Relevant bibliographies by topics / Green coconut shell powder

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Academic literature on the topic 'Green coconut shell powder'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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Journal articles on the topic "Green coconut shell powder"

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Pino, Gabriela Huamán, Luciana Maria Souza de Mesquita, Mauricio Leonardo Torem, and Gustavo Adolfo Saavedra Pinto. "Biosorption of cadmium by green coconut shell powder." Minerals Engineering 19, no. 5 (April 2006): 380–87. http://dx.doi.org/10.1016/j.mineng.2005.12.003.

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Sahoo, Prafulla Kumar, Sarojrani Pattnaik, and Mihir Kumar Sutar. "Investigation on the Influence of Different Additives on Properties of Green Sand Mould." Materials Science Forum 978 (February 2020): 29–33. http://dx.doi.org/10.4028/www.scientific.net/msf.978.29.

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Green sand mixtures which are used for moulding purposes in foundry industries should possess sufficient green compression strength, flowability, toughness and air-permeability. Usually, the aforementioned properties for a particular casting differ due to variation in composition of the moulding sand mixtures, sand grain shape and size, bonding capacity of the binder, type and quantity of additives used, etc. The present work focuses on the effect of various additives namely, camphor powder, coconut shell ash, mixture of camphor powder and coconut shell ash at diverse proportions on permeability and green compression strength of the sand moulds. The quantity of the aforementioned additives for experimentation was varied from 0.5 to 3.5 wt. %. It was found that the mould’s permeability increased on addition of 1 wt. % additives for all cases. Similarly, the optimum quantity of additives that needs to be added to the sand mixtures for enhancing green compression strength was found to be 2 wt. %. Among all the additives used for improving the mould’s permeability, substitution of camphor exhibited best results. The green compression strength was found to be highest for the coconut shell ash containing sand mould. The moulding sand containing a combination of camphor powder and coconut shell ash between 1 to 2 wt. % exhibited fine mould permeability along with sufficient green strength.
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Pino, G. H., L. M. S. de Mesquita, M. L. Torem, and G. A. S. Pinto. "Biosorption of Heavy Metals by Powder of Green Coconut Shell." Separation Science and Technology 41, no. 14 (October 2006): 3141–53. http://dx.doi.org/10.1080/01496390600851640.

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Kholil, A., S. T. Dwiyati, A. Sugiharto, and I. W. Sugita. "Characteristics composite of wood powder, coconut fiber and green mussel shell for electric motorcycle brake pads." Journal of Physics: Conference Series 1402 (December 2019): 055095. http://dx.doi.org/10.1088/1742-6596/1402/5/055095.

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Kholil, A., S. T. Dwiyati, R. Riyadi, J. P. Siregar, N. G. Yoga, and A. I. Aji. "Characteristics of wood powder, coconut fiber and green mussel shell composite for motorcycle centrifugal clutch pads." IOP Conference Series: Materials Science and Engineering 1098, no. 6 (March 1, 2021): 062034. http://dx.doi.org/10.1088/1757-899x/1098/6/062034.

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Pashaei, Shahryar, Soleyman Hosseinzadeh, and Akheel Ahmed Syed. "Studies on coconut shell powder and crysnanoclay incorporated acrylonitrile-butadiene rubber/ styrene butadiene rubber (NBR/SBR) green nanocomposites." Polymer Composites 38, no. 4 (June 22, 2015): 727–35. http://dx.doi.org/10.1002/pc.23632.

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Palsan, Sannasi Abdullah, Jia Yi Lim, and Abdullah Nor Asfaliza. "Synthesis and Characterization of Active Biocarbon Material for Use in Cosmetics and Personal Care Products." Key Engineering Materials 841 (May 2020): 266–72. http://dx.doi.org/10.4028/www.scientific.net/kem.841.266.

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Consumer’s preference towards organic material enriched nature based green products in the cosmetics and personal care industry have intensified over the years. This paper shares the synthesis and characterization of an active organic biocarbon material derived from carbonized powdered coconut shell by bicarbonate cured activation for use in charcoal-based cosmetic and personal care products. The optimum conditions for activation was observed at 800 °C, run for 180 min, with a bicarbonate impregnation ratio of 1:3. Experimental design followed Box-Behnken approach. The increase in iodine (757.30 mg/g) and methylene blue number (111.00 mg/g) are indicative of a highly porous biocarbon material that reflects its excellent adsorption capability. Suitability of the biocarbon material for application in charcoal-based cosmetic formulation mixture was supported through proximate, texture, and color analysis. Overall material characteristics are beneficial for effective adsorbent and exfoliant functions in cleansing, detoxifying, and scrubbing.
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Xavier, A., J. Gandhi Rajan, D. Usha, and R. Sathya. "Removal of Methylene Blue by Adsorption Process - A Comparative Study." Materials Science Forum 699 (September 2011): 245–64. http://dx.doi.org/10.4028/www.scientific.net/msf.699.245.

