Pedro Cordeiro Neves
Graduado em Engenharia Florestal da Universidade Federal do Paraná (UFPR) em 2017. No ano de 2014 foi aprovado para o programa de intercâmbio Ciências Sem Fronteiras, na California State University - Humboldt. No primeiro semestre de 2014, estudou inglês durante 5 meses, para posteriormente ingressar na graduação em Forestry, na mesma instituição. Após dois semestres estudando na graduação, iniciou um estágio no Fire Laboratory da CSU - Humboldt. Juntamente a essa atividade, também auxiliou um mestrando em sua dissertação com amostras de diferentes espécies nativas, para estudos dendrocronológicos. Ainda durante o intercâmbio, trabalhou por uma semana como voluntário no Redwood National and State Parks (RNSP), auxiliando nas atividades de inventário florestal. Em 2019, concluiu um curso Técnico em Segurança do Trabalho pelo CEPM. Atualmente, está concluindo uma especialização com MBA em Gestão Ambiental pela UFPR e ingressou em uma Especialização em Engenharia de Segurança do Trabalho pela Universidade Tecnológica Federal do Paraná (UTFPR).
Graduated in Forest Engineering from the Federal University of Paraná (UFPR) in 2017. In 2014 he was approved for the Science Without Borders exchange program at California State University - Humboldt. In the first semester of 2014, he studied English for 5 months, after that enrolled in the undergraduate degree in Forestry at the same institution. After two semesters studying undergraduate, he began an internship at CSU - Humboldt's Fire Laboratory. Along with this activity, he also assisted a master student in his dissertation with samples of different native species, for dendrochronological studies. Also during the exchange, he worked for a week as a volunteer at Redwood National and State Parks (RNSP), assisting with forestry inventory activities. In 2019, he completed a Technical Course on Occupational Safety by CEPM. Currently, he is completing an MBA specialization in Environmental Management from UFPR and has enrolledd a Specialization in Occupational Safety Engineering from the Federal Technological University of Paraná (UTFPR).
Graduated in Forest Engineering from the Federal University of Paraná (UFPR) in 2017. In 2014 he was approved for the Science Without Borders exchange program at California State University - Humboldt. In the first semester of 2014, he studied English for 5 months, after that enrolled in the undergraduate degree in Forestry at the same institution. After two semesters studying undergraduate, he began an internship at CSU - Humboldt's Fire Laboratory. Along with this activity, he also assisted a master student in his dissertation with samples of different native species, for dendrochronological studies. Also during the exchange, he worked for a week as a volunteer at Redwood National and State Parks (RNSP), assisting with forestry inventory activities. In 2019, he completed a Technical Course on Occupational Safety by CEPM. Currently, he is completing an MBA specialization in Environmental Management from UFPR and has enrolledd a Specialization in Occupational Safety Engineering from the Federal Technological University of Paraná (UTFPR).
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paisagístico de uma área de 1000 m² (40 x 25 metros) a frente do prédio de astronomia da Universidade Federal do Paraná, localizada na cidade de Curitiba, PR, onde há a predominância do clima Cfb, segundo a classificação climática de Köppen. Foi requisitada pelo reitor a criação de um ambiente contemporâneo subtropical que desse uma alusão ao prédio de astronomia, com o objetivo de entretenimento e socialização dos estudantes e bem como um ambiente que servisse de exemplo e motivação para que outras universidades implantassem um ambiente educativo a frente dos prédios de educação. Com este intuito, nós chegamos a elaboração do seguinte projeto, por meio do software Garden Planner
Books by Pedro Cordeiro Neves
presence of higher levels of moisture, is considered a fire sensitive ecosystem. Flammability is defined as the ability of the fuel to ignite after being subjected to an increase of caloric energy, until the material reaches the ignition stage, after the reduction in the moisture content. The objective of this research was to test and classify species from the Cerrado and the Araucaria Forest (FOM) according to their flammability. The following species from the Cerrado were tested: Vatairea macrocarpa, Myrcia splendens, Davilla elliptica, Ouratea hexasperma, Copaifera langsdorffi, Diospyros hispida. The tested species from the FOM were: Ocotea puberula, Araucaria angustifolia, Allophylus edulis, Cupania vernalis and Luehea divaricata. Using an epirradiator, 50 replications of burning for each species were carried out. Each tested sample consisted of 1.0 ± 0.1 g of green fuel material less than 0.7 cm of diameter, containing leaves and branches. The measures parameters were: Time of ignition (Ti), combustion duration (Dc), ignition frequency (Fi) and flame height (Hc). The species were classified according to their flammability rating value (Vi). To validate the classification and determine which parameters were the main flammability inductors, a Principal Component Analysis (PCA) was carried out. Araucaria angustifolia presented poor flammability, due to the higher ignition time. Allophylus edulis presented the higher flammability among the FOM species, and the ignition frequency was the decisive parameter to this classification. The species from the Cerrado showed similar values of combustion duration, except Davilla elliptica and Myrcia splendens, which presented intermediate values of ignition time. Vatairea macrocarpa and Copaifera langsdorffi, were highly and extremely
flammable, respectively. The flammability values validated the hypothesis that the Cerrado species present higher flammability when compared to the FOM species. The Principal Components Analysis was effective in the results validation and allowed to explain what parameters determined the flammability
paisagístico de uma área de 1000 m² (40 x 25 metros) a frente do prédio de astronomia da Universidade Federal do Paraná, localizada na cidade de Curitiba, PR, onde há a predominância do clima Cfb, segundo a classificação climática de Köppen. Foi requisitada pelo reitor a criação de um ambiente contemporâneo subtropical que desse uma alusão ao prédio de astronomia, com o objetivo de entretenimento e socialização dos estudantes e bem como um ambiente que servisse de exemplo e motivação para que outras universidades implantassem um ambiente educativo a frente dos prédios de educação. Com este intuito, nós chegamos a elaboração do seguinte projeto, por meio do software Garden Planner
presence of higher levels of moisture, is considered a fire sensitive ecosystem. Flammability is defined as the ability of the fuel to ignite after being subjected to an increase of caloric energy, until the material reaches the ignition stage, after the reduction in the moisture content. The objective of this research was to test and classify species from the Cerrado and the Araucaria Forest (FOM) according to their flammability. The following species from the Cerrado were tested: Vatairea macrocarpa, Myrcia splendens, Davilla elliptica, Ouratea hexasperma, Copaifera langsdorffi, Diospyros hispida. The tested species from the FOM were: Ocotea puberula, Araucaria angustifolia, Allophylus edulis, Cupania vernalis and Luehea divaricata. Using an epirradiator, 50 replications of burning for each species were carried out. Each tested sample consisted of 1.0 ± 0.1 g of green fuel material less than 0.7 cm of diameter, containing leaves and branches. The measures parameters were: Time of ignition (Ti), combustion duration (Dc), ignition frequency (Fi) and flame height (Hc). The species were classified according to their flammability rating value (Vi). To validate the classification and determine which parameters were the main flammability inductors, a Principal Component Analysis (PCA) was carried out. Araucaria angustifolia presented poor flammability, due to the higher ignition time. Allophylus edulis presented the higher flammability among the FOM species, and the ignition frequency was the decisive parameter to this classification. The species from the Cerrado showed similar values of combustion duration, except Davilla elliptica and Myrcia splendens, which presented intermediate values of ignition time. Vatairea macrocarpa and Copaifera langsdorffi, were highly and extremely
flammable, respectively. The flammability values validated the hypothesis that the Cerrado species present higher flammability when compared to the FOM species. The Principal Components Analysis was effective in the results validation and allowed to explain what parameters determined the flammability