Your search keyword '"Absorção química"' showing total 3 results

1. Formação em ciências: estudos sobre absorção química para mitigação da chuva ácida antrópica.

Author

Andrade Queiroz, Marluce Teixeira and Ramos da Silva, Raquel

Subjects

*ACID precipitation (Meteorology), *URBAN climatology, *INDUSTRIAL chemistry, *CHEMISTRY students, *SULFUR oxides

Abstract

This study addresses some technical aspects related to the use of absorption towers for the retention of sulfur oxides in an aqueous medium with the production of sulfuric acid, with the purpose of preventing the dispersion of those gases in the environment and contributing to reduce anthropic acid precipitation. Discusses the importance of carrying out practical activities exploring this theme for the training of students of the technical chemistry course to better understand this subject that is extremely important in the context of urban climatology for today's society. In addition, it informs the perception of the educated regarding the use of this teaching method, identifying the favoring regarding understanding and commitment to safety and environmental issues. [ABSTRACT FROM AUTHOR]

Published

2023

2. Uso da modelagem e simulação à análise de plantas de captura de CO2: dimensionamento e economia do processo

Author

Jesus, Arthur Felipe Pereira de and Morais Júnior, Arioston Araújo de

Subjects

Captura de carbono, Chemical absorption, Pós-combustão, Absorção química, Post-combustion, ENGENHARIAS::ENGENHARIA QUIMICA [CNPQ], Aspen Plus, Carbon capture, Não foi possível verificar autoria da elaboração da ficha catalográfica em 21/12/2022

Abstract

A significant proportion of power generation comes from coal combustion processes and therefore represents one of the largest point sources of CO2 emissions worldwide. One of the best options for utilizing existing infrastructure is to add a separation process to the flue gas, a practice known as Post-Combustion Capture (PCC). This work carried out an analysis of post-combustion CO2 capture plants through modeling and simulation, performing the sizing of the main equipment of the units and evaluating the economy of the process. The results were obtained through the Aspen Plus® software, performing simulations of three configurations of an existing PCC, obtaining the sizing of the main equipment for the three cases, as well as an economic evaluation of each of the plants was also obtained. It was possible to observe that the stripper column is responsible for approximately 30-50% of the total cost of equipment and the thermal load responsible for approximately 40% of the costs generated by the plant. Finally, the performance of the percentages of composition present at the output of the condenser were similar for the three cases, thus making it necessary to obtain better estimates to determine the categorical costs involved in this design. Nenhuma Uma proporção significativa da geração de energia provém de processos de combustão de carvão e, portanto, representa uma das maiores fontes pontuais de emissões de CO2 em todo o mundo. Uma das melhores opções para utilizar a infraestrutura existente é adicionando um processo de separação ao gás de combustão, uma prática conhecida como captura pós-combustão (Post-Combustion Capture – PCC). Este trabalho efetuou uma análise de plantas de captura de CO2 de pós-combustão através da modelagem e da simulação, realizando o dimensionamento dos principais equipamentos das unidades e avaliando a economia do processo. Os resultados foram obtidos através do software Aspen Plus® realizando simulações de três configurações de uma PCC já existente, obtendo o dimensionamento dos equipamentos principais para os três casos, assim como uma avaliação econômica de cada uma das plantas também foi obtida. Foi possível observar que a coluna stripper é responsável por aproximadamente 30-50% do custo total de equipamentos e a carga térmica responsável por aproximadamente 40% dos custos gerados pela planta. Por fim, o desempenho das porcentagens de composição presentes na saída do condensador foram próximas para os três casos, sendo assim necessário uma obtenção de melhores estimativas para apurar-se os custos categóricos envolvidos nesse dimensionamento.

Published

2022

3. Chemisorption competition between H2O and H-2 for sites on the Si surface under Xe+ Ion bombardment : an XPS study

Author

Antunes, Vinícius Gabriel, 1984, Alvarez, Fernando, 1946, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Silicon, Absorção química, Hidrogênio, Chemisorption, Artigo original, Silício, Hydrogen

Abstract

Agradecimentos: Part of this work was supported by FAPESP Project Nos. 2012/10127-5, 2019/24095, 2019/18460-4, 2019/00757-0, 2018/24461-0. C.A.F. and F.A. are CNPq’s fellows. This paper is part of the Ph.D. thesis of VGA realized in the IFGW, UNICAMP, Brazil. The authors are grateful to C. Piacenti for technical help Abstract: This paper reports the competition of H2O (residual) and H-2 by site (defects) on the Si surface, created by Xe+ ion bombardment. X-ray photoelectron spectroscopy (XPS) in an ultrahigh vacuum system attached to the sample preparation chamber provided the data for the analyses. As hydrogen cannot be detected by XPS, an indirect method to evaluate the O and H cover ratio was developed. The hydrogen passivation effect obtained by the formation of the Si-H bond due to H-2 chemisorption limits Si-OH and Si-O-Si bonds, which are products of H2O dissociation. In addition, the results have shown that Xe+ ion bombardment diminished the H-2 chemisorption energy barrier onto Si FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ Fechado

Published

2022