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Methylene blue is a heterocyclic aromatic chemical compound with the molecular formula C16H18N3SCl. It has used in the biology and chemistry field. At room temperature, it appears as a solid, odourless dark green powder that yields blue solution when dissolved in water. As a part of removal of methylene blue dye from textile and leather industrial wastes, using activated carbon as adsorbents namely, commercial activated carbon (CAC), rose apple carbon (RAC), coconut shell carbon (CSC) and saw dust carbon (SDC). The percentage of Methylene blue adsorbed increases with decrease in initial concentration and particle size of adsorbent and increased with increase in contact time, temperature and dose of adsorbents. The pH is highly sensitive for dye adsorption process. The adsorption process followed first order kinetics and the adsorption data the modeled with Freundlich and Langmuir isotherms. The first kinetic equations like Natarajan Khalaf, Lagergren, Bhattacharya and Venkobhachar and intra particle diffusion were found to be applicable. A comparative account of the adsorption capacity of various carbons has been made. These activated carbons are alternative to commercial AC for the removal dyes in General and MB is particular. These results are reported highly efficient and effective and low cost adsorbent for the MB. The thermodynamics parameters are also studied and it obeys spontaneous process. The results are confirmed by before and after adsorption process with the help of the following instrumental techniques viz., FT-IR, UV-Visible Spectrophotometer and SEM photos.
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Leman, A. S., S. Shahidan, M. S. Senin, S. M. Shamsuddin, N. A. Anak Guntor, S. S. Mohd Zuki, F. S. Khalid, A. T. S. Azhar, and N. H. S. Razak. "Durability of coconut shell powder (CSP) concrete." IOP Conference Series: Materials Science and Engineering 271 (November 2017): 012007. http://dx.doi.org/10.1088/1757-899x/271/1/012007.

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Liyanage, Chinthani D., and Mevan Pieris. "A Physico-Chemical Analysis of Coconut Shell Powder." Procedia Chemistry 16 (2015): 222–28. http://dx.doi.org/10.1016/j.proche.2015.12.045.

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Dissertations / Theses on the topic "Green coconut shell powder"

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Lima, Ari Clecius Alves de. "AdsorÃÃo de Ãnions Presente em Efluente Usando PÃ da Casca de Coco Verde Modificado." Universidade Federal do CearÃ, 2009. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=3832.

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à bem sabido que o aumento da produÃÃo de resÃduos particularmente os agroindustriais torna o destino final um problema ambiental Recentemente estudos com o uso de resÃduos agroindustriais na remoÃÃo de poluentes inorgÃnicos presentes em efluente tÃm-se tornado atraentes por serem baratos simples e eficientes Neste trabalho onde utiliza o pà da casca de coco verde modificado quimicamente na remoÃÃo de Ãnions de efluente em processo batelada AtravÃs de experimento fatorial o material foi modificado quimicamente com sal quaternÃrio de amÃnio (cloreto de 3-cloro-2-hidroxipropiltrimetilamÃnio) O material modificado obtido foi caracterizado (quÃmica e fÃsica) para comprovar o aumento da eficiÃncia pela modificaÃÃo quÃmica realizada. Os parÃmetros pH, concentraÃÃo inicial dosagem de adsorbente cinÃtica e isoterma de adsorÃÃo com Ãnions nitrato sulfato e fosfato foram investigados neste estudo no material modificado Os resultados com planejamento fatorial mostraram que a temperatura e pressÃo sÃo parÃmetros que mais influenciaram no processo de modificaÃÃo quÃmica do material adsorbente A cinÃtica de adsorÃÃo foi examinada em termos de modelos de pseudo-primeira ordem pseudo-segunda ordem e difusÃo intraparticular O modelo de Pseudo-segunda ordem mostrou as maiores concordÃncias com os dados experimentais Dados de equilÃbrio analisados pelos modelos nÃo linear e linear de Langmuir Freundlich SIPS Redlich-Peterson Toth e Tempkin indicaram que os dados experimentais sÃo melhor descritos pelas equaÃÃes de Freundilich e Langmuir A caracterizaÃÃo do bagaÃo de coco modificado foi realizada pelas tÃcnicas FTIR MEV, analise elementar BET e DifraÃÃo de RaiosâX A anÃlise de FTIR indicou que o grupo NH2 do sal de amina interage com grupos quÃmicos do bagaÃo de coco e os resultados indicaram que o bagaÃo de coco modificado exibiu potencial para a sua aplicaÃÃo na remoÃÃo de nitrato, sulfato e fosfato de soluÃÃo aquosa
Its very known that the increase from residues production particularly the agricultural waste becomes an environmental problem of final destiny of this material In recent years the use of agricultural by-products for the removal of inorganic polutant from wastewater has attracted so many researchers because they are cheap simple and of low cost as sorbents natural for wastewater treatment In this work the powder of the peel of green coconut was modified chemically for the removal anions from aqueous effluent by batch process The preparation of the material modified with quaternary salt of ammonium (2-hidroxypropyltrimethyl ammonium chloride) it was accomplished through factorial experiment The chemical and physical characterization of the raw material and modified was carried out to prove the accomplished chemical modification The parameters such as pH initial anion concentration adsorbent dosage adsorption kinetic and isotherm adsorption with modified material were investigated in this study Adsorption kinetic was also examined in terms of three kinetic models ie pseudo-first-order pseudo-second-order and intraparticle diffusion model Pseudo-second-order kinetic model showed a good agreement with the experimental data. Equilibrium data were evaluated by using nonlinear and linear models of Langmuir Freundlich SIPS Redlich-Peterson Toth e Tempkin equations It was obtained that experimental data conforms to the Langmuir and Freundlich equations In order to characterize synthesized material were measurement performed of FTIR elemental analysis SEM and X-ray From FTIR analysis observed that coconut shells species may interact with NH2 groups coconut shells and the results indicated that coconut shells exhibited potential for application in removal of nitrate sulfate and phosphate from aqueous solutions
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Raulino, Giselle Santiago Cabral. "Sistema Piloto de AdsorÃÃo de Ãons de Metais em Coluna (Leito Fixo) Utilizando como Adsorvente o PÃ da Casca de Coco Verde." Universidade Federal do CearÃ, 2011. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=5486.

