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Academic literature on the topic 'Biomass foam'

Author: Grafiati

Published: 17 June 2022

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Journal articles on the topic "Biomass foam"

Zimmermann, Matheus Vinícius Gregory, Daniele Perondi, Lídia Kunz Lazzari, Marcelo Godinho, and Ademir José Zattera. "Carbon foam production by biomass pyrolysis." Journal of Porous Materials 27, no. 4 (May 8, 2020): 1119–25. http://dx.doi.org/10.1007/s10934-020-00888-y.

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Alkarawi, Muayad A. S., Gary S. Caldwell, and Jonathan G. M. Lee. "Continuous harvesting of microalgae biomass using foam flotation." Algal Research 36 (December 2018): 125–38. http://dx.doi.org/10.1016/j.algal.2018.10.018.

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Zhang, Jin Ping, and Meng Hao Du. "Bamboo Powder Liquefaction and Resinification: Application on the Phenolic Foam." Materials Science Forum 743-744 (January 2013): 306–11. http://dx.doi.org/10.4028/www.scientific.net/msf.743-744.306.

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Liquefaction products of bamboo powder were obtained by using phenol as liquefier and 3% sulfuric acid as catalyst. Biomass phenolic resin was formed by the reaction of bamboo powder liquefaction product and formaldehyde under alkaline condition. The yield and viscosity of resin prepared under various temperatures and resinification times were studied. The result showed that biomass phenolic resin included 2-8% of tween-80, 12-28% of p-toluenesulfonic acid, 12-28% of phosphoric acid, and 10-20% of n-pentane. The viscosity measured at the foaming temperature of 70 was 2000-4000mPa·s. The density of phenolic foam plastic prepared from biomass phenolic resin was 20.78-81.51kg/m3, and the compressive strength was 18-57N/cm2. Infrared spectroscopic analysis was also conducted on the biomass phenolic resin and phenolic foam.

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Nur Azni, Mohd Azizan, Adnan Arzuria Sinar, Firuz Zainuddin, and A. G. Supri. "Deformation and Energy Absorption Characteristics of Biomass Foam Composites." Advanced Materials Research 925 (April 2014): 268–72. http://dx.doi.org/10.4028/www.scientific.net/amr.925.268.

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Deformation and energy absorption characteristic of biomass foam composites are important in crashwortyness efficiency. The type of foam that had been used in this research is polyurethane (PU) foam with plant-based filler which are turmeric powder (Curcuma Longa), charcoal powder, henna powder (Lawsonia inermis) and lemon grass powder (Cymbopogon) that give natural color to the composites. The percentages of filler was specified to 10% by weight. PU foam was prepared by reaction of natural oil polyol and isocyanate with a ratio of 1 to 1.1 by weight. The mixture was stirred with 1500 rpm and was poured into the mould when mixture starting to expand. Band saw was used to cut the sample with desired dimension. The characterization of filler was done using Fourier Transform Infrared Spectroscopy (FTIR). Compression was tested using Ultimate Testing Machine (UTM) and scale to weigh the sample. Composites with henna filler have ductile like behavior that proved in stress-strain curved that show the rough line in the graph. Other composites have rigid like behavior which have a smooth line in a stress - strain curve.

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Lee, Seung-Hwan, Tsutomu Ohkita, and Yoshikuni Teramoto. "Polyol recovery from biomass-based polyurethane foam by glycolysis." Journal of Applied Polymer Science 95, no. 4 (2004): 975–80. http://dx.doi.org/10.1002/app.20932.

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Lei, Hong, and Xiangli Cao. "A novel carbon foam: making carbonaceous “lather” from biomass." Journal of Materials Science 50, no. 15 (May 12, 2015): 5318–27. http://dx.doi.org/10.1007/s10853-015-9079-9.

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Lin, Y., and F. Hsieh. "Water-blown flexible polyurethane foam extended with biomass materials." Journal of Applied Polymer Science 65, no. 4 (July 25, 1997): 695–703. http://dx.doi.org/10.1002/(sici)1097-4628(19970725)65:4<695::aid-app8>3.0.co;2-f.

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Li, Bao Xia, Pen Jin, and Shou Kun Cao. "Co-Pyrolysis Kinetics of Expandable Polystyrene Foam Plastics and Biomass." Advanced Materials Research 518-523 (May 2012): 3295–301. http://dx.doi.org/10.4028/www.scientific.net/amr.518-523.3295.

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Based on the thermogravimetric analysis, co-pyrolysis of expandable polystyrene foam plastics (EPS) and three kinds of biomass (bagasse, peanut shell, corncob) were investigated. The result shows that synergistic effects of the co-pyrolysis of EPS/bagasse and EPS/corncob are obvious, but there is no remarkable synergistic effect for the EPS and peanut shell blends. The kinetic analysis indicates that the pyrolysis processes can be described as first order reactions model, a pretty good fitting of experimental data was obtained for all samples. In the EPS and the biomass pyrolysis, respectively， the former can be described as the one first-order reaction model, and the latter can be described as the three consecutive models, while the co-pyrolysis of EPS and biomass needs to be described as the four consecutive models.

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Sohn, Joo, Hyun Kim, Shin Kim, Youngjae Ryu, and Sung Cha. "Biodegradable Foam Cushions as Ecofriendly Packaging Materials." Sustainability 11, no. 6 (March 21, 2019): 1731. http://dx.doi.org/10.3390/su11061731.

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In this work, a high-magnification extrusion-foaming technique for biomass-based biodegradable composite materials using water vaporization was examined. Starch was selected as the biomass and polylactic acid was selected as a biodegradable matrix resin. No additional plasticizer or additives were used in this extrusion-foaming process. The foaming ratio was deduced according to the conditions of the extrusion-foaming process to confirm the forming characteristics of the foaming materials. Scanning electron microscopy was performed to examine the morphology of the composite foam. To investigate the potential of the foam cushion as an ecofriendly packing material, we conducted experiments on its static compression and dynamic cushioning properties and examined whether its biodegradability could be controlled by varying the mixing ratio of the materials. Thus, we developed a water-foaming process that is ecofriendly and whose products can be recycled as compost after use.

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Li, Feng, Chong-Peng Qiu, Xue-Lun Zhang, Ruo-Wen Tan, Cornelis F. de Hoop, Jay P. Curole, Jin-Qiu Qi, et al. "Effect of biomass source on the physico-mechanical properties of polyurethane foam produced by microwave-assisted liquefaction." BioResources 15, no. 3 (July 28, 2020): 7034–47. http://dx.doi.org/10.15376/biores.15.3.7034-7047.

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Different biomass sources (bamboo, rape straw, lignin, and Yaupon holly) were liquefied using microwave energy to produce biopolyols, which were then used to prepare biofoams without any further separation process. The results indicated that the content of hydroxyl groups in biopolyols derived from different biomass sources was sorted in descending order as rape straw, Yaupon holly, bamboo, and lignin. The rheological analysis demonstrated that the biopolyols were pseudoplastic, and the yield stress of biopolyols was remarkably increased with increasing biomass content. The compressive strength of polyurethane (PU) foam was rendered smaller by introducing biomass sources. Nevertheless, the biofoam obtained from biomass sources with higher hydroxyl groups content had better PU performance. In addition, the termite resistance performance of PU foam increased with the introduction of Yaupon holly, rape straw, and bamboo sources. Accordingly, the biofoams derived from the liquefaction of rape straw performed better than those from other biomass sources.

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Dissertations / Theses on the topic "Biomass foam"

Coward, Thea. "Foam fractionation : an effective technology for harvesting microalgae biomass." Thesis, University of Newcastle Upon Tyne, 2012. http://hdl.handle.net/10443/1753.

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Harvesting and dewatering can account for up to 30% of the overall cost of production of usable microalgae biomass for the biotechnology and bioenergy sectors. Harvesting is particularly challenging due to the small amount of algal biomass produced relative to water volume. This process exacts high energy and cost demands and therefore limits further expansion in the microalgae biomass industry. Foam fractionation has potential to deliver a low cost, low energy harvesting solution. Microalgae cells adsorb to the surface of a stream of fine air bubbles, which then rise up a closed column, discharging the concentrated product at the top. Foam fractionation significantly reduces construction, maintenance, and energy costs compared to other harvesting technologies. In this research, a fractional factorial design of experiments followed by a central composite design were used to determine the optimal levels of major variables influencing the harvest of the freshwater microalga Chlorella sp. The effects of bubble size within the liquid pool and foam phase of the harvesting unit were determined, a high concentration factor of 427 as achieved using fluidic oscillation for microbubble generation. The influence of microalgal growth phase on harvest efficiency was investigated to gain insight into the optimal time to harvest during cell cultivation. The effect of surfactant, used to induce foaming, on lipid recovery was examined through methods including total lipid recovery, gas chromatography, energy dispersive x-ray spectrometry and solid phase extraction. The results indicate that the surfactant had the additional benefit of significantly increasing the overall lipid recovery. These encouraging results suggest foam fractionation offers considerable potential as an efficient, low cost, and scalable microalgae biomass harvesting technology.

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Alabaster, Graham Philip. "Reticulated foam as a biomass support medium in the anaerobic digestion of an industrial wastewater." Thesis, University of Leeds, 1987. http://etheses.whiterose.ac.uk/12722/.

