Proposta de critérios norteadores e requisitos mínimos para licenciamento ambiental de usinas fotovoltaicas no Brasil / Proposal of criteria and minimum requirements for environmental licensing of photovoltaic power plants in Brazil

RESUMO A geração de energia fotovoltaica vem crescendo no Brasil, e a capacidade instalada de usinas fotovoltaicas (UFV) deve superar 3 GW em alguns anos. Essa tecnologia causa menor impacto ambiental do que formas de geração tradicionais, como termoelétricas e hidroelétricas. Entretanto os impactos quando da implantação de UFV devem ser considerados no licenciamento ambiental. No Brasil, não há uma legislação federal que estabeleça critérios mínimos para esse tipo de licenciamento. Alguns estados criaram legislações próprias, que divergem nas exigências e critérios adotados. Essa disparidade causa insegurança no processo de licenciamento, dificuldade na aprovação dos estudos, aumento de custos e prazos, podendo inviabilizar empreendimentos. Neste estudo foram analisadas e comparadas as legislações em 12 estados, nas quais está previsto o desenvolvimento de UFV, como base para propor critérios claros, objetivos e padronizados para o enquadramento legal das UFV. Como resultado desta pesquisa, propõe-se o enquadramento como de baixo impacto, com licenciamento simplificado e emissão de licença prévia (LP) e licença de instalação (LI) em etapa única. Os critérios para enquadramento de porte são potência instalada e área diretamente ocupada. Para potencial poluidor, os critérios são necessidade de supressão de vegetação nativa (e/ou em área de preservação permanente - APP) e localização em área de fragilidade socioambiental. A avaliação conjunta desses critérios define qual o estudo ambiental necessário ao licenciamento. O trabalho lista os principais aspectos e impactos ambientais a serem abordados em tais estudos. Estes critérios unificados formam uma ferramenta para promover tanto o desenvolvimento de UFV como a proteção do meio ambiente com minimização de possíveis impactos.

ABSTRACT Photovoltaic power generation is growing in Brazil. It is expected that installed capacity of photovoltaic power plants (PVPP) will exceed 3 GW within a few years. This technology is known to have less environmental impacts than other traditional forms of energy generation, however its environmental impacts should be considered in the environmental licensing process. In Brazil there is no federal legislation establishing the criteria or requirements for licensing this type of power plants. Some states have created their own legislation, whose criteria differ widely. This lack of national standardization causes licensing agencies' insecurity, difficulty in approving studies, increase in costs and deadlines, and has caused many projects to be unfeasible. Therefore, this study did an analysis and comparison of 12 states' legislation regarding environmental licensing of PVPPs. This analysis based the proposal of clear, objective and standardized criteria for PVPPs licencing. It is proposed to normally classify the PVPPs as having low environmental impact, with simplified licensing, issuing Preliminary and Installation License in a single step. The proposed criteria for classification in size are installed power and directly occupied area. Regarding the pollution potential, the criteria are suppression of native vegetation (and/or in a permanent preservation area); and location in environmental fragile areas. The joint evaluation of these criteria defines the type of environmental study to be required for licensing. The main aspects and environmental impacts that should be addressed are listed. These unified criteria are a tool to promote both development of PVPP projects and the protection of the environment, by minimizing their potential environmental impacts.

Development of a Standard of Solarimetric Stations SONDA

Abstract With the increasing of energy demand in Brazil and the unprecedent popular support for the use of energy sources with low environmental impact, the market for photovoltaic energy has become progressively relevant. Thus, it is of strategic importance to gather information of the solar resources either for a particular location or a specific region. This paper presents all the steps taken in order to design a solarimetric station intended to be used as part of the National Institute for Space Research's(INPE)Environmental Database System (SONDA)network, from the specification of the devices and sensors that will take part in it to the structural dimensioning necessary in order to accommodate them. This high-quality network mainly collects and stores surface solar radiation data, indispensable for the solar energy study and prospecting, therefore of great importance for the generation of energy of the State of Paraná- Brazil.