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CoordenaÃÃo de AperfeiÃoamento de NÃvel Superior
Os resÃduos agroindustriais tÃm sido testados em pesquisas como adsorventes de metais tÃxicos, em efluentes aquosos, devido ao seu baixo custo, alta disponibilidade e eficiÃncia para essa finalidade. Nesse trabalho, utilizou-se o resÃduo da indÃstria do coco, o pà da casca de coco verde, proveniente da EMBRAPA, como material adsorvedor dos Ãons metÃlicos cobre, nÃquel e zinco de soluÃÃes aquosas, em escala piloto. Primeiramente, foi feita a determinaÃÃo granulomÃtrica do material, sendo que cerca de 85% se encontrou na faixa de 10 a 60 mesh. Em seguida, foi verificada a influÃncia do tratamento fÃsico-quÃmico na adsorÃÃo dos metais. Os dois tratamentos escolhidos foram com Ãgua e NaOH 0,1 mol.L-1, devido a alta capacidade de adsorÃÃo dos metais em estudo. Prosseguiu-se para os testes de coluna. Na otimizaÃÃo dos parÃmetros operacionais, a vazÃo de 200 mL.min-1 e altura de leito 100 cm, foram escolhidas devido a praticidade, menor tempo de execuÃÃo e facilidade de operaÃÃo, alÃm das elevadas capacidades de adsorÃÃo. O tempo de detenÃÃo hidrÃulica (TDH) resultante desses parÃmetros foi de 15min. ApÃs as otimizaÃÃes dos parÃmetros operacionais, foi investigada a influÃncia do tratamento fora da coluna e na prÃpria coluna. Foi observado que, de modo geral, a capacidade de adsorÃÃo do pà da casca de coco verde aumenta quando o material à submetido ao tratamento com NaOH 0,1 mol.L-1 na prÃpria coluna em relaÃÃo aos tratamentos com Ãgua fora e na coluna, e com NaOH fora da coluna. As capacidades de adsorÃÃo do sistema multielementar para o tratamento com NaOH na coluna foram de: 32,2 mg.g-1 para o cobre, 10,8 mg.g-1 para o nÃquel e 7,9 mg.g-1 para o zinco. Foi notado tambÃm que a soluÃÃo resultante desse tratamento necessita de correÃÃo de pH e tratamento da DQO para descarte. A capacidade de adsorÃÃo aumentou quando se passou de um sistema multielementar para um sistema monoelementar, resultando em: 39,3 mg.g-1 para o cobre, 21,9 mg.g-1 para o nÃquel e 20,6 mg.g-1 para o zinco. A dessorÃÃo utilizando como eluente HNO3 0,5 mol.L-1 necessitou de aproximadamente 20 L para remover os metais adsorvidos no pà da casca de coco verde tratado.
The agro-industrial residues have been used in research as adsorbents of toxic metals from aqueous effluents due to its low cost, high availability and efficiency for this purpose. In this study, residues from coconut shell industry was used, the coconut husk, from EMBRAPA, as adsorbent material of copper, nickel and zinc from aqueous solutions on a pilot scale. First, was made the determination of particle size material, showing that about 85% was found in the range of 10 to 60mesh. Then, the effects of physical and chemical treatment on the metals adsorption. The two treatments selected was NaOH 0.1 mol.L-1 and water, because there was an increase in the adsorption capacity. Then, was proceeded the column tests. In the optimization of operating parameters, the flow of 200mL.min-1 and bed height 100 cm, were chosen because of convenience, shorter execution time and ease of operation, and high adsorption capacities. The resulting TDH of parameters was 15min. After the optimization of operating parameters, we investigated the influence of treatment outside and inside the column. It was observed that, in general, the adsorption capacity increased when the material is subjected to treatment with 0.1 M NaOH inside the column in relation to water treatments in and ouside the column and NaOH outside the column. The adsorption capacity of multielement system for the treatment with NaOH in the column were: 32.2 mg.g-1 for copper, 10.86 mg.g-1 for nickel and 7.97 mg.g-1 for zinc. It was also seen that the solution resulting from this treatment requires correction of pH and COD treatment for disposal. The adsorption capacity increased for monoelementar system in comparison with a multielement system, resulting in: 39.37 mg.g-1 for copper, 21.9 mg.g-1 for nickel and 20.6 mg. g-1 for zinc. The desorption using HNO3 0.5 mol.L-1- as eluent needed about 20 L to remove the metals adsorbed on the shell powder coconut treated.
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Sousa, Francisco Wagner de. "AdsorÃÃo de metais tÃxicos de efluente aquoso usando pà da casca de coco verde tratado." Universidade Federal do CearÃ, 2007. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=647.

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Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico
Os resÃduos sÃlidos agroindustriais sÃo bastante estudados devido a sua abundÃncia e baixo custo para a recuperaÃÃo de efluentes industriais utilizando processos de adsorÃÃo. Neste trabalho utilizou-se o pà da casca de coco verde como adsorvente para remoÃÃo de metais pesados de efluentes aquosos produzidos por indÃstrias de eletrodeposiÃÃo localizadas em Juazeiro do Norte (CearÃ-Brasil). Sistemas de adsorÃÃo em batelada e coluna foram estudados. Na primeira etapa deste trabalho foram investigados o tratamento quÃmico, o efeito da granulometria, o efeito da concentraÃÃo do adsorvente e o efeito do pH. Os resultados mostraram que o tratamento aplicado no pà da casca de coco verde com NaOH 0,1mol.L-/3h foi mais eficiente. Este material foi usado para o estudo de adsorÃÃo dos metais com as seguintes caracterÃsticas: faixa de granulometria de 60-99 mesh, concentraÃÃo de 40g/L e pH 5,0. O estudo de cinÃtica indicou que o equilÃbrio de adsorÃÃo multielementar foi atingido em 5 minutos (pH 5,0) e segue cinÃtica de pseudo-segunda ordem. As capacidades mÃximas de adsorÃÃo observadas nos estudos de equilÃbrio para um sistema multielementar foram: 7,89; 1,72; 3,24; 13,26 e 5,09 mg/g para Pb+2; Ni+2; Cd+2; Zn+2 e Cu+2, respectivamente. Na segunda etapa da pesquisa foram realizados experimentos para otimizaÃÃo das condiÃÃes operacionais da coluna. Os resultados mostraram que uma velocidade de fluxo de 2mL/min e uma altura de 10cm do leito aumentaram o percentual de remoÃÃo para todos os metais tÃxicos estudados. As curvas de ruptura investigadas para um sistema multielementar indicaram que a ordem das capacidades de adsorÃÃo foi a seguinte: Cu+2 > Pb+2 > Cd+2 > Zn+2 > Ni+2. A aplicabilidade dos estudos de coluna numa amostra real oriunda de empresas de galvanoplastia contendo: Ni+2, Zn+2 e Cu+2 mostraram que a remoÃÃo dos Ãons tÃxicos aumenta quando o pH da soluÃÃo à 5,0. A dessorÃÃo dos Ãons metÃlicos, retidos na coluna, foi eficiente usando HNO3 1,0mol.L- como eluente. Os ensaios de reciclagem da coluna mostraram que o adsorvente pode ser utilizado apenas num ciclo.
The solid agroindustry residues are most studied, due its abundance and low cost for recovery of wastewater industry using process of adsorption. In this work was used the green coconut shell powder as adsorbent for the heavy metals removal from wastewater aqueous produced for electroplating industries localized in Juazeiro do Norte (Ceara-Brazil). Adsorption systems in batch and column were studied. In the first step of this work was investigated the chemical treatment, the particle size effect, adsorbent concentration and pH effect. The results showed that the treatment employed in the green coconut shell powder with NaOH 0.1mol.L-/3h was the most efficient. This material was used for the metals adsorption study with the following characteristic: particle size ranged 60-99 mesh, adsorbent concentration (40g/L) and pH 5.0. The kinetic study indicated that the adsorption equilibrium multielementary were achieved in 5 minutes (pH 5.0) and followed a pseudo-second order model. The maximum capacities of adsorption observed for the multielementary system were: 7.89; 1.72; 3.24; 13.26 and 5.09mg/g to Pb+2; Ni+2; Cd+2; Zn+2 and Cu+2, respectively. In the second step of the work were carried out experiments to otimization of the operational parameters of the column. The results showed that for a flow rate of 2mL/min and height bed of 10cm there is an increased on the metals removal. The breakthrough curves investigated to a system multi indicated that the order for column capacity was the follow: Cu+2 > Pb+2 >Cd+2 > Zn+2 > Ni+2. The parameters optimization of the column obtained with the synthetic effluents were applied in a real sample contained (Ni+2, Zn+2 and Cu+2) which showed that the toxic ions removal increased at pH 5.0. The desorption of the metals ions retained on the column was efficient using the HNO3 1,0mol.L- as eluent. The tests of recycling of the column showed that the adsorbent can be used only a cycle.
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PINO, GABRIELA ALEJANDRA HUAMAN. "BIOSSORPTION OF HEAVY METALS ON GREEN COCONUT POWDER." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2005. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=7596@1.