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This work reports the pilot-scale investigation of various anaerobic reactor systems treating a fruit washing wastewater. An open cell reticulated foam was used as a biomass support media (BSM). The foam pads (25 mm cubes) were randomly packed in the 2.5 m- 3 reactor with an unpacked section beneath the bed. Four general operational regimes were evaluated. These were: single and two stage operation, with and without effluent recycle. Performance was monitored throughout each run in terms of maximum COD loading rate and minimum attainable hydraulic retention time. Biomass concentrations, both within the media and freely suspended between the biomass support particles were measured on samples from each operating regime, their acetoclastic activity being determined in a laboratory test. A method was developed to ascertain whether a difference in biomass activity existed between the outside of an individual biomass support particle and at the centre of the particle, using a radioactively labelled substrate. It was concluded that a two stage system without recycle provided the best performance with respect to the the maximum attainable loading rate (11.6 kgCOD.m- 3 .day). This was approximately twice that for any of the other systems tested. The minimum hydraulic retention time corresponding to this loading was approximately 1.0 d. The superior performance of the two stage system without recycle was attributed to the increased acetoclastic populations brought about by the pre-acidified feed and the plug flow removal kinetics exhibited in reactors without recycle. Two stage systems produced higher levels of biomass in the reactor than their single stage counterparts and a large proportion of the total biomass inventory was present as suspended growth in systems without recycle. Tracer studies showed that the actual HRT was much less than that calculated from flow rate and reactor volume, indicating that large areas of the reactor were not accessible to the substrate. Experiments investigating activity gradients in the BSM indicated that a significant difference existed between the acetoclastic activity of biomass at the centre of a colonized particle and that on the surface. It may be concluded that substrate diffusional limitations played an important role in determining the performance of this type of biomass support. Electron microscope examination of BSP fragments gave little information other than the existence of both attached and suspended growth. Most of the bio mass was present as a dense fibrillar network.

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Hu, Shengjun. "Production and Characterization of Bio-based Polyols and Polyurethanes from Biodiesel-derived Crude Glycerol and Lignocellulosic Biomass." The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1374051355.

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Ribeiro, Rogers. "Influência do tipo de substrato na dinâmica de formação do biofilme em matrizes de espuma de poliuretano." Universidade de São Paulo, 2001. http://www.teses.usp.br/teses/disponiveis/18/18138/tde-14042016-105003/.

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Este projeto estudou a influência do substrato na dinâmica do processo de formação do biofilme em espuma de poliuretano, em reatores anaeróbios horizontais de leito fixo diferenciais, alimentados com extrato de carne, glicose, amido, lipídeos e esgoto sanitário sintético. O estudo constitui em acompanhar a colonização das matrizes de espuma, ao longo do tempo, em relação a quantidade de biomassa aculumada, polímero extracelular produzido e características morfológicas das células presentes nos suportes retirados dos reatores diferenciais. O uso dessas técnicas permitiu o melhor entendimento do processo de aderência, além da verificação da composição morfológica e a estrutura do biofilme aderido ao suporte, possibilitando correlacionar a ocorrência de determinadas morfologias com cada etapa da colonização observada. A influência do substrato na dinâmica de aderência foi verificada devido aos diferentes padrões de colonização encontrados. Foi observada uma grande variabilidade morfológica em relação ao substrato utilizado. Todavia, uma grande ocorrência de organismos semelhantes a Methanosaeta sp foi verificada em todos os ciclos, principalmente em relação a Methanosarcina sp. O fenômeno de excreção de polímeros pareceu ser de fundamental importância no processo de colonização de matrizes de poliuretano, estando vinculado provavelmente à fixação das células aos suportes. A produção de polímeros, na etapa de aderência inicial, apresentou comportamento diferenciado para cada substrato utilizado. De acordo com os modelos propostos e as análises de microscopia eletrônica de varredura, verificou-se que os polímeros extracelulares podem estar ligados ao entupimento de reatores de leito fixo, permanecendo no interior dos suportes e nos interstícios do leito, causando problemas operacionais. As rápidas partidas observadas em trabalhos utilizando reatores de leito fixo e espuma de poliuretano como suporte podem estar vinculadas à rápida aderência dos organismos em todos os ciclos estudados.
This work focused on the influence of the type of substrate on the process of biofilm formation onto polyurethane foam matrices, in differential horizontal anaerobic immobilized sludge reactors, fed with meat extract (protein), glucose, starch, lipid and synthetic domestic wastewater. It consisted of accompanying the colonization of foam matrices with time, regarding to biomass amount, extracellular polymers produced and the morphological characteristics of the cells present on the supports packed in the differential reactors. These techniques permitted a better understanding of the adhesion process, besides a verification of the morphological composition and the structure of the biofilm attached to the support, making possible a correlation of the particular morphologies occurrences with each colonization step. The influence of the substrate was verified due to the different colonization patterns found. It was observed considerable morphological variety depending on the substrate utilized. However, the presence of Methanosaeta sp.- like organisms was often verified in all cycles, specially Methanosarcina sp. The excretion of polymers seemed to be crucial in the colonization process of the polyurethane matrices, being probably related to the cell fixation on the support. The polymeric production, in the inital adhesion step, showed a particular behavior for each substrate employed. According to the proposed models and the scanning electronic microscopy analysis, it was verified that the extracellular polymers can be related to the clogging of the fixed-bed reactors, as it keeps into the supports and the bed interstices, causing operational problems. The fast start-ups observed in works using fixed-bed reactors and polyurethane foam as support can be related to the fast cell adhesion during all cycles studied.

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Nardi, Ivana Ribeiro De. "Degradação de benzeno, tolueno, etilbenzeno e xilenos (BTEX) em reator anaeróbio horizontal de leito fixo (RAHLF)." Universidade de São Paulo, 2002. http://www.teses.usp.br/teses/disponiveis/18/18138/tde-18122015-114648/.

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A atividade industrial diversificada tem sido responsável pelo lançamento, no ambiente, de resíduos que contém materiais tóxicos e/ou de difícil degradação. Benzeno, tolueno, etilbenzeno e xilenos (BTEX) são compostos importantes, por estarem presentes em águas superficiais e subterrâneas, geralmente a partir de contaminações por derivadas de petróleo. Enquanto a degradação aeróbia de BTEX já está amplamente entendida e descrita, a aplicação de processos anaeróbios de tratamento, indicados na década de 80 ainda requer mais estudos. Reatores anaeróbios horizontais de leito fixo de bancada preenchidos com cubos de espuma de poliuretano, contendo lodo anaeróbio proveniente de diversas fontes trataram a água residuária sintética a base de proteínas, carboidratos, lipídios, contendo solução etanólica de BTEX e solução de BTEX em detergente comercial; e solução etanólica de BTEX como únicas fontes de carbono. A influência da adição de nitrato e sulfato como aceptores de elétrons na degradação anaeróbia também é discutida. Os reatores foram capazes de remover BTEX nas concentrações testadas de até 15,0 mg/L de cada composto, com tempos de detenção hidráulica de 11,4 horas e 13,5 horas. Os reatores forneceram condições excelentes para o desenvolvimento de biofilme complexo capaz de degradar BTEX, contendo organismos degradadores de BTEX, acetogênicos, acetoclásticos e hidrogenotróficos. Arqueas metanogênicas representaram menos de 0,5% do total de organismos anaeróbios na biomassa dos reatores. O modelo cinético de primeira ordem com residual foi o que melhor representou os dados experimentais e as velocidades de degradações de BTEX, estimadas neste trabalho, foram cerca de 10 a 94 vezes maiores que as encontradas na literatura, em ensaios realizados em microcosmos.
The diversified industrial activity has been responsible for discharge in the environment of toxic and/or difficult degradation compounds. Benzene, toluene, ethylbenzene and xylenes (BTEX) are important compounds present in surface and ground waters, usually from petroleum products contamination. While BTEX aerobic degradation is extensively understood and described, anaerobic treatment application, started in the eighties, associated to fundamental studies need to be improved. Bench-scale horizontal-flow anaerobic immobilized biomass reactors filled with polyurethane foam matrices, containing immobilized anaerobic biomass from various sources, treated synthetic substrate containing protein, carbohydrates, lipids, BTEX solution in ethanol and BTEX solution in commercial detergent, as well as BTEX solution in ethanol as the sole carbon source. The influence of the addition of nitrate and sulfate as electron acceptors on anaerobic degradation is also discussed. The reactors were able to remove up to 15.0 mg/L of each BTEX compound, with hydraulic detention time of 11.4 hours and 13.5 hours. The reactors provided excellent conditions for developing a complex biofilm with BTEX-degraders, acetogenic, acetoclastic and hydrogenotrophic microorganisms. Methanogenic archaea were found to represent less than 0.5% of the total anaerobic organisms in the biomass inside the reactors. Residual first order kinetic model fitted well the experimental data and the BTEX degradation rates, estimated in this work, were about 10- to 94-fold higher than those found in the literature, in microcosms studies.

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Engelhard, Sonja, Michael U. Kumke, and Hans-Gerd Löhmannsröben. "OPQS – optical process and quality sensing : exemplary applications in the beerbrewing and polyurethane foaming processes." Universität Potsdam, 2006. http://opus.kobv.de/ubp/volltexte/2007/1219/.

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Optical methods play an important role in process analytical technologies (PAT). Four examples of optical process and quality sensing (OPQS) are presented, which are based on three important experimental techniques: near-infrared absorption, luminescence quenching, and a novel method, photon density wave (PDW) spectroscopy. These are used to evaluate four process and quality parameters related to beer brewing and polyurethane (PU) foaming processes: the ethanol content and the oxygen (O2) content in beer, the biomass in a bioreactor, and the cellular structures of PU foam produced in a pilot production plant.

