmental Impact , 2014 .

[29]  Francisco Javier Sánchez-Romero,et al.  A new photovoltaic floating cover system for water reservoirs , 2013 .

[30]  David M. Stoms,et al.  Siting solar energy development to minimize biological impacts , 2013 .

[31]  A. Reller,et al.  Future recycling flows of tellurium from cadmium telluride photovoltaic waste , 2012 .

[32]  Jeffrey E. Lovich,et al.  Wildlife Conservation and Solar Energy Development in the Desert Southwest, United States , 2011 .

[33]  Christian Dupraz,et al.  Combining solar photovoltaic panels and food crops for optimising land use: Towards new agrivoltaic schemes , 2011 .

[34]  V. Fthenakis,et al.  Environmental impacts from the installation and operation of large-scale solar power plants , 2011 .

[35]  V. Fthenakis,et al.  Large photovoltaic power plants: Wildlife impacts and benefits , 2011, 2011 37th IEEE Photovoltaic Specialists Conference.

[36]  Bram F. Noble,et al.  Environmental Impact Assessment , 2011 .

[37]  Joshua M. Pearce,et al.  Producer Responsibility and Recycling Solar Photovoltaic Modules , 2010 .

[38]  C. A. Simon Cultural Constraints on Wind and Solar Energy in the U.S. Context , 2010 .

[39]  S. Pingel,et al.  Potential Induced Degradation of solar cells and panels , 2010, 2010 35th IEEE Photovoltaic Specialists Conference.

[40]  H. Gunerhan,et al.  Environmental Impacts from the Solar Energy Systems , 2008 .

[41]  Ricardo Rüther,et al.  Solar energy scenarios in Brazil. Part two: Photovoltaics applications , 2008 .

[42]  Thomas Fischer,et al.  Regional electricity transmission planning and SEA: The case of the electricity company ScottishPower , 2006 .

[43]  T. Tsoutsos,et al.  Environmental impacts from the solar energy technologies , 2005 .

[44]  J. F. Benson,et al.  What is the alternative? Impact assessment tools and sustainable planning , 2003 .

[45]  Frank Vanclay,et al.  International Principles For Social Impact Assessment , 2003 .

[46]  Frank Vanclay,et al.  Function evaluation as a framework for the integration of social and environmental impact assessment , 2001 .

[47]  Shahid Abbas Abbasi,et al.  The likely adverse environmental impacts of renewable energy sources , 2000 .

[48]  W. Ettinger Impacts of a chemical dust suppressant/soil stabilizer on the physical and biological characteristics of a stream , 1987 .

[49]  Paolo Rosa-Clot,et al.  Floating photovoltaic plants: Performance analysis and design solutions , 2018 .

[50]  Solar PV Jobs & Value Added in Europe November 2017 , 2017 .

[51]  Ricardo Rüther,et al.  Atlas Brasileiro de Energia Solar , 2017 .

[52]  E. Visser The impact of South Africa's largest photovoltaic solar energy facility on birds in the Northern Cape, South Africa , 2016 .

[53]  M. M. Aman,et al.  A review of Safety, Health and Environmental (SHE) issues of solar energy system , 2015 .

[54]  Thomas Fischer,et al.  Strategic environmental assessment (SEA) for wind energy planning: Lessons from the United Kingdom and Germany , 2015 .

[55]  B. O’Connor,et al.  Solar Energy Development and Aquatic Ecosystems in the Southwestern United States: Potential Impacts, Mitigation, and Research Needs , 2014, Environmental Management.

[56]  Sujith Ravi,et al.  Environmental impacts of utility-scale solar energy , 2014 .

[57]  Markus Haider,et al.  Performance Analysis of Offshore Solar Power Plants , 2014 .

[58]  Samuel Luna de Abreu,et al.  Brazilian Atlas for Solar Energy Resource: Swera Results , 2008 .

[59]  Tomas Carlsson,et al.  Strategic environmental assessment methodologies--applications within the energy sector , 2003 .