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CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO
A poluição por metais pesados vem se tornando um sério problema ambiental. O uso de biomassas como material sorvente para a destoxificação de efluentes industria is contendo metais aparece como uma alternativa promissora às tecnologias existentes. O objetivo desta dissertação foi determinar a capacidade de adsorção da casca de coco (Cocos nucifera) para diferentes metais pesados. No processo de biossorção foram ava liados o pH da solução, a concentração inicial dos íons metálicos, o tamanho de partícula e a cinética do processo. As características da superfície da casca de coco foram investigadas utilizando medições de potencial zeta e análises com microscópio eletrônico de varredura. Obtiveram-se altas percentagens de remoção para o Cd, Cr(III) e Cr(VI) dentre as seis espécies metálicas estudadas (As(V), Cd, Cr(III), Cr(VI), Ni e Zn). Os valores ótimos de pH utilizados foram de 7 para o cádmio e cromo (III) e de 2 para o cromo (VI). Em concentrações inicias inferiores a 100 mg/L foram obtidas percentagens de remoção superiores a 95%, 85% e 80% para o cádmio, cromo (III) e cromo (VI), respectivamente. Em concentrações inicias menores que 1000 mg/L, a percentagem de remoção para o cádmio e o cromo (III) foi de 80% e 85%, respectivamente. Foram utilizados os modelos de Langmuir e Freundlich para avaliar a capacidade de adsorção de metais pesados pela casca de coco. O modelo de Langmuir mostrou-se mais adequado para o cádmio e o cromo (VI), enquanto que para o cromo (III) o modelo de Freundlich foi o mais adequado. A cinética do processo de biossorção foi estudada para o cádmio mediante as análises integral e diferencial. Foi observado que o processo de biossorção de cádmio por casca de coco verde obedece a um modelo de pseudo-segunda ordem. Os resultados apresentados mostram que a casca de coco apresenta as características apropriadas para o processo de biossorção de cádmio, cromo (III) e cromo (VI) e que pode ser utilizada como uma alternativa aos processos clássicos de destoxificação de efluentes.
Heavy metal pollution has become one of the most serious problems today, and the use of organic material biomass for the detoxification of industrial effluents for environmental protection offers a potential alternative to existing trea tment technologies. The aim of this work was determined the biosorption capacity of coconut fibers (Cocos nucifera) for different heavy metals. The effect of pH, initial concentration, size of particle and kinetics were studied. The characteristics of the surface of coconut fibers had been investigated using measurements of potential zeta and analyses with scanning electron microscope. The removal was found to be higher for cadmium, chromium (III) e chromium (VI) among the 6 metallic species studied (As, Cd, Cr (III), Cr (VI), Ni e Zn). The values of pH used were 7 for cadmium and chromium (III) and of 2 for chromium (VI). For cadmium, chromium (III) and chromium (VI), with an initial metal concentration lower than 100 mg/L, removal rates of 95%, 85% and 80% respectively had been observed. For cadmium and chromium (III), with an initial concentration lower than 1000 mg/L, removal rates of 80% and 85% respectively were found. The adsorption capacity of coconut fibers for heavy metals had been evaluated using Langmuir and Freundlich adsorption isotherms. The Langmuir´s model gave best results for cadmium and chromium (VI) and Freundlich´s model for chromium (III). The kinetics of the process was studied just for cadmium, because it presented the best removal rates. The kinetics study showed that the biosorption process followed a pseudo second order model. This suggests that coconut fibers represent a good option for biosorption process and can be used as an alternative to the classical technologies for effluent decontamination.
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Oliveira, Simone Lopes do RÃgo de. "Utilization of green coconut shell (Cocos nucifera L.) for cellulase production." Universidade Federal do CearÃ, 2010. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=6469.

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Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico
Enzyme production by fermentative process is a broad field of biotechnology. In recent decades, there has been an increasing trend in the use of solid-state fermentation (SSF) for the production of some enzymes, especially those involved in the degradation of vegetables complex macromolecules. Regarding the enzyme market Brazil is consumer of imported products. In this scenario, the coconut shell emerges as a strategic raw material to reach the production of enzymes in the country. Thus, it is important to further on the use of coconut green shell powder as substrate for cellulolytic enzymes of interest in the food industry. Cellulase producing fungi used in this study were isolated from coconut shell. The results of enzyme activity obtained with the isolated strains from coconut shell were compared in terms of production capacity of cellulases with strains of Trichoderma polysporum, T. viride, T. reesei NRRL 11460 and Aspergillus niger NRRL 2001. From the results, the coconut shell waste can be considered a good inducer for cellulase production . The strain isolated from coconut shell (CZ01) is a good producer under solid-state fermentation because higher enzyme activity was obtained with its crude enzyme extract when compared with other enzyme producers, including a patented strain of T. reesei Rut C-30 (NRRL 11460), using the same inducer substrate. It is also worth mentioning that the majority of cellulase reported in the scientific literature are obtained under conditions of acidic pH and in this study the maximum enzyme activity was obtained at pH close to neutral (range 6.0 to 6.5). Therefore, the isolated and selected strain from the coconut shell (CZ01) showed good enzyme activity when compared with results obtained by other strains reported in the scientific literature, being therefore a very promising strain for the cellulase production enabling the use of this agroindustrial wastes.
A produÃÃo de enzimas por processos fermentativos à um vasto campo da biotecnologia. Nas Ãltimas dÃcadas tem-se observado um aumento na tendÃncia do uso da fermentaÃÃo semi-sÃlida para a produÃÃo de algumas enzimas, em especial aquelas envolvidas na degradaÃÃo de macromolÃculas vegetais complexas. No campo da comercializaÃÃo de enzimas, o Brasil à consumidor de produtos importados. Neste cenÃrio, a casca do coco verde surge como uma matÃria-prima estratÃgica para alavancar a produÃÃo de enzimas em territÃrio nacional. Deste modo, torna-se importante um estudo mais aprofundado sobre o uso do pà da casca do coco verde como substrato para a obtenÃÃo de enzimas celulolÃticas, sobretudo de interesse da indÃstria de alimentos. Os fungos produtores de celulases utilizados neste trabalho foram isolados da casca de coco. Os resultados de atividade enzimÃtica obtidos com as cepas isoladas da casca do coco foram comparados quanto à capacidade de produÃÃo de celulases com linhagens de Trichoderma polysporum, T. viride, T. reesei NRRL 11460 e Aspergillus niger NRRL 2001. O resÃduo da casca de coco verde como fonte alternativa para a produÃÃo de celulases se revelou como um Ãtimo substrato indutor, pois de acordo com os resultados obtidos, pode-se afirmar que a linhagem CZ01 (isolada da casca do coco) à boa produtora de celulases, pois cresceu facilmente em substrato semi-sÃlido lignificado, alÃm de apresentar elevada atividade no extrato enzimÃtico bruto, quando comparada com outros produtores enzimÃticos, incluindo uma linhagem patenteada de T. reesei Rut C-30 (NRRL 11460), utilizando o mesmo substrato indutor. Vale ressaltar tambÃm, que a grande maioria das celulases reportadas na literatura cientÃfica sÃo obtidas em condiÃÃes de pH Ãcido e neste estudo a mÃxima atividade enzimÃtica foi obtida na faixa de pH muito prÃximo da neutralidade (faixa de 6.0 a 6.5). Portanto, a linhagem selecionada e isolada da casca do coco (CZ01) apresentou boa atividade enzimÃtica quando comparada com resultados obtidos por outras linhagens reportadas na literatura cientÃfica, tratando-se, portanto, de uma linhagem bastante promissora para a produÃÃo de celulases viabilizando o aproveitamento deste resÃduo agroindustrial.
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Alves, Maurício Marcelino de Sousa. "Potencial biotecnológico de bactérias e leveduras isoladas da casca do Coco-verde (Cocos Nucifera) em fermentação." Universidade Federal de Alagoas, 2017. http://www.repositorio.ufal.br/handle/riufal/1900.