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Sarti, Arnaldo. "Desempenho de reatores anaeróbios operados em bateladas sequenciais em escala piloto no tratamento de esgoto sanitário." Universidade de São Paulo, 2004. http://www.teses.usp.br/teses/disponiveis/18/18138/tde-29072016-110026/.

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Este trabalho apresenta e discute os resultados obtidos na operação de quatro reatores anaeróbios operados em bateladas seqüenciais, projetados em escala piloto, para tratamento de 7,8 m3.dia-1 de esgotos sanitários, coletados da rede coletora que atravessa o Campus da USP de São Carlos. Cada sistema (1,2 m3) foi concebido para tratamento de 1,95 m3.dia-1 de esgoto sanitário, com concepções geométricas (relação L-altura/D-diâmetro), mecânicas (agitação mecânica ou recirculação de líquido) e tipo de retenção de biomassa diferentes. Três unidades eram do tipo ASBR (anaerobic sequencing batch reactor) e outro tipo ASBBR (anaerobic sequencing batch biofilm reactor) com leito fixo composto de matrizes cúbicas de espuma de poliuretano. Os ciclos operacionais tinham duração de oito horas perfazendo no total três ciclos por dia em cada sistema. O monitoramento dos reatores incluiu a determinação de DQO, pH, sólidos em suspensão totais (SST) e voláteis, ácidos voláteis totais, alcalinidade no afluente e efluente, bem como a concentração de metano no biogás. O ensaio experimental foi dividido em duas etapas distintas, sendo que na primeira (227 dias), os reatores não receberam inóculo e na segunda (66 dias) houve a inoculação prévia de lodo anaeróbio granular. Em ambas etapas, os dois reatores ASBR com mesmo tipo de agitação por recirculação de líquido, mas com diferente relação L/D não apresentaram desempenho satisfatório. Os valores médios de eficiência de remoção de DQO e de SST foram próximos de 40% e 60%, respectivamente. No efluente a concentração média foi de 300 mgDQO/L e de 100 mgSST/L. Nos reatores, ASBR com agitação mecânica e, ASBBR com biomassa imobilizada, os resultados médios obtidos foram melhores. O reator ASBBR atingiu eficiência média de 65% e 75% em remoção de DQO e SST, enquanto no ASBR com agitação mecânica chegou-se a 60% e 85%, respectivamente. A concentração média no efluente dos reator foi de 150 mgDQO/L e 60 mgSST/L no ASBBR e 220 mgDQO/L e 50 mgSST/L no ASBR com agitação mecânica.
This study reports and discuss several data obtained using four pilot scale anaerobic sequencing batch reactor, treating 7.8 m3.d-1 of domestic sewage from the Sao Paulo University sewer treatment system (Campus- São Carlos). Each reactor system (1.2 m3) was designed for the treatment of 1.95 m3.d-1 of domestic sewage with different geometric reactor characteristics (ratio L-length/D-diameter), mechanical (mechanical mixing or liquor re-circulation) and biomass retention type. Three reactors were a conventional ASBR (anaerobic sequencing batch reactor) with granular biomass and another one, an anaerobic sequencing batch biofilm reactor (ASBBR), which was composed with cubic matrices of polyurethane foam. The reactors were operated within 8-h of a sequential batch cycle, which were attained in three cycles by day for each system. Chemical oxygen demand (COD), pH, total suspended solids (TSS), volatile fatty acids, bicarbonate alkalinity in both the influent and effluent were monitored in the different cycles. Methane concentration was also assessed in the same period using Gas Chromatography (GC). The experiments were divided in two different phases. In the first phase, which corresponded to 227 d, the reactors were not inoculated. In the second phase (66 d) the reactors were then inoculated with anaerobic granular sludge. It was observed that in both operational phases, the two ASBR reactors, with the same re-circulating process of the mixed liquor, but with different L/D ratio, showed non-satisfactory results. The average values of COD and TSS removal were close to 40 and 60%, respectively. In the effluent, the average values were of 300 mgDQO/L and 100 mgTSS/L. ASBR reactors with mechanical mixing and ASBBR reactor with immobilized biomass showed better results. The average removal efficiency observed was of 65 and 75% for COD and TSS, respectively. ASBR reactors with mechanical mixing reached the efficiency of 60 and 85% for COD and TSS removal. The average concentration in the effluent was of 150 mgDQO/L and 60 mgSST/l in the ASBBR reactor; and 220 mgCOD/L and 50 mgTSS/L in the ASBR reactor with mechanical mixing.

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Abreu, Sergio Brasil. "Estudo do desempenho de reator anaeróbio-aeróbio de escoamento ascendente no tratamento de esgoto sanitário com espuma de poliuretano como suporte de imobilização da biomassa." Universidade de São Paulo, 2003. http://www.teses.usp.br/teses/disponiveis/18/18138/tde-21032016-150822/.

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O projeto consistiu na concepção e avaliação do desempenho de um sistema anaeróbio-aeróbio para tratamento de esgoto sanitário. O leito do reator foi dividido em quatro compartimentos de igual volume. Foi usada espuma de poliuretano para imobilização da biomassa e, para facilitar a partida do reator, esse material suporte foi previamente inoculado. O projeto teve três fases distintas: na primeira etapa, foi observada a importância da concentração de biomassa anaeróbia no desempenho de reator anaeróbio a princípio operado com metade do leito reacional com espuma e, a seguir, com o leito todo preenchido com espuma. Na segunda etapa, foram testados diferentes tempos de detenção hidráulica no reator que operou apenas em condições anaeróbias. Na última etapa foi operado o reator combinado anaeróbio-aeróbio. Ficou constatada a importância da concentração de microrganismos no desempenho do reator anaeróbio, pois com o aumento da quantidade de espuma, o reator atingiu resultados melhores e maior estabilidade operacional. Foi comprovada a influência do tempo de detenção hidráulica (TDH) no desempenho do reator. Tempos de detenção muito altos acarretam problemas de transferência de massa líquido-sólido, e baixos TDH dificultam adequada ação dos microrganismos. O melhor resultado para o reator em operação exclusivamente anaeróbia foi para o TDH de 10 horas, no qual se conseguiu reduzir a DQO de amostra bruta de 389 +/- 70 mg/L para 137 +/- 16 mg/L, em média. Para o reator operado anaeróbio-aeróbio a DQO de amostra bruta decresceu de 259 +/- 69 mg/L para 93 +/- 31 mg/L, em média. A comparação de todos os resultados obtidos, evidenciou a importância do pós-tratamento aeróbio na remoção de parcela de matéria orgânica não removida em tratamento unicamente anaeróbio.
The project consisted in the design and performance evaluation of an anaerobic-aerobic system for wastewater treatment. Polyurethane foam was used for biomass immobilization and, to smooth the reactor start-up, this supporting material was previously inoculated. The project was divided in three distinct phases. In the first one, the importance of the anaerobic biomass concentration was observed in the performance of the anaerobic reactor in a way to operate the reactor primarily with half of the reaction bed filled with foam and subsequently operate it with the bed completely filled with foam. In the second phase, different times of hydraulic retention were tested with the reactor operating exclusively in anerobic conditions. In the third and last phase, an anaerobic-aerobic combined reactor was operated. It was possible to confirm the importance of microorganism concentration in the performance of the anaerobic reactor, since the increase in the amount of foam allowed the reactor to reach better results and greater operational stability. The influence of the hydraulic retention time in the reactor performance was also proved. Very high retention times cause problems in the liquid-solid mass transference, while low retention times do not allow an adequate action of microorganisms. The best result for the reactor with an exclusive anaerobic operation was the 10 hour retention time, when it was possible to reduce the COD of a 389 +/- 70 mg/L gross sample to a 137 +/- 16 mg/L in average. On the other hand, for the anaerobic-aerobic operating reactor, the COD of a gross sample dropped from 259 +/- 69 mg/ L to 93 +/- 31 mg/L in average. Finally, comparing all the obtained results, it was possible to verify the importance of the anaerobic post treatment in the removal of a part of the organic matter not removed in an exclusively anaerobic treatment.

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Camargo, Eduardo Freitas Moraes de. "Tratamento anaeróbio de águas residuárias, em batelada, com microrganismos imobilizados e circulação da fase aquosa." Universidade de São Paulo, 2000. http://www.teses.usp.br/teses/disponiveis/18/18138/tde-13072018-082510/.