Determination of Diffused Irradiation from Horizontal Global Irradiation - Study for the City of Curitiba

Abstract Understanding the solar radiation values ​​in the surface is important for the development of solar energy projects, obtaining through radiometers installed in certain places or publications as in solar energy atlases. Typically, solar or weather stations do not have sensors to measure diffuse irradiation due to high investment and the need for constant maintenance. This paper presents methods for the determination of diffuse irradiation from surface measured data of global horizontal irradiation in the city of Curitiba, obtained through pyranometers installed at the Federal University of Technology - Paraná (UTFPR) headquarters and from Curitiba-A807 National Institute of Meteorology (INMET) station. Two models are presented for the estimation of the monthly mean daily diffuse irradiation, based on the studies of Liu and Jordan (1960) and Page (1961). Finally, these data were compared with those presented by the Solar Energy Atlas - Paraná, verifying the percentage differences presented. It was observed that the model elaborated by Page presented better results in the diffuse radiation estimates when compared to the values ​​presented by the Paraná Atlas, with an average variation of -1.39% and -1.55%, for data from INMET and UTFPR respectively.

Projection of the Demand of Electricity in the State of Paraná for 2050 and Proposal of Complementarity of the Electrical Matrix through the Solar Photovoltaic Source

ABSTRACT Energy is essential for human activities and, considering the prospect that the demand for energy increases, it is necessary to carry out studies of new technical solutions so as to make the use of the available sources feasible. Greater participation of renewable energy sources in the electricity matrix has been stimulated worldwide and a number of public policies have been adopted by different countries in order to seek greater energy security and sustainability. In this context, photovoltaic solar energy potentially plays an important role in the evolution of the participation of alternative sources in the world energy matrix, considering its abundance and wide availability in the terrestrial surface. This work proposes a methodology to model a scenario that estimates the consumption of electricity in 2050 in the State of Paraná and how it can contribute to the complementarity of the Brazilian electricity matrix. In addition, it indicates, based on decision factors, which are the most indicated mesoregions for possible deployments of grid-connected photovoltaic systems in Paraná to meet this demand.

Determination of the Ideal Time for Cleaning of Photovoltaic Panels Aiming at Better Productivity - Case Study of the Implanted Grid-Connected Photovoltaic System at the Federal University of Technology of Paraná

ABSTRACT Considering the development of new technologies in the electricity generation sector, such as solar photovoltaic energy, some studies are made necessary to obtain the best performance of these systems. This generation model consists of modules, which are exposed to adverse climatic conditions, they receive direct influence of the dirt, according to the environment from which they were installed, which directly influences the performance of the system since, due to the disposal of waste on the module, a smaller portion of the solar radiation can reach the photovoltaic cell effectively. The objective of this work is to determine the ideal time for cleaning photovoltaic panels, aiming at high system productivity, having as object of study the photovoltaic panels of the Federal University of Technology - Paraná (UTFPR) Campus Curitiba, installed in the Green Office (GO) and at Neoville´s headquarters. Within this objective, it was necessary to verify its merit indexes, parameters used to compare grid-connected photovoltaic systems. The study shows the importance of frequent cleaning of panels, especially when they are installed in urban areas and close to high traffic access roads.

Analysis of the Operation of Photovoltaic Systems Installed at Federal University of Technology - Paraná in Curitiba

ABSTRACT The Federal University of Technology - Paraná (UTFPR), Campus Curitiba, has a Grid-Connected Photovoltaic System (GCPVS) of 2.1 kWp in the Green Office (GO), which has been in operation since December 2011, and until September 2017 generated little more than 13.64 MWh and a GCPVS of 10.2 kWp, in operation since February 2016. The photovoltaic panel of the 2.1 kWp system was set up following the inclination of the roof of the building, which does not give its maximum performance. On the other hand, the panel of the 10.2 kWp system in Neoville was installed in optimum conditions, that is, oriented to the north and with slope equal to the latitude of Curitiba and, up tol September 2017 generated more than 20.65 MWh. This paper presents the monitoring of the electric energy generated by the systems and also a history of the merit indexes of the GCPVS, which are: Productivity (Yield); Performance Ratio; and Capacity Factor. These indexes allow to evaluate the performance of the GCPVS and make a comparison between them. Finally, the photovoltaic generation of both GCPVS proved to be a sustainable and effective form of distributed generation of electric energy in the urban environment.