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The culture of coconut is economically relevant to Brazil but suffers with the breeding of pests that target coconut trees and bring on economic losses. One of the pests responsible for such is the palm weevil R. palmarum L., which is attracted to the infestation site by the odor released from the fermentation of plant tissues. This is particularly problematic when the crop, processing and disposal sites are in close location, for the residue discarded (i.e. green coconut shell) undergoes the action of microorganisms that produce volatile compounds and attract the pest to the crop site. This research had as its objective the isolation and characterization of bacteria and yeasts responsible for the fermentation of green coconut shell and production of volatile compounds that are attractive to the palm weevil. For such, green coconut shells were exposed to the local environment for the development of the fermentative processes, having the emitted volatiles analyzed on five different days of fermentation (0, 3, 5, 7, and 10 days). Thirty different compounds belonging to different chemical classes were detected for all of the analyzed days, being alcohols, ketones, aldehydes and hydrocarbons the most frequently found. Isolation procedures were performed immediately after the opening of the coconuts and at the sixth day of fermentation. After purification, thirty eight strains (15 bacteria and 23 yeasts) were obtained and characterized. The characterization of the strains was based on the determination of orphological, physiological and biochemical characteristics and the evaluation of the biotechnological potential. The isolated strains presented variable biochemical profile, although each of them displayed at least one positive result for the tested enzymes. Although bacterial isolates were halotolerant, yeast strains were more. Among the bacterial strains, the isolate A5 stood out for displaying activity for all of the tested enzymes except for laccase besides being capable of degrading filter paper in liquid media. The isolate E4 stood out among the yeast strains for presenting activity for five of the tested enzymes (amylases, pectinases, xylanases, proteases and lipases/esterases) besides displaying tolerance up to 10% NaCl. Therefore each strain presented different biotechnological potential, some of them being potential candidates for the production of volatile compounds by fermentation of the green coconut shell. A few strains were identified to the genus level by the technique of MILDI-TOF, resulting in identification of three bacterial (Bacillus, Pantoea e Arthrobacter) e three yeasts (Pichia, Cryptococcus e Rhodotorula) genera. The production of volatile compound by four selected strains was investigated and resulted on the detection of over 100 different compounds, among which are included ketones, carboxylic acids, pyrazines, esters, hydrocarbons, aldehydes, terpenes and terpenoids. A few of the detected volatiles had been previously reported as attractive to R. palmarum confirming that there is a relationship between the metabolic activity of the isolated microorganisms and production of volatiles attractive to this pest.
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
A cultura do coqueiro é economicamente importante para o Brasil, mas sofre com a proliferação de pragas que almejam os coqueiros e causam prejuízo econômico. Uma das pragas é a broca-do-olho-do-coqueiro, R. palmarum L., que é atraído para os locais de infestação pelo odor de fermentação de tecidos vegetais. Isto é particularmente problemático quando os locais de plantação, de processamento dos frutos e de descarte de resíduos são próximos, pois o resíduo gerado (casca do coco-verde, por exemplo) sofre ação de microrganismos que produzem compostos voláteis e atraem o inseto para a plantação. Esta pesquisa teve como objetivo o isolamento e a caracterização de bactérias e leveduras responsáveis pela fermentação da casca do coco-verde com concomitante produção de compostos voláteis atrativos para a broca-do-olho-do-coqueiro. Para tanto, cascas de coco-verde recém-abertas foram expostas ao ambiente para desenvolvimento de processo fermentativo, sendo a emissão de voláteis analisada em cinco dias diferentes de fermentação (dias 0, 3, 5, 7 e 10). Trinta compostos de classes químicas variadas foram detectados para os diferentes dias de fermentação, sendo encontrados álcoois, cetonas, aldeídos e hidrocarbonetos com maior frequência. Isolamentos foram realizados após abertura dos cocos e no sexto dia de fermentação. Após purificação, trinta e oito linhagens (15 bactérias e 23 leveduras) foram obtidas e caracterizadas. A caracterização teve como base a determinação de características morfológicas, fisiológicas e bioquímicas e a avaliação do potencial biotecnológico. As linhagens isoladas exibiram perfil bioquímico variado, sendo que todos apresentaram pelo menos um resultado positivo para alguma das enzimas extracelulares testadas. Embora as bactérias tenham sido halotolerantes, as leveduras foram mais. Dentre as bactérias isoladas, o isolado A5 se destacou por apresentar atividade para todas as enzimas testadas exceto lacases, além de demostrar capacidade de degradar papel de filtro em meio líquido. O isolado E4 se destacou entre as leveduras por apresentar atividade para cinco enzimas (amilases, pectinases, xilanases, proteases e lipases/esterases), além de apresentar tolerância a 10% de NaCl. Portanto, cada linhagem isolada apresentou potencial biotecnológico variável, algumas sendo potenciais candidatas para a produção de voláteis pela fermentação da casca do coco-verde. Alguns isolados foram identificados a nível de gênero pela técnica de MALDI-TOF, resultando na identificação de três gêneros de bactérias (Bacillus, Pantoea e Arthrobacter) e três de leveduras (Pichia, Cryptococcus e Rhodotorula). A produção de voláteis por culturas puras de quatro isolados selecionados foi estudada, sendo encontrados mais de 100 compostos diferentes, principalmente cetonas, ácidos carboxílicos, pirazinas, ésteres, hidrocarbonetos, aldeídos, terpenos e terpenóides. Alguns dos voláteis detectados já haviam sido relatados como atrativos para o R. palmarum., confirmando que existe relação entre a atividade metabólica dos microrganismos isolados e produção de voláteis atrativos para esta praga.
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Books on the topic "Green coconut shell powder"