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O presente trabalho constou da concepção de um reator anaeróbio em regime de batelada com circulação da fase aquosa contendo biomassa imobilizada em espuma de poliuretano. O reator foi operado em ciclos de 8 h e mantido a 30 ± 1ºC tratando água residuária sintética elaborada à base de glicose, com concentração de aproximadamente 500 mgDQO/L. O estudo hidrodinâmico realizado com velocidade superficial de recirculação entre 0,16 e 0,80 cm/s indicou que o tempo de mistura obtido em todas as condições pode ser considerado desprezível quando comparado ao tempo total do ciclo, e também permitiu considerar o comportamento do escoamento no leito como o de um reator pistonado. O desempenho do reator no tratamento da água residuária foi avaliado para a condição sem circulação e também para velocidades superficiais de recirculação entre 0,03 e 0,30 cm/s. Os resultados obtidos indicaram que o reator apresentou desempenho satisfatório e boa estabilidade, apresentando eficiências de até 96% de remoção da matéria orgânica. O aumento da velocidade superficial de recirculação diminuiu a resistência a transferência de massa na fase líquida, ocasionando um aumento de 115% na velocidade global de reação, estimada através do ajuste dos valores experimentais da concentração de substrato ao modelo de primeira ordem.
A new configuration of an anaerobic bioreactor with external circulation of the liquid phase wherein the biomass was immobilized on a polyurethane foam matrix is proposed. 8-hours cycles were cartied out at a temperature of 30 ± 1°C treating glucose synthetic wastewater at a concentration around 500 mg/L. A hydrodynamic study performed at 0.16 to 0.80 cm/s showed that the obtained mixture time is insignificant compared to the total cycles time, and the flow through the polyurethane foam bed can be represented by a plug flow. The reactor\'s performance assessed without circulation and with circulating liquid superficial velocity between 0.03 and 0.30 cm/s. The reactor attained operating stability and a COD removal efficiency of 96% was achieved. The increase in the liquid superficial velocity decreases the liquid resistance mass transfer, resulting in an increase of 115% in the global reaction velocity, estimated through the fit of a first model equation on the substrate concentration experimental values.

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Yang, Chunping. "Rotating Drum Biofiltration." University of Cincinnati / OhioLINK, 2004. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1092668752.

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Books on the topic "Biomass foam"

Madgwick, H. A. I. Pinus radiata: Biomass, form and growth. Rotorua, N.Z: Madgwick, 1994.

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Fokin, Sergey. Improvement of technical means for processing waste from logging operations for fuel chips in felling conditions. ru: INFRA-M Academic Publishing LLC., 2017. http://dx.doi.org/10.12737/24135.

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Currently, wood waste in the form of a dissected crown on the ground and the root fraction of the tree's biomass in the ground remain in felling areas, becoming potentially dangerous combustible materials in the event of forest fires, as well as obstacles to reforestation activities, and possible foci of infections. Shredding wood waste into wood chips will solve the problem of their disposal by using fuel chips as an additional source of heat energy. In the present work, the influence of design and operational parameters of milling machines with a modernized hydraulic system and equipped with active working bodies on the process of shredding wood waste is established. The annual economic effect from the introduction of the developed complex of wood waste shredding machines and economic indicators from the use of fuel chips are given. This publication is intended for undergraduates and postgraduates engaged in scientific research in the field of forestry mechanization.

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Freitas, Lisiane dos Santos, Roberta Menezes Santos, Diego Fonseca Bispo, Thainara Bovo Massa, Thiago Vinícius Barros, Lucio Cardozo Filho, Alberto Wisniewski Jr., et al. Energia da Biomassa: termoconversão e seus produtos. Brazil Publishing, 2020. http://dx.doi.org/10.31012/978-65-5861-079-3.

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In this book, the authors briefly present a description of the main pyrolysis process, the pretreatment of biomass, the characteristics of biomass, and pyrolysis products through an upgraded methods and its application. The book is divided into ten chapters dedicated to showing the potential of the thermochemical process to convert biomass into biogas, bio-oil, pyrolysis water, and biochar, which are products that can be used as intermediates in the chemical industry, in agriculture, or as biofuels. The critical knowledge of the characteristics of the biomass and possible pretreatment methods before pyrolysis can be used to help determine the routes to obtain products with superior economic value. The main types of thermal conversion, the technologies, reactors, and catalyst used to upgrade the bio-oil into biofuels, is presented is a didactic form. The characterization of classic and new techniques is addressed in order to clarify the main information obtained about the chemical characteristics of biomass and pyrolysis products. The content also shows the importance and main applications of pyrolysis products for the economy and the environment.

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Byproducts, Waste Biomass and Products to form Green Diesel and Biocrude Oils. MDPI, 2020. http://dx.doi.org/10.3390/books978-3-03943-518-0.

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Money, Nicholas P. 6. Microbial ecology and evolution. Oxford University Press, 2014. http://dx.doi.org/10.1093/actrade/9780199681686.003.0006.

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Many ecosystems are wholly microbial and the activities of microorganisms provide the biochemical foundation for plant and animal life. ‘Microbial ecology and evolution’ describes how plants depend upon the complex redox reactions of microbes that fertilize the soil by fixing nitrogen, converting nitrites to nitrates, enhancing the availability of phosphorus and trace elements, and recycling organic matter. Eukaryotic microorganisms are similarly plentiful and essential for the sustenance of plants and animals. Bacteria, archaea, and single-celled eukaryotes are the masters of the marine environment, harnessing the energy that supports complex ecological interactions between aquatic animals. Bacteria and archaea form 90% of the ocean biomass and surface waters are filled with eukaryotic algae.

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Marques, Marcia Alessandra Arantes, ed. Pesquisa em Engenharia: Ciência e Aplicação. Bookerfield Editora, 2022. http://dx.doi.org/10.53268/bkf22040200.

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Neste livro são apresentados resultados de trabalhos científicos aplicados à grande área de Engenharia. De abordagem objetiva, a obra se mostra de grande relevância para graduandos, alunos de pós-graduação, docentes e profissionais. Os capítulos estão agrupados em duas seções: i) materiais; ii) águas continentais e oceânicas. Pelo capítulo um é apresentado o desenvolvimento de uma metodologia para obter-se reprodutibilidade da área superficial de um eletrodo de estanho durante o estudo do crescimento de óxidos de estanho. A reprodutibilidade da área superficial pode ser comprovada pela reprodutibilidade das densidades de carga anódicas dos voltamogramas anódicos a 50 mVs-1 posteriores a cada tratamento. Por meio do capítulo dois é analisada a substituição de parte do carvão mineral, utilizado em siderúrgicas, por biomassa. Entre os grandes desafios do setor estão a produção de aço a preços competitivos e a substituição de parte do carvão mineral utilizado por biomassa. A biomassa é considera neutra em emissões de CO2, devido a captura do mesmo durante o processo de fotossíntese, o que a torna atraente para seu uso nos processos siderúrgicos. Além disso, o seu uso pode gerar redução de custos, principalmente se for considerado os rejeitos do agronegócio que não possuem um alto valor agregado. Neste contexto, por este capítulo serão mostradas algumas possíveis utilizações de biomassa nos processos siderúrgicos através de estudos que vem sendo realizado no tema e aplicações na indústria. Será possível notar que o uso de biomassa é uma alternativa viável a curto prazo para atender as crescentes restrições ambientais atuais. Através do capítulo três é analisado o crescimento voltamétrico de óxido de estanho em solução tampão fosfato, pH 8,7. Medidas elipsométricas ex-situ foram realizadas para determinar a espessura dos óxidos crescidos. A partir desses resultados, o volume do filme por unidade de carga, Vf, foi calculado para diferentes densidades de carga. As medidas elipsométricas mostram que filmes de óxido de estanho crescidos a 2 mVs-1 são menos densos para valores de espessura 3,37 nm, tendo Vf próximo a 1,70 x 10-4 cm3C-1. Para valores mais altos de espessura (11,0 – 12,4 nm) os filmes se tornam mais densos tendo Vf próximo a 0,5 x 10-4 cm3C-1. No caso de 100 mVs-1 os filmes apresentam o mesmo comportamento, tendo Vf próximo de 3,74 x 10-4 cm3.C-1 para espessura de 4,56 nm e Vf próximo de 1,32 x 10-4 cm3.C-1 para espessura de 7,42 nm. Imagens de Microscopia de Força Atômica mostraram que a morfologia muda e a rugosidade dos filmes aumenta com o aumento da espessura e do potencial final da voltametria. O capítulo quatro trata do Nitreto cúbico de boro (cBN), material imprescindível para usinagem com alta precisão e alta velocidade de APRESENTAÇÃO materiais ferrosos como aço. O cBN é recomendado para trabalhos sob condições severas, tais como corte intermitente, em que dureza deve estar associada com tenacidade para evitar a quebra. Na síntese do cBN, são aplicados, basicamente, dois tipos de catalisadores: nitreto de magnésio e magnésio. Cada qual oferece diferentes possibilidades, tais como maiores valores de profundidade de corte ou menor nível de rugosidade superficial. Este capítulo contribui para uma melhor compreensão da manipulação dos parâmetros aplicados no regime de síntese deste elemento e, favorecendo o desenvolvimento da tecnologia de sua produção. Por meio do capítulo cinco é avaliada a aplicação de separação magnética de alta intensidade no beneficiamento de itabiritos pobres. Na rota de processo avaliada (separação magnética + flotação), a etapa de separação magnética executa a função de pré-concentração e deslamagem. O teor de SiO2 no concentrado foi de 1,46% (menor que o teor objetivo de 2,00%). As recuperações mássica e metalúrgica obtidas com a rota separação magnética + flotação foram maiores em termos absolutos 3,3% e 4,4%, respectivamente. Através do capítulo seis é realizada a otimização de injeção de poliamida PA66 com 50% GF usando o método Taguchi. O estudo se justifica pela necessidade crescente de materiais mais leves e de maior produtividade em substituição às ligas metálicas, o que demanda o constante desenvolvimento de compósitos poliméricos e eficazes processos de fabricação. Como resposta do estudo, mediu-se a resistência máxima de tração (RTmáx), numa poliamida 66 com carga de 50% de fibra de vidro, Grivory GV-5H®. Fez-se uso da metodologia ANOVA para indentificar-se os fatores de maior significância para o processo. A melhor resistência máxima de tração obtida de 242,6 N/m2, mostrou-se como uma opção na substituição à aplicações de ligas metálicas de alumínio. A melhor resultado se obteve com a temperatura de processamento em 270°C, o fluxo volumétrico de 83 cm³/s, a pressão de recalque de 300 bar, a contrapressão de 10 bar, velocidade da rosca de 50 min-1 e o tempo de recalque com valor de 5 s. As porcentagens de contribuição encontradas foram pressão de recalque com contribuição de 61%, seguido da temperatura de processamento, com contribuição de 17% e em terceiro, o fluxo volumétrico com contribuição de 12%. A instalação de grandes equipamentos submarinos em águas profundas apresenta uma série de desafios. O capítulo sete trata da análise de estabilidade hidrodinâmica de Manifolds submarinos durante a instalação pelo método pendular. O presente capítulo racionaliza tal método e, além disso, considera sistemas para evitar o capotamento, durante um momento crítico do método que é o início da descida, apresentando uma modelagem matemática fenomenológica a partir de casos similares. A etapa de validação foi realizada pela análise comparativa entre a modelagem proposta e resultados de testes experimentais realizados com modelos físicos. Com a confirmação da aderência dos resultados numéricos com os experimentos, esta abordagem se confirma como uma ferramenta de engenharia para dimensionamento dos equipamentos submarinos instalados pelo Método Pendular para que sejam direcionalmente estáveis. Por meio do capítulo oito são apresentados os resultados da simulação da distribuição espacial das ondas geradas pela ação de ventos severos sobre o reservatório da barragem de Salto Caxias, no rio Iguaçu, estado do Paraná. Os ventos severos foram estimados através da análise de frequência regional para várias estações anemométricas do Instituto Meteorológico do Paraná (SIMEPAR) para o período de 1998 a 2005. As alturas de ondas foram estimadas pelo método paramétrico SMB, que usa como dados de entrada o fetch e a velocidade do vento. O método SMB foi aplicado pelo modelo computacional ONDACAD. Os testes estatísticos indicaram que a distribuição de Wakeby foi a mais robusta para as séries curtas de ventos horários máximos anuais, produzindo estimativas de ventos severos que variaram entre 25,7 ms-1 (tempo de retorno de Tr=10 anos) a 50,9 ms-1 (Tr=100 anos). O estudo presta grande contribuição à compreensão da quantificação das alturas de ondas geradas por ventos severos neste importante reservatório do estado do Paraná. Pelo capítulo nove é apresentada uma análise comparativa bidimensional entre alturas de ondas resultantes da aplicação dos modelos paramétricos MARQUES e JONSWAP ao reservatório da Usina Hidrelétrica de Itaipu Binacional, localizado no Rio Paraná entre o Brasil e o Paraguai. Os campos de vento uniforme relacionados a períodos de recorrência de 10, 20, 50 e 100 anos foram obtidos pelos registros realizados pelo Sistema Meteorológico do Paraná (SIMEPAR). Através da utilização do modelo ONDACAD foram determinados os campos de fetch e a transformação em campos de ondas pela utilização dos modelos paramétricos MARQUES e JONSWAP. Ao proceder a análise constatou-se que, ao majorar os resultados do modelo JONSWAP em 78% chega-se aos resultados bidimensionais gerados pelo modelo Marques. Esta condição foi verificada para situações de ventos extremos, ou seja, superiores a 20ms-1 e corpos hídricos que possuem fetch máximo da ordem de 10 quilômetros. O estudo contribui para a compreensão da distribuição das magnitudes das alturas de ondas neste reservatório de grande importância no âmbito da América do Sul, de grande utilidade para estudos relacionados, por exemplo, a erosões marginais, ecossistemas aquáticos continentais, psicultura por tanques-rede, quantificação de gases de efeito estufa devido à ressuspensão de sedimentos devido a propagação de ondas.

