Alum treatment of caustic wash from chlorine bleached kraft pulp

Hart, Richard Carl

January 1959

The purpose of this investigation was to continue the color reduction study of alum treatment of caustic wash from chlorine bleached kraft pulp, to determine if a double tray Dorr thickener could be used to settle the coagulated waste, and to determine if a centrifugal separator could be used to dewater the sludge from the Dorr underflow. Approximately 5000 gallons of caustic wash from chlorine bleached kraft pulp was used for each phase of this investigation. The raw waste feed flow rate was varied from 1750 pounds per hour to 2499 Pounds per hour. The alum slurry flow rate was varied from 39 Pounds per hour to 60 pounds per hour. The hydrochloric acid flow rate remained constant at approximately five pounds per hour. The raw waste was acidified with 38 percent hydrochloric acid to a pH of 6.0, and treated with alum sulfate slurry to coagulate the solids in the waste. The coagulated solids were concentrated in a double tray Dorr thickener. The percent of insoluble solids in the Dorr underflow varied from 0.65 to 1.35. The concentrated solids were fed to a Merco centrifugal separator where the insoluble solids were concentrated in approximately equal proportions in the Merco overflow and underflow. / Master of Science

LD5655.V855 1959.H379

Sulfate waste liquor

Sewage -- Purification -- Flocculation

Alum

Investigation of the microbial populations in the activated sludge of the Hoechst-Celanese wastewater treatment plant

Stevens, Karen B.

24 January 2009

The microbial populations in the Hoechst-Celanese activated sludge were examined. Heterotrophs, denitrifiers, sulfate-reducers, protozoa and filamentous bacteria were enumerated. Variations in microbial populations were compared with influent and effluent constituent concentrations, and with aeration basin characteristics, such as dissolved oxygen and F/M ratio, to determine whether any microbial type could be used by plant operators to monitor process performance. Results indicated that filamentous bacteria may be useful to plant operators for monitoring process performance because an inverse relationship between filamentous bacteria, food-to-microorganism ratio and sludge volume index was suggested by this study. Protozoa may also be useful for operators, although more data is needed. Microthrix parvicella and Type 0041 were the most common filament types. Filament Type 1701 was most prevalent during a period of low dissolved oxygen. A strong relationship between stalked ciliates and effluent quality was mention in the literature, but was not found in this study. Enumeration methods were evaluated. / Master of Science

LD5655.V855 1993.S743

Sewage -- Microbiology

Community responses of aquatic macroinvertebrates to heavy metals in laboratory and outdoor experimental streams

Clements, William H.

January 1988

This research describes aquatic macroinvertebrate community responses to heavy metals (copper, zinc) in experimental streams and at metal-impacted sites in the field. Experiments employed substrate-filled trays which were colonized in the field and then transferred to laboratory or outdoor streams. Laboratory experiments conducted over three seasons showed that acute (96 h) exposure to copper (Cu) at 15-32 μg Cu/L significantly reduced macroinvertebrate abundance and number of taxa during each season. Owing to differences in sensitivity among taxa, the percent composition of dominant groups varied between control and dosed streams. Mayflies were quite sensitive to Cu, particularly during the summer when water temperatures were higher. Community responses to Cu and Zn in outdoor experimental streams were similar to those observed at metal-impacted sites in the field. Control streams and field reference Stations were dominated by mayflies and Tanytarsini chironomids. In contrast, treated Streams and impacted field sites were dominated by net-Spinning caddisflies (Hydropsychidae) and Orthocladiini chironomids. The similarity of these experimental results to those observed in the field suggest that macroinvertebrate community responses to heavy metals are highly predictable. Responses of these communities to Cu were greatly influenced by water quality. Effects were more severe in New River Streams, where water hardness and alkalinity were low, compared to Clinch River Streams, where hardness and alkalinity were higher. In soft water Streams, abundance was reduced by 84% after 10 d exposure to Cu (measured concentration = 13 μg/L). In contrast, abundance was reduced by only 45% in hard water Streams after 10 d at Similar Cu levels. These results demonstrate the importance of accounting for water quality characteristics of receiving systems when establishing site-specific criteria for metals. Chronic exposure (14 d) to sublethal levels of Cu (< 6 μg/L) increased Vulnerability of caddisflies (Hydropsyche morosa and Chimarra sp.) to predation by the Stonefly, Paragnetina fumosa. Caddisflies were also the major component of stonefly diets and were consumed Significantly more frequently in dosed Streams than controls. These results demonstrate that single Species bioassays were inadequate for predicting effects of toxicants on community level processes. / Ph. D.

LD5655.V856 1988.C594

The effect of influent organic compounds on the performance of biological nutrient removal systems

Abu-Ghararah, Ziad

January 1988

The main objective of the research was to investigate the effect of influent organic compounds on the performance of biological nutrient removal system. To carry out the investigation, a pilot plant system was designed and constructed. The system was operated as a UCT process at an influent flow rate of 0.15 liters/minute and a sludge age of 13 days. The influent wastewater was domestic sewage. Excess biological phosphorus removal and steady-state conditions were established before making experimental measurements, or adding supplemental substrate. The effects of separate addition of formic, acetic, propionic, butyric, isobutyric, valeric, and isovaleric acid, plus glucose, addition on phosphorus release under anaerobic conditions, and phosphorus uptake under aerobic conditions, were studied. The effects of the organic acid additions on the removal of nitrogen and COD, and changes in SOUR, MLVSS, and metals such as iron, magnesium, calcium and potassium, were also studied. In all experiments, the specific substrate was added continuously to the first anaerobic reactor for three days at an influent concentration of 100 mg COD/liter. Samples were collected from each reactor at the end of the addition period and analyzed for orthophosphate, nitrate, nitrite, sulfate, volatile fatty acids, COD, MLVSS, pH and metals. All added substrates, except formic acid and dextrose, caused significant increases in phosphorus release in the anaerobic stage, and phosphorus uptake, in the aerobic stage, and consequently, an increase in phosphorus removal efficiency. The molar ratios of phosphorus release to volatile fatty acid added obtained for propionic acid, acetic acid, butyric acid, and valeric acid were 0.44, 0.77, 0.78, and 1.72 respectively. However, on a COD basis, the greatest ratios of mg phosphorus released to mg COD utilized was produced by the addition of acetic acid (0.37) and valeric acid (0.19). It was also found that the branched organic acids, isobutyric and isovaleric, caused more phosphorus release in the anaerobic stage and better phosphorus removal efficiencies as compared with the nonbranching forms of the same organic acids. The molar ratios of phosphorus release for these two acids were 0.8 and 2.3, respectively, and on a COD basis were 0.16 and 0.25. For engineering applications, it is suggested by this research that at least 20 mg COD equivalent of acetