Efeito de dregs e grits nos atributos de um neossolo quartzarênico e na produção volumétrica de eucalipto

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Durabilidade da argamassa mista de revestimento interno contendo dregs-grits em substituição à areia

This paper concerns about the durability of new material in construction. It is noteworthy the fact that increases increasingly searching for alternative materials that do not depend only of natural resources and at the same time be an alternative for reuse of industrial waste. Since the construction materials have a long life and a high cost of civil works and maintenance, it is crucial to estimate the behavior of a new product. Thus , this work discuss the durability of mixed mortar lining , made with waste from the process Kraft pulp production , known as dregs and grits , in partial replacement of sand. Tests were conducted to simulate conditions as adverse environments of constant heat and fire, with the aim of analyzing the behavior of mortar mixed matched the behavior of standard mortar

Durability of mixed mortar lining containing Dregs-Grits

The improper disposal of industrial waste and exploitation of natural resources has resulted in the scarcity of river sand and environmental degradation, such as river erosions and pollution. This study aimed to assess the durability of mixed mortar lining walls and ceilings, containing 0 (default), 10 and 20% of dregs-grits compounds-waste of the pulp industry-in substitution with river sand. This was done with tests that simulated both natural and artificial conditions: Direct solar incidence (testing ultraviolet radiation), attack by spraying solution (salt spray test), natural warming of the walls and ceilings incidence by indirect solar (thermal degradation) and residential fires (thermogravimetric test), in compliance with both national and/or international standards. The grout containing dregs-grits compounds showed similarity to standard (0%) for testing thermal degradability, thermogravimetric and ultraviolet radiation, but shows significantly less durability when exposed to salty environments.

Valorization of solid wastes from cellulose and paper industry

This thesis reports in detail studies of industrial solid wastes valorization as alternative raw materials. All tested wastes are classified as non-hazardous and are generated in the pulp and paper process, including primary sludge, dregs, grits, lime mud and bottom ash (this generated in a process that occurs in parallel to the production of cellulose, whose aim is the production of energy to supply the plant through the combustion of forest biomass in fluidized bed). A detailed general characterization was performed at each waste and according to their characteristics, they were selected some applications in materials with potential use, specifically in Fibercement, Bituminous Mixture for regularization layer and industrial mortars (rendering mortars and cementitious-adhesive). After decided to application each waste was specifically tested to proceed the setting up of formulations containing different content of waste in replacement of the raw conventional material. As an isolated case, the bottom ash was tested not only as an alternative raw material for construction materials, but also it was tested for its use in fluidized bed in which the waste is generated as raw material. Both dregs and bottom ash had undergone special treatment to make possible to obtain a better quality of waste in order do not compromise the final product characteristics and process. The dregs were tested in bituminous mixtures as received and also washed (on the laboratory scale to remove soluble salts) and bottom ash were washed and screened in industrial scale (for removal of soluble salts, especially chlorides and coarse fraction particles elimination - particles larger than 1 mm size). The remaining residues form used in such as received avoiding additional costs. The results indicated potential and some limitations for each application to the use of these wastes as alternative raw material, but in some cases, the benefits in relation to valorization overlap with its limitations in both aspects, environmental and economic.

Utilização de resíduos alcalinos de indústrias de celulose na correção da acidez do solo

O descarte no solo é uma alternativa viável de disposição final e aproveitamento agrícola de vários resíduos industriais. Com o objetivo geral de avaliar os efeitos do resíduo alcalino “dregs+grits” (DG) como corretivo de acidez e em atributos de solo, plantas e água de percolação, foram conduzidos dois experimentos em vasos, a céu aberto. No primeiro experimento, em vasos de 2 L de um Latossolo Vermelho distrófico (camada de 0-20 cm), avaliaram-se as frações granulométricas do DG (< 0,30; 0,30-0,84; 0,84–2,00; >2,00 mm) e o DG integral, em doses baseadas no valor de neutralização (VN); DG integral com base no índice PRNT; mistura de CaCO3+MgCO3 e testemunha sem correção. No segundo experimento, em colunas de PVC, contendo as camadas de 0-20 e 20-50 cm de três solos (Latossolo Vermelho distrófico, Argissolo Vermelho distrófico arênico e Argissolo Vermelho distrófico típico), foram avaliadas doses de DG de 0, 0,5; 1,0 e 2,0 vezes a necessidade de calagem para atingir pH 6,0 para cada solo, além de CaCO3+MgCO3 e dose DG 1,0 sem adubação. No primeiro experimento, após 180 dias, todas as frações proporcionaram valores de pH superiores a 6,0, com reação mais rápida das frações mais finas e maior efeito residual das frações mais grossas. O índice PRNT se mostrou inadequado para definição de doses do resíduo, sendo o VN mais apropriado No segundo experimento, os efeitos imediatos e residuais sobre atributos relacionados à acidez do solo, avaliados até 240 dias, aumentaram com as doses do resíduo, com resposta dependente do tipo de solo. A concentração de Na+, mesmo com a dose 2,0 DG, não afetou a estrutura física dos solos, enquanto os teores de metais pesados no solo, plantas e águas de percolação não apresentaram diferenças entre os tratamentos. O resíduo DG pode ser usado como corretivo de acidez do solo, não apresentando efeitos significativos em atributos de solo, planta e água relacionados à qualidade ambiental.