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Marques, Marcia Alessandra Arantes, ed. Pesquisa em Engenharia: Ciência e Aplicação. Bookerfield Editora, 2022. http://dx.doi.org/10.53268/bkf22040200.

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Silva, Jucimar Maia da, Francis Wagner Silva Correia, Maria Olívia de Albuquerque Ribeiro Simão, Adan Sady de Medeiros Silva, José Renato Sátiro Santiago Júnior, and Kelly Christiane Silva de Souza. 1st Amazon STEM ACADEMY CONFERENCE 2021: Tecnologia, Inovação e Sustentabilidade na Educação em Engenharia. Editora Amplla, 2021. http://dx.doi.org/10.51859/amplla.asa948.1121-0.

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A 1st Amazon Stem Academy Conference - ASAC21 foi realizada de forma virtual e gratuita no período de 07 a 10 de outubro de 2021. A Conferência faz parte das atividades do Projeto Academia STEM, fruto da parceria da Universidade do Estado do Amazonas (UEA) com a Samsung Eletrônica da Amazonia. A 1st ASAC21 teve por tema: “Tecnologia, Inovação e Desenvolvimento Sustentável na Educação” como forma de destacar a oportunidade de convergência entre a formação de engenheiros e a promoção da sustentabilidade. Por estarmos na Amazônia, temos especial capacidade de aliar desenvolvimento tecnológico e inovação à conservação do Bioma. Foram muito importantes as discussões estabelecidas a partir desta perspectiva!! 04 diferentes keynotes nas áreas de Engenharia Elétrica, Eletrônica, Controle e Automação, Produção e Computação foram o ponto central do evento. Além disso, tivemos: 05 palestras, 13 trilhas, 02 mesas redondas e 01 roda de conversa abordando temas referentes ao estado da arte em Tecnologia, Inovação, Sustentabilidade, Eficiência Energética, Industria 4.0, Tecnologias Digitais e Inteligência Artificial. Um espaço especial na 1st ASAC21 foi dedicado as apresentações dos resultados de 46 projetos Científicos, Tecnológicos, de Inovação e Sustentabilidade desenvolvidos por alunos e professores dos cursos de engenharia ao longo do primeiro ano da Academia STEM. Neste Anais apresentamos uma coletânea de conhecimentos, os resumos expandidos dos trabalhos científicos apresentados durante o evento com o link de acesso no YouTube para assistir aos vídeos de apresentação desses trabalhos durante o evento. Leia e confira o que foi apresentado e discutido no ASAC 21.

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de Araújo Barbosa, Kennedy, Fabiano Guimarães Silva, Luzia Francisca de Souza, Gisele Cristina de Oliveira Menino, and Tatianne Silva Santos. PLANTAS MEDICINAIS MANIPULAÇÃO E USO NA COMUNIDADE QUILOMBOLA DO CEDRO - MINEIROS-GO. Editora IF Goiano, 2021. http://dx.doi.org/10.54879/978-65-87469-13-3.2021.01.002.

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Este livro é parte dos resultados obtidos por meio da pesquisa intitulada “Cultura Quilombola do Cedro em perspectiva intercultural no Ensino Básico”, financiada pelo Conselho Nacional de desenvolvimento Científico e Tecnológico (CNPq), desenvolvida por servidores do Instituto Federal de Educação, Ciência e Tecnologia Goiano (IF Goiano), em parceria com a Universidade Federal de Jataí/GO (UFJ). De 2015 a 2018 foram realizados estudos de caráter etnográfico e etnobotânico na Comunidade Quilombola do Cedro, localizada na cidade de Mineiros, no estado de Goiás, com objetivo de resgatar as histórias culturais locais e a inter-relação homem e planta, fortalecendo a preservação das diversidades cultural e vegetal. Como resultado dessa pesquisa foi elaborada uma coleção de material paradidático que visa contribuir para um diálogo intercultural entre a comunidade dos remanescentes e a sociedade, em especial, com a comunidade escolar. Os saberes tradicionais dos cedrinos sobre as plantas medicinais do bioma Cerrado tem chamado atenção do meio acadêmico. Neste material, encontram-se registradas aproximadamente 170 espécies de plantas utilizadas pelos remanescentes na manipulação de seus produtos. A catalogação traz o nome científico e popular, família e a parte da planta utilizada como princípio ativo. Esta obra está dividida em três partes: a primeira apresenta aspectos históricos, geográficos, socioeconômicos e culturais da Comunidade Quilombola do Cedro; a segunda parte traz um relato sobre o trabalho dos cedrinos com as plantas medicinais e a última apresenta a catalogação de parte das plantas medicinais utilizadas por eles.

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Book chapters on the topic "Biomass foam"

Reed, Thomas B., William L. Mobeck, and Siddhartha Gaur. "A Thermochemical Hydrophobic Oleophilic form of Biomass for Oil and Chemical Absorption." In Advances in Thermochemical Biomass Conversion, 1214–21. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-1336-6_94.

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Kim, Se-Kwon, and Pradeep Dewapriya. "Biologically Active Compounds Form Seafood Processing By-Products." In Biotransformation of Waste Biomass into High Value Biochemicals, 299–311. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-8005-1_12.

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Kolmykova, Anna. "Design einer Biomasse-Supply-Chain – internationale Wertschöpfung im Bereich landwirtschaftlicher Reststoffe als Beitrag zur zirkulären Wirtschaft." In FOM-Edition, 237–50. Wiesbaden: Springer Fachmedien Wiesbaden, 2022. http://dx.doi.org/10.1007/978-3-658-34322-4_11.