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service), SpringerLink (Online, ed. Adsorption of Reactive Red 158 Dye by Chemically Treated Cocos Nucifera L. Shell Powder: Adsorption of Reactive Red 158 by Cocos Nucifera L. Dordrecht: The Author(s), 2011.

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Mudhoo, Ackmez, and Dickcha Beekaroo. Adsorption of Reactive Red 158 Dye by Chemically Treated Cocos Nucifera L. Shell Powder: Adsorption of Reactive Red 158 by Cocos Nucifera L. Springer, 2011.

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Book chapters on the topic "Green coconut shell powder"

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Habrová, Karolína, Petr Valášek, Miroslav Müller, Robert D´Amato, and Alessandro Ruggiero. "Experimental Description of the Aging of the Coconut Shell Powder/Epoxy Composite." In Advances in Manufacturing Engineering and Materials, 456–64. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-99353-9_48.

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Das, Dipa, Debi Prasad Samal, and B. C. Meikap. "Removal of CO2 in a Multistage Fluidized Bed Reactor by Activated Carbon Prepared from Green Coconut Shell." In Recent Advances in Chemical Engineering, 133–42. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1633-2_15.

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Rana, Sukanta, and Jatindra Nath Bhakta. "Heavy Metal(loid) Remediation Using Bio-Waste." In Handbook of Research on Inventive Bioremediation Techniques, 394–415. IGI Global, 2017. http://dx.doi.org/10.4018/978-1-5225-2325-3.ch017.

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Heavy metal(loid)s are hazardous, biologically non-essential, non-biodegradable and persistent in nature, which can accumulate in plants and animals as well as in environment especially agri- and aqua- culture ecosystems. It is severely responsible for causing several health hazards problems in human, such as, cardiovascular, pulmonary, hepatic, nephrological, dermatological, neurological disorders as well as carcinogenic effects. Removal of these heavy metals from living systems is extensively expensive and also unsuccessful in sent percent removal. Therefore, in order to protect the environment, the removal of heavy metal(loid)s from polluted effluents is essential before discharging into environment. Besides various treatment technologies, sorption of metal(loid)s using bio-wastes are highly potent alternatives in recent years. The present chapter deals with the removal efficiencies of various bio-wastes, orange peels, waste tea leaves, rice husk, wheat stalk, sugar cane bagasse, coconut husk, sun flower stalk, corn cob, nut shell, water hyacinth, crab shell particle, activated carbons etc. The present discussion has also revealed that bio-waste could be a low-cost eco-friendly and green emerging alternative technology in treating the metal(loid)s contaminated environment without posing any further adverse environmental impacts.
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Rana, Sukanta, and Jatindra Nath Bhakta. "Heavy Metal(loid) Remediation Using Bio-Waste." In Waste Management, 754–74. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-7998-1210-4.ch035.