A compostagem como processo catalisador para a reutilização dos resídues de fábrica de celulose e papel

Recognizing the great potential of this residue to increase the eucalyptus forests produtivity - when used in its humidified form - the main objective of this project was to decompose the solid residues generated at Luiz Antonio mill, in a fast and artificial way, by means of piles or ridges of composted materials. The materials used in this composting process were: activated sludge, dregs and grits, wood ash and biomass. Applications of both phosphorus and potassium have been used during the planting phase. Nitrogen, in the form of urea, has been applied in two treatments with the main purpose to decrease the C/N ratio and to speed up the decomposition process. The experiment was carried out in 120 days. The best results were obtained in residue piles with a 3:1 ratio, i.e., 75% residues + 25% biomass. This mixture provided an extremely good aeration, thus enabling an appropriate material mixing and homogenization. Under the technological viewpoint, the results obtained from the composting process were quite satisfactory for VCP industrial residues treatment. This composting process enabled a material accelerated stabilization (lower C/N ratio) and homogenization. After this experiment, it became possible to use all residues just as they were generated by Luiz Antônio pulp and paper mill. This project is of the utmost relevance to VCP's forestry department as far as a significant amount of nutrients is getting back to the soil in the form of mineral and organic materials.

Análise econômica de dois sistemas naturais de tratamento de água residuária na suinocultura

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Aproveitamento de resíduos da indústria de celulose e papel em argamassa mista de revestimento interno

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Craqueamento termocatalítico da borra de neutralização do óleo de palma (Elaeis guineensis) em escala piloto

Os subprodutos das indústrias de refino de óleo e de biodiesel, como a borra de neutralização, são bastante extensivos e devido a sua baixa pureza e valor econômico constituem uma problemática para essas indústrias no descarte e destinação, sendo de fundamental interesse pesquisas para a utilização desse rejeito. Portanto, este trabalho visa investigar uma alternativa viável, econômica e ambiental para o destino deste subproduto usando o Processo de Craqueamento Termocatalítico da Borra de Neutralização do Óleo de Palma (Elaeis guineensis, Jaqc) em escala piloto utilizando-se 5, 10 e 15% de Carbonato de Sódio (Na²CO³) como catalisador e temperaturas finais de 440ºC e 420ºC. A borra foi obtida pelo processo de neutralização e submetida a uma desidratação e caracterizada assim como o catalisador foi desidratado em estufa e caracterizado em relação à Difração de Raio-X, Análise Térmica Gravimétrica (ATG) e à Análise Térmica Diferencial (TDA). Foram realizados cinco testes de craqueamento termocatalítico na Usina Piloto de Craqueamento (THERMTEK/FEQ/UFPA) o qual é constituído em um reator com agitação mecânica e capacidade de 125 litros, além da dinâmica do processo e destilação dos produtos do craqueamento. O produto líquido orgânico (PLO), amostras da dinâmica do processo e frações da destilação foram caracterizados de acordo com cada norma exigida pela ANP N°65 e analisadas por IV e RMN. Após as análises dos resultados verificou-se que a eficiência do processo aumenta com catalisador e temperatura e que a matéria-prima fornece produtos de baixa acidez e com boas características para uso como combustível. Pela análise da termodinâmica do processo percebeu que alguns parâmetros como viscosidade, densidade e ponto de fulgor diminuem com o tempo e aumento da temperatura, formando hidrocarbonetos mais leves. Com relação à destilação, as frações nas faixas mais pesadas se assemelham ao óleo diesel do petróleo na maioria dos parâmetros exigidos pela ANP N°65.