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Wills, J. M., E. Sundström, J. J. Gardiner, and M. Keane. "The effect of cultivation technique on root and shoot biomass production by young Sitka spruce (Picea sitchensis (Bong.) Carr.) trees on surface water gley soils." In The Supporting Roots of Trees and Woody Plants: Form, Function and Physiology, 97–108. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-017-3469-1_9.

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Zepnik, Stefan, Tilo Hildebrand, Stephan Kabasci, Hans-Joachim Ra-dusch, and Thomas Wodke. "Cellulose Acetate for Thermoplastic Foam Extrusion." In Cellulose - Biomass Conversion. InTech, 2013. http://dx.doi.org/10.5772/56215.

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Alabaster, G. P., E. I. Stentiford, and I. Walker. "RETICULATED FOAM AS A BIOMASS SUPPORT IN THE ANAEROBIC DIGESTION OF AN INDUSTRIAL WASTEWATER." In Water Pollution Control in Asia, 677–84. Elsevier, 1988. http://dx.doi.org/10.1016/b978-0-08-036884-9.50096-x.

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Benintendi, Renato. "Experimental Investigation of Biomass Attachment to Wastewater Reactors." In Wastewater Treatment [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.94426.

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Attached mass bioreactors have extensively been adopted in the last decades when specific needs have suggested this choice. Benefits and advantages of this multi-faceted technology in wastewater treatment processing are well known, along with the kinetic and mass transfer aspects regarding their operation, essentially belonging to the mass transfer with chemical reaction theory applied to enzymatic catalysis, referred to as Languimur-Hinshelwood kinetics, notably Monod/Michaelis Menten equations. On the other hand, a consolidated literature has dealt with many aspects of the development of strain colonies forming a biofilm. However, a few works have been devoted to the systematic analysis of its physiology, within the framework of the wastewater management of complex substrates and high-loads effluents. This article presents the experimental findings of a research activity covering the junction area between microbiology and bioreactor engineering, against a multifaceted set of operating parameters directly affecting health and stability of the attached biomass. In this respect, important results have been obtained, providing guidance on the attached mass reactor start-up, steady- state operation, impact of xenobiotic substrates, role of nutrients, filaments and foam formation, as well as qualitative aspects of the post-treatment effluent.

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Garba, Abdurrahman. "Biomass Conversion Technologies for Bioenergy Generation: An Introduction." In Biomass [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.93669.

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Over the last century, there has been increasing debate concerning the use of biomass for different purposes such as foods, feeds, energy fuels, heating, cooling and most importantly biorefinery feedstock. The biorefinery products were aimed to replace fossil fuels and chemicals as they are renewable form of energy. Biomass is a biodegradable product from agricultural wastes and residues, forestry and aquaculture. Biomass could be sourced from a variety of raw materials such as wood and wood processing by-products, manure, fractions of organic waste products and agricultural crops. As a form of renewable energy, they have the advantages of easy storage, transportation, flexible load utilization and versatile applications. The aim of this study is to provide an overview for thermochemical and biochemical biomass conversion technologies that were employed currently. Attention was also paid to manufacture of biofuels because of their potentials as key market for large-scale green sustainable biomass product.

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Rowlands, Mark. "The Biomass Reallocation Program." In World on Fire, 172–88. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780197541890.003.0009.

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Underlying human-caused extinctions, past and present, is a vast biomass reallocation program. Before our Neolithic forebears began changing the world, biomass was distributed quite evenly among species of animals and plants. The tenure of humans has seen a marked change in this, as biomass became progressively concentrated into a small number of species—us and animals we eat. Today, 96% of all mammalian biomass consists in humans and the mammals that humans farm. An additional 70% of all avian biomass consists in domestic fowl. This biomass reallocation is the most significant driver of species extinction. The number-one driver of species extinction today is change in land use. The most significant driver of change in land use is agricultural expansion. By far the most prominent form of agricultural expansion is pastoral farming and the growing of animal feed crops. Eating animals is, therefore, the most important driver of species extinction.

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Meddich, Abdelilah, Abderrahim Boutasknit, Mohamed Anli, Meriame Ait Ahmed, Abdelilah El Abbassi, Hanane Boutaj, Mohamed Ait-El-Mokhtar, and Ali Boumezzough. "Use of Olive Mill Wastewaters as Bio-Insecticides for the Control of Potosia Opaca in Date Palm (Phoenix dactylifera L.)." In Biomass [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.93537.

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The date palm is one of the most economically important perennial plants of the North Africa and in Morocco, where it is extensively cultivated for food and many other commercial purposes. Palm trees are threatened by many pests such as Potosia opaca newly identified in Morocco, especially in Marrakesh and Errachidia regions. In addition, olive mill wastewaters (OMW) are an environmental problem in olive oil producing countries such as Morocco. Generally, these effluents are drained into ecosystems without any pre-treatment. To reduce their negative impact and to get benefits in particular from their high phenolic content, OMW were used as bio-insecticides in crude form. The results showed that crude OMW were effective to control this pest causing a weight loss similar to Cordus insecticide (17% vs. 15%) and mortality almost similar to Kemaban insecticide. OMW’s biocide potential was related principally to their high phenolic content. Based on HPLC analysis, ten phenolic molecules were identified, including two which were revealed as the major monomeric phenolic compounds in OMW, 0.248 g/L of hydroxytyrosol and 0.201 g/L of tyrosol. In this chapter, the potential use of OMW as bio-insecticides for the control of P. opaca in date palm is discussed.

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Conference papers on the topic "Biomass foam"

Roziafanto, Achmad Nandang, Made Subekti Dwijaya, Rima Yunita, Majid Amrullah, and Mochamad Chalid. "Synthesis hybrid bio-polyurethane foam from biomass material." In PROCEEDINGS OF THE 5TH INTERNATIONAL SYMPOSIUM ON APPLIED CHEMISTRY 2019. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5134632.

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Rosli, Siti-Suhailah, Jun-Wei Lim, Yoshimitsu Uemura, Man-Kee Lam, Mohamed Hasnain Isa, Wen-Da Oh, and Hamzah Sakidin. "pH optimization to promote attached growth of microalgae biomass onto polyurethane foam material." In PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON APPLIED SCIENCE AND TECHNOLOGY (ICAST’18). Author(s), 2018. http://dx.doi.org/10.1063/1.5055525.

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Ozbay, N., and A. S. Yargic. "Liquefaction of oak tree bark with different biomass/phenol mass ratios and utilizing bio-based polyols for carbon foam production." In PROCEEDINGS OF THE 6TH INTERNATIONAL ADVANCES IN APPLIED PHYSICS AND MATERIALS SCIENCE CONGRESS & EXHIBITION: (APMAS 2016). Author(s), 2017. http://dx.doi.org/10.1063/1.4975454.

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Herndon, Marcus. "Effect of Thermal Depolymerization of Wasted Food Extracts on Alternate Fuel Production." In ASME 2016 10th International Conference on Energy Sustainability collocated with the ASME 2016 Power Conference and the ASME 2016 14th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/es2016-59535.

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Human activities like fossil fuel retrieval, biomass burning, waste disposal, and residential and commercial use of energy are continuing to effect the Earth’s energy budget by changing the emissions and resulting atmospheric concentrations of radioactively important gases, aerosols, and by changing land surface properties. These activities negatively contribute to Earth’s greenhouse gases including water vapor (H2O), carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), and ozone (O3). Approximately 82% of greenhouse gases are developed from the United States, Asia, and Europe alone. Food and their extraction processes, including transportation of those extracts, account for about 35% of those greenhouse gases. This includes wasted, rotten, and uneaten food. About 40% of food in the United States today goes uneaten, resulting in more than 20 pounds of food per person every month. Not only does this mean that Americans are throwing out upwards of $165 billion each year, amounting to $1,350 to more than $2,275 annually in waste per family of four, but also 25 percent of all freshwater and huge amounts of unnecessary chemicals, energy, and land. Moreover, almost all of that uneaten food ends up rotting in landfills. This number has increased, in regards to organic matter, from approximately 16 percent of U.S. methane emissions in 2010 upwards to 25 percent in 2012. With the increase in supply and demand of food, in addition to the lower consumer cost, the statistics of wasted feedstocks are rapidly increasing. The purpose of this research is to utilize wasted food to extract natural hydrocarbon oils through thermal depolymerization in order to develop an alternative fuel. Thermal depolymerization is a hydrous pyrolysis process that breaks down long chained polymers into simpler compounds and light hydrocarbons, much of which can be separated and used for fuel. Polymers include essentially all organic matter i.e. matter made of living or once-living things, which include petroleum products like plastic, styro-foam, and nylon, as well as plant and animal material, and manure. Potatoes and corn starch were used as feedstocks for this research and thermal depolymerization was conducted on the feedstocks for analysis and fuel collection. With optimum use and a mature thermal depolymerization technology, the Earth might comfortably support 10 times its current population at a high standard of living. There is enough biomass existing now accessible on the surface of the earth to provide 100 years of human energy use.

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Andrea Pinto, Tânia Ferreira, and João Monney Paiva. "Evaluation of Paulownia's biomass in a pelletized form." In 23rd ABCM International Congress of Mechanical Engineering. Rio de Janeiro, Brazil: ABCM Brazilian Society of Mechanical Sciences and Engineering, 2015. http://dx.doi.org/10.20906/cps/cob-2015-0720.

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Davies, Andrew, Rasam Soheilian, Chuanwei Zhuo, and Yiannis Levendis. "Environmentally-Benign Conversion of Biomass Residues to Electricity." In ASME 2013 Power Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/power2013-98060.