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Heavy metal(loid)s are hazardous, biologically non-essential, non-biodegradable and persistent in nature, which can accumulate in plants and animals as well as in environment especially agri- and aqua- culture ecosystems. It is severely responsible for causing several health hazards problems in human, such as, cardiovascular, pulmonary, hepatic, nephrological, dermatological, neurological disorders as well as carcinogenic effects. Removal of these heavy metals from living systems is extensively expensive and also unsuccessful in sent percent removal. Therefore, in order to protect the environment, the removal of heavy metal(loid)s from polluted effluents is essential before discharging into environment. Besides various treatment technologies, sorption of metal(loid)s using bio-wastes are highly potent alternatives in recent years. The present chapter deals with the removal efficiencies of various bio-wastes, orange peels, waste tea leaves, rice husk, wheat stalk, sugar cane bagasse, coconut husk, sun flower stalk, corn cob, nut shell, water hyacinth, crab shell particle, activated carbons etc. The present discussion has also revealed that bio-waste could be a low-cost eco-friendly and green emerging alternative technology in treating the metal(loid)s contaminated environment without posing any further adverse environmental impacts.
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Conference papers on the topic "Green coconut shell powder"

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Vysakh, P., and J. Bindu. "Stabilisation of lateritic soil using coconut shell, leaf and husk ash." In 2012 International Conference on Green Technologies (ICGT). IEEE, 2012. http://dx.doi.org/10.1109/icgt.2012.6477985.

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Pordesari, A. J., P. Shafigh, and Z. Ibrahim. "Coconut shell as lightweight aggregate for manufacturing structural lightweight aggregate concrete." In PROCEEDINGS OF GREEN DESIGN AND MANUFACTURE 2020. AIP Publishing, 2021. http://dx.doi.org/10.1063/5.0044606.

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Sreejith, M. P., Aparna K. Balan, V. Shaniba, T. V. Jinitha, N. Subair, and E. Purushothaman. "Biodegradation behavior of styrene butadiene rubber (SBR) reinforced with modified coconut shell powder." In LET THERE BE LIGHT: Reflections of a Congress on Light. Author(s), 2017. http://dx.doi.org/10.1063/1.4984194.

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Leman, A. M., S. Zakaria, M. N. M. Salleh, N. M. Sunar, D. Feriyanto, and A. A. Nazri. "The effect of activation agent on surface morphology, density and porosity of palm shell and coconut shell activated carbon." In 3RD ELECTRONIC AND GREEN MATERIALS INTERNATIONAL CONFERENCE 2017 (EGM 2017). Author(s), 2017. http://dx.doi.org/10.1063/1.5002195.

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Balan, Aparna K., M. P. Sreejith, V. Shaniba, T. V. Jinitha, N. Subair, and E. Purushothaman. "Transport behavior of aromatic hydrocarbons through coconut shell powder filled thermoplastic polyurethane/natural rubber blend-composites." In LET THERE BE LIGHT: Reflections of a Congress on Light. Author(s), 2017. http://dx.doi.org/10.1063/1.4984193.

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Proenza Perez, Nestor, Victor Martins, Lucas Resende Santos, Thiago de Carvalho Silva, and Jesús Puente. "USE OF COCONUT SHELL PRODUCED IN THE BRAZILIAN GREEN COAST FOR SMALL-SCALE ELECTRICITY GENERATION." In 18th Brazilian Congress of Thermal Sciences and Engineering. ABCM, 2020. http://dx.doi.org/10.26678/abcm.encit2020.cit20-0152.

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Othman, Nadras, M. Hazwan Hussin, Raa Khimi Shuib, and Norazlan Sulaiman. "Comparison characteristic between milled coconut shell activated carbon powder and carbon black: Physical, chemical and morphological properties." In DISRUPTIVE INNOVATION IN MECHANICAL ENGINEERING FOR INDUSTRY COMPETITIVENESS: Proceedings of the 3rd International Conference on Mechanical Engineering (ICOME 2017). Author(s), 2018. http://dx.doi.org/10.1063/1.5047187.

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Pereira, Kenny Pritish Solomon, Mohammed Al Tamash Sheikh, and Ravikantha Prabhu. "Modeling and analysis for wear performance of coconut shell powder filled glass fiber composite using Taguchi approach." In eTIME-2019 – INTERNATIONAL CONFERENCE ON EMERGING TRENDS IN MECHANICAL ENGINEERING. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0007090.

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Tan, Wuan Chien, Mathialagan Muniyadi, and Zhong Xian Ooi. "Characterization and feasibility of Mimusops Elengi seed shell powder as filler for thermoplastic materials." In INTERNATIONAL SYMPOSIUM ON GREEN AND SUSTAINABLE TECHNOLOGY (ISGST2019). AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5126580.

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Gopikrishnan, Vaibhav, B. Aneesh Kumar, J. Haran, and S. Shaktivel. "A comprehensive study on machining characteristics of vetiver fiber reinforced polymer composites with coconut shell powder as filler." In THE VII INTERNATIONAL YOUNG RESEARCHERS’ CONFERENCE – PHYSICS, TECHNOLOGY, INNOVATIONS (PTI-2020). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0031885.

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