Resíduos de indústria de celulose e papel na fertilidade do solo e no desenvolvimento de eucalipto

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Atributos da solução e do solo de cerrado após aplicação de resíduo da extração de celulose

Pós-graduação em Agronomia - FEIS

Atributos químicos da solução e do solo após aplicação de resíduo da extração de celulose

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Recycling residues from the pulp and paper industries in the civil construction

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Interactions between calcium and heavy metals in Norway spruce : Accumulation and binding of metals in wood and bark

Waste products from the forest industry are to be spread in forests in Sweden to counteract nutrient depletion due to whole tree harvesting. This may increase the bioavailability of calcium (Ca) and heavy metals, such as cadmium (Cd), copper (Cu) and zinc (Zn) in forest soils. Heavy metals, like Cd, have already been enriched in forest soils in Sweden, due to deposition of air pollutions, and acidification of forest soils has increased the bioavailability of toxic metals for plant uptake. Changes in the bioavailability of metals may be reflected in altered accumulation of Ca and heavy metals in forest trees, changes in tree growth, including wood formation, and altered tree species composition. This thesis aims at examining: A) if inter- or intra- specific differences in sensitivity to Cd occur in the most common tree species of Sweden, and if so, to study if these can be explained by the uptake and distribution of Cd within the plant: B) how elevated levels of Ca, Cd, Cu and Zn affect the accumulation and attachment of metals in bark and wood, and growth of young Norway spruce (Picea abies): C) how waste products from the forest industry, such as wood ash, influence the contents of Ca, Cd, Cu and Zn in wood and bark of young Norway spruce. Sensitivity to Cd, and its uptake and distribution, in seedlings of Picea abies, Pinus sylvestris and Betula pendula from three regions (southern, central and northern parts) of Sweden, treated with varying concentrations of Cd, were compared. Differences in root sensitivity to Cd both among and within woody species were found and the differences could to some extent be explained by differences in uptake and translocation of Cd. The root sensitivity assays revealed that birch was the least, and spruce the most, sensitive species, both to the external and to tissue levels of Cd. The central ecotype of the species tested tended to be most Cd resistant. The radial distribution, accumulation and attachment of, and interactions between Ca and heavy metals in stems of two-year-old Norway spruce trees treated with elevated levels of Cd, Cu, Zn and/or Ca, were investigated. Further, the influence of these metals on growth, and on root metal content, was examined. Accumulation of the metals was enhanced in wood, bark and/or roots at elevated levels of the metal in question. Even at low levels of the metals, similar to after application of wood ash, an enhanced accumulation was apparent in wood and/or bark, except for Cd. The increased accumulation of Zn and Cu in the stem did not affect the growth. However, Cu decreased the accumulation of Ca in wood. Higher levels of Cu and Cd reduced the stem diameter and the toxic effect was associated with a reduced Ca content in wood. Copper and Cd also decreased the accumulation of Zn in the stem. On the other hand, elevated levels of Ca increased the stem diameter and reduced the accumulation of Cd, Cu, Zn and Mn in wood and/or bark. When metals interacted with each other the firmly bound fraction of the metal reduced was in almost all cases not affected. As an exception, Cd decreased the firmly bound fraction of Zn in the stem. The influence of pellets of wood ash (ash) or a mixture of wood ash and green liquor dregs (ash+GLD), in the amount of 3000 kg ha-1, on the contents of Ca, Cd, Cu and Zn in wood and bark of young Norway spruce in the field was examined. The effect of the treatments on the metal content of bark and wood was larger after 3 years than after 6 years. Treatment with ash+GLD had less effect on the heavy metal content of bark and wood than treatment with ash alone. The ash treatment increased the Cu and Zn content in bark and wood, respectively, after 3 years, and decreased the Ca content of the wood after 6 years. The ash+GLD treatment increased the Ca content of the bark and decreased the Zn content of bark and wood after 3 years. Both treatments reduced, or tended to decrease, the Cd content in wood and bark at both times. To conclude, small changes in the bioavailability of Ca, Cu, Cd and Zn in forest soils, such as after spreading pellets of wood ash or a mixture of wood ash and green liquor dregs from the forest industry, will be reflected in an altered accumulation of metals in wood and bark of Norway spruce. It will not only be reflected in changed accumulation of those metals in which bioavailability in the soil has been enhanced, but also of other metals, probably partly due to interactions between metals. When metals interact the exchangeable bound fraction of the metal reduced is suggested to be the main fraction affected. The small alterations in accumulation of metals should not affect the growth of Norway spruce, especially since the changes in accumulation of metals are low, and further since these decrease over time. However, as an exception, one positive and maybe persistent effect of the waste products is that these may decrease the accumulation of Cd in Norway spruce, which partly may be explained by competition with Ca for uptake, translocation and binding. A decreased accumulation of Cd in Norway spruce will probably affect the trees positively, since Norway spruce is one of the most sensitive species to Cd of the forest trees in Sweden. Thus, spreading of waste products from the forest industry may be a solution to decrease the accumulation of Cd in Norway spruce. In a longer perspective, this will decrease the risk of Cd altering the tree species composition of the forest ecosystem. An elevated bioavailability of Ca in forest soils will, in addition to Cd, probably also decrease the accumulation of other less competitive heavy metals, like Zn and Mn, in the stem.