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As petroleum resources are finite, it is imperative to use them wisely in energy conversion applications and look for alternative options as an energy source. Biomass is one of the renewable energy sources that can be used to partially replace fossil fuels. Biomass-based fuels can be produced domestically and may thus reduce dependency on fuel imports. Due to their abundant supply, and given that to an appreciable extent they are considered to be carbon-neutral, their use for power generation is of technological interest. However, whereas biomasses can be directly burned in furnaces, such a conventional direct combustion technique is ill-controlled and typically produces considerable amounts of health-hazardous airborne compounds [1,2]. Thus, an alternative technology is described herein to further address our increasing energy needs and, at the same time, utilize our biomass streams in an environmentally-benign manner. More specifically, a multi-step process/device is outlined to accept biomass, of various types and shapes, and generate an easily-identifiable form of energy as a final product. To achieve low emissions of products of incomplete combustion, the biomass is gasified pyrolyticaly, mixed with air, ignited and, finally, burned in nominally premixed low-emission flames. Combustion is thus indirect, since the biomass is not directly burned, instead its gaseous pyrolyzates are burned upon mixing with air. Thereby, combustion is well-controlled and can be complete. A demonstration device has been constructed to convert the internal energy of plastics into clean thermal energy and, eventually to electricity.

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Silva, Mirella Pessôa Diniz Da. "ANÁLISE DO POTENCIAL ENERGÉTICO E SUSTENTÁVEL DA BIOMASSA RESIDUAL DE CANA-DE-AÇÚCAR PARA A PRODUÇÃO DE BIOCOMBUSTÍVEIS." In II Congresso Brasileiro de Biotecnologia On-line. Revista Multidisciplinar de Educação e Meio Ambiente, 2022. http://dx.doi.org/10.51189/conbiotec/42.

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Introdução: O uso da biomassa como fonte renovável e sustentável de energia, permite diversificar a matriz energética nacional, além de reduzir a emissão de gases do efeito estufa. Diversos resíduos de natureza lignocelulósica, como os resíduos agroindustriais, podem ser aproveitados para gerar bioenergia e também, insumos químicos com valor agregado. A palha e o bagaço, provenientes da colheita e do processamento de produtos da agroindústria da cana-de-açúcar, representam as principais biomassas residuais dessa cultura. Objetivo: Analisar o cenário atual e as perspectivas futuras da conversão dos resíduos gerados na agroindústria sucroalcooleira em bioenergia. Material e métodos: A base de dados escolhida foi a Scopus, considerado um importante banco de dados de resumos e citações da literatura com revisão por pares. Como critério para a busca de trabalhos relacionados ao tema proposto, foram inseridos termos como residual sugarcane biomass e sugarcane straw for biofuels. Após análise crítica de alinhamento com os objetivos propostos pelo presente trabalho, foram selecionados 12 artigos, publicados a partir de 2016, para compor esta revisão. Resultados: Embora haja relevância energética e ambiental em seu reaproveitamento, os altos custos de recuperação e transporte, ainda são apontados como os principais entraves no uso da palha como matéria prima na produção energética. Contudo, este cenário vem sofrendo mudanças, principalmente pela expectativa da produção do bioetanol de segunda geração (2G), através do processo de hidrólise. Deste modo, a palha se converte em uma variável fundamental na rota energética da cana-de-açúcar. Existem também, legislações ambientais que podem favorecer a disponibilização da mesma como matéria prima alternativa na produção de biocombustíveis 2G. Conclusão: Os resíduos de biomassa lignocelulósica podem abrir as portas para a tecnologia verde em mitigação dos impactos da mudança climática global, além de desempenhar um papel central no desenvolvimento antecipado de fontes sustentáveis de energia renovável. No caso particular da indústria sucroalcooleira, além de ser uma indústria historicamente consolidada e em crescimento contínuo no Brasil, também é pioneira no desenvolvimento de novas tecnologias. Permitindo assim, constantes melhorias dos processos e das rotas de conversão de energia, elevando a sustentabilidade da atividade.

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Viriato, Nicola, ETILENIA ALBERTINO DIA, ELDA RENATO CÁ, and ADILSA MANUEL QUADÉ. "DIVERSIDADE DE ARANEAE (ARANHAS) NO BIOMA DA MATA ATLÂNTICA NO PARQUE DAS TRILHAS, GUARAMIRANGA-CE." In II Congresso Brasileiro de Biodiversidade Virtual. Revista Multidisciplinar de Educação e meio ambiente, 2022. http://dx.doi.org/10.51189/ii-conbiv/7100.

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Introdução: A Mata Atlântica é conhecida como um dos biomas que apresenta alta diversidade biológica, e ao mesmo tempo como um dos biomas mais ameaçados em decorrência da alta ocupação humana das suas áreas e das crescentes agressões dos seus habitats por atividades antrópicas, entre os quais destaca-se, agropecuária, desmatamento florestal e exploração insustentável dos recursos naturais existentes neste bioma. Dessa forma, os seres vivos residentes nas áreas de mata atlântica, são suscetíveis aos efeitos nocivos das atividades antrópicas desenvolvidas nesses biomas, o que torna necessário e importante estudar a diversidade biológica, que habitam nesses ecossistemas para a melhor gestão e gerenciamento desse bioma. Nesse caso a Ordem Araneae, desempenha um importante papel ecológico nesses biomas, são considerados como indicadores biológicos de alterações ambientais nas comunidades bióticas. Objetivo: O presente trabalho objetiva identificar a diversidade de Araneae (aranhas) encontradas no Bioma da Mata Atlântica, no Parque Das Trilhas, Guaramiranga-CE. Material e métodos: A pesquisa é de natureza básica com abordagem qualitativa e quantitativa. E foi realizado no Parque Das Trilhas, Guaramiranga-CE. Por meio de Batedor e de Busca ativa foram coletados setenta (70) Araneae servindo como amostras para o estudo. As amostras coletadas foram encaminhadas para o laboratório de Ecologia e Evolução da Universidade de Integração Internacional da Lusofonia Afro-Brasileira- UNILAB. Resultados: Com base nas amostras coletadas, identificou-se, cinco (5) famílias de Araneae, entre as quais a Senoculidae, Tetragnathidae, Plolcidae, Araneídea, Amourobidae. Pode-se perceber que a família Araneídea, Senoculidae e Tetragnathidae são as mais abundantes nesse parque, em comparação com as Famílias dos Plolcidae e Amourobidae. Conclusão: No entanto, é necessário que o Parque das Trilhas, Guaramiranga-CE, seja bem preservado, pois esse parque pode servir como um espaço para a realização de pesquisas científicas, desenvolvimento de atividades da Educação Ambiental e como um espaço recreativo.

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Farhad, M. H., A. B. M. Abdul Malek, M. Hasanuzzman, and N. A. Rahim. "Technical review on biomass conversion processes into required energy form." In 2013 IEEE Conference on Clean Energy and Technology (CEAT). IEEE, 2013. http://dx.doi.org/10.1109/ceat.2013.6775628.

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Hotz, Nico. "Nano-Structured Catalytic Material for Solar-Powered Biofuel Reforming." In ASME 2012 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/imece2012-89729.

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The main goal of this project is to combine two renewable energy conversion technologies (low-temperature fuel cells and solarthermal collectors) to achieve synergies in terms of cost and energetic efficiency compared to systems based on a single energy source and energy conversion technology. Direct solar-to-electric energy conversion, such as photovoltaics, is currently not economically competitive with traditional electric power generation. Fuel cell technology using alcoholic fuel possibly generated from biomass (e.g. methanol) is not competitive in terms of costs either. The system proposed for this project is based on relatively cheap, commercially available hardware components (intermediate-temperature solar collector, pressurized gas tank, hydrogen-fed Proton Exchange Membrane (PEM) fuel cell) and benefits in terms of energetic efficiency from the cost-free supply of solar heat. By applying micro-fabrication technology and nano-scale structures (e.g. for catalytic surfaces), the efficiency of all individual system components and of the entire system can be increased drastically. The catalytic activity of micro-reactors containing this foam-like ceramic is tested in terms of their ability to convert alcoholic biofuel (e.g. methanol) to a hydrogen-rich gas mixture with low concentrations of carbon monoxide (up to 75% hydrogen content and less than 0.2% CO, for the case of methanol). This gas mixture is subsequently used in a low-temperature fuel cell, converting the hydrogen directly to electricity. A low concentration of CO is crucial to avoid poisoning of the fuel cell catalyst. Since conventional Polymer Electrolyte Membrane (PEM) fuel cells require CO concentrations far below 100 ppm and since most methods to reduce the mole fraction of CO (such as Preferential Oxidation or PROX) have CO conversions of up to 99%, the alcohol fuel reformer has to achieve initial CO mole fractions significantly below 1%. The catalyst and the porous ceramic reactor of the present study can successfully fulfill this requirement.

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Reports on the topic "Biomass foam"

Wilde, E. W., J. C. Radway, J. Santo Domingo, R. G. Zingmark, and M. J. Whitaker. Bioremediation of aqueous pollutants using biomass embedded in hydrophilic foam. Final report. Office of Scientific and Technical Information (OSTI), December 1996. http://dx.doi.org/10.2172/495736.

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Henry Liu and Yadong Li. COMPACTING BIOMASS AND MUNICIPAL SOLID WASTES TO FORM AND UPGRADED FUEL. Office of Scientific and Technical Information (OSTI), November 2000. http://dx.doi.org/10.2172/837464.

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Cavalcante, Rosane, Emily Dionizio, and Sâmia Nunes. História de uso da terra nas atuais áreas da Vale no Brasil. ITV, 2021. http://dx.doi.org/10.29223/prod.tec.itv.ds.2021.26.nascimento.

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As florestas guardam um importante estoque de carbono e a restauração florestal de áreas degradadas é considerada uma técnica já madura para remover quantidades elevadas de CO2 da atmosfera. Entretanto, quando as florestas são derrubadas ou degradadas, o carbono armazenado é liberado para a atmosfera, contribuindo para o aquecimento global. O presente relatório traz resultados parciais do projeto “Inventário de emissões e remoções de carbono florestal da Vale” que irá realizar a estimativa do fluxo anual de carbono florestal (remoções e emissões decorrentes da alteração da biomassa de árvores vivas acima e abaixo do solo) proveniente das mudanças de uso e cobertura do solo nas áreas de interesse da companhia. No presente relatório são apresentados a variação anual de classificação do uso da terra de 1985 a 2019 para as áreas de interesse no Brasil (áreas próprias e unidades de conservação que a empresa auxilia na conservação), incluindo a idade da vegetação secundária. Foram utilizadas as classificações de uso do solo do Projeto Mapbiomas v5. As principais classes mapeadas em 2019 foram: floresta (78% da área de estudo), pastagem (12%), mosaico de agricultura e pastagem (2%) e mineração (2%). Das áreas de floresta, 9% foram identificadas como floresta secundária. Em termos absolutos, a maior alteração de uso da terra no período analisado (1986 a 2019) foi a redução de 1086,3 km² de florestas, convertida principalmente em pastagem.

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Burton Davis, Gary Jacobs, Wenping Ma, Khalid Azzam, Janet ChakkamadathilMohandas, and Wilson Shafer. Sensitivity of Fischer-Tropsch Synthesis and Water-Gas Shift Catalystes to Poisons form High-Temperature High-Pressure Entrained-Flow (EF) Oxygen-Blown Gasifier Gasification of Coal/Biomass Mixtures. Office of Scientific and Technical Information (OSTI), September 2009. http://dx.doi.org/10.2172/1002145.

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Dudley, Lynn M., Uri Shani, and Moshe Shenker. Modeling Plant Response to Deficit Irrigation with Saline Water: Separating the Effects of Water and Salt Stress in the Root Uptake Function. United States Department of Agriculture, March 2003. http://dx.doi.org/10.32747/2003.7586468.bard.

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Standard salinity management theory, derived from blending thermodynamic and semi- empirical considerations leads to an erroneous perception regarding compensative interaction among salinity stress factors. The current approach treats matric and osmotic components of soil water potential separately and then combines their effects to compute overall response. With deficit water a severe yield decrease is expected under high salinity, yet little or no reduction is predicted for excess irrigation, irrespective of salinity level. Similarly, considerations of competition between chloride and nitrate ions have lead to compensation hypothesis and to application of excess nitrate under saline conditions. The premise of compensative interaction of growth factors behind present practices (that an increase in water application alleviates salinity stress) may result in collateral environmental damage. Over-irrigation resulting in salinization and elevated ground water threatens productivity on a global scale. Other repercussions include excessive application of nitrate to compensate for salinity, unwillingness to practice deficit irrigation with saline water, and under-utilization of marginal water. The objectives for the project were as follows: 1) To develop a database for model parameterization and validation by studying yield and transpiration response to water availability, excessive salinity and salt composition. 2) To modify the root sink terms of an existing mechanism-based model(s) of water flow, transpiration, crop yield, salt transport, and salt chemistry. 3) To develop conceptual and quantitative models of ion uptake that considers the soil solution concentration and composition. 4) To develop a conceptual and quantitative models of effects of NaCl and boron accumulation on yield and transpiration. 5) To add a user interface to the water flow, transpiration, crop yield, salt transport, chemistry model to make it easy for others to use. We conducted experiments in field plots and lysimeters to study biomass production and transpiration of com (Zeamays cv. Jubilee), melon (Cucumismelo subsp. melo cv. Galia), tomato (Lycopersiconesculentum Mill. cv. 5656), onion (Alliumcepa L. cv. HA 944), and date palms (Phoenix Dactylifera L. cv. Medjool) under salinity combined with water or with nitrate (growth promoters) or with boron (growth inhibitor). All factors ranged from levels not limiting to plant function to severe inhibition. For cases of combined salinity with water stress, or excess boron, we observed neither additive nor compensative effects on plant yield and transpiration. In fact, yield and transpiration at each combination of the various factors were primarily controlled by one of them, the most limiting factor to plant activity. We proposed a crop production model of the form Yr = min{gi(xi), where Yr = Yi ym-1 is relative yield,Ym is the maximum yield obtained in each experiment, Xi is an environmental factor, gi is a piecewise-linear response function, Yi is yield of a particular treatment. We selected a piecewise-linear approach because it highlights the irrigation level where the response to one factor ceases and a second factor begins. The production functions generate response "envelopes" containing possible yields with diagonal lines represent response to Xi alone and the lines parallel to the X-axis represent response to salinity alone. A multiplicative model was also derived approximating the limiting behaviour for incorporation in a hydrochemical model. The multiplicative model was selected because the response function was required to be continuous. The hydrochemical model was a better predictor of field-measured water content and salt profiles than models based on an additive and compensative model of crop response to salinity and water stress.

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Boyle, M., and Elizabeth Rico. Terrestrial vegetation monitoring at Fort Matanzas National Monument: 2019 data summary. National Park Service, May 2022. http://dx.doi.org/10.36967/nrds-2293409.

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The Southeast Coast Network (SECN) conducts long-term terrestrial vegetation monitoring as part of the nationwide Inventory and Monitoring Program of the National Park Service (NPS). The vegetation community vital sign is one of the primary-tier resources identified by SECN park managers, and it is currently conducted at 15 network parks (DeVivo et al. 2008). Monitoring plants and their associated communities over time allows for targeted understanding of ecosystems within the SECN geography, which provides managers information about the degree of change within their parks’ natural vegetation. 2019 marks the first year of conducting this monitoring effort at four SECN parks, including Fort Matanzas National Monument (FOMA). Nine vegetation plots, located on Anastasia and Rattlesnake Islands, were established at Fort Matanzas National Monument in June. Data collected in each plot included species richness across multiple spatial scales, species-specific cover and constancy, species-specific woody stem seedling/sapling counts and adult tree (greater than 10 centimeters [3.9 inches {in}]) diameter at breast height (DBH), overall tree health, landform, soil, observed disturbance, and woody biomass (i.e., fuel load) estimates. This report summarizes the baseline (year 1) terrestrial vegetation data collected at Fort Matanzas National Monument in 2019. Data were stratified across two dominant broadly defined habitats within the park (Maritime Upland Forests/Shrublands and Maritime Open Uplands). Noteworthy findings include: Eighty-two vascular plant taxa (species or lower) were observed across nine vegetation plots, including eight species not previously documented within the park. The most frequently encountered species in each broadly defined habitat included: Maritime Upland Forests and Shrublands: saw palmetto (Serenoa repens), yaupon (Ilex vomitoria), southern/eastern red cedar (Juniperus silicicola + virginiana), American beautyberry (Callicarpa americana), and American burnweed (Erectites hieraciifolius). Maritime Open Uplands: sea oats (Uniola paniculata), earleaf greenbriar (Smilax auriculata), and dixie sandmat (Euphorbia bombensis). ne non-native species, Brazilian pepper (Schinus terebinthifolia), categorized as invasive by the Florida Exotic Pest Plant Council (FLEPPC 2019) was encountered in one Maritime Upland Forest and Shrubland plot during this monitoring effort. There were not any rare plants tracked by the Florida Department of Agriculture and Consumer Services (FDACS 2020) found during this monitoring effort. All plants located in these monitoring plots are fairly common throughout Florida, as well as across the Southeast Coast. Three species observed, however, are on the FDACS 2020 list of commercially exploited plants within the state. These include saw palmetto, cinnamon fern (Osmundastrum cinnamomeum), and coontie (Zamia integrifolia var. umbrosa). Southern/eastern red cedar and cabbage palmetto (Sabal palmetto) were the most dominant species within the tree stratum of the Maritime Upland Forest and Shrubland habitat type. Species that dominated the sapling and seedling strata of this type included yaupon and cabbage palmetto. More than 75% of the trees measured in the parks Maritime Upland Forest and Shrubland habitat type were alive and experiencing healthy vigor. Of the 22 trees that were dead, more than 50% of those were southern/eastern red cedar. Most of those individuals that were observed with moderate or severe decline and greater than 50% dieback were southern/eastern red cedars. Although red bay (Persea borbonia) was identified as one of the “principal understory tree” species within Fort Matanzas National Monument’s maritime forests in 2004 (Zomlefer et al. 2004), tree-sized individuals were rarely detected on plots during this monitoring effort. This may be in part due to the detection of laurel wilt disease within St. Johns County in 2006 (USDA 2021). Based on the low detection...

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Actinides and Heavy Metal Analogs by Agricultural Crops: Uranium Uptake by Plants Form Brassica Family and High Biomass Crops. Office of Scientific and Technical Information (OSTI), August 1999. http://dx.doi.org/10.2172/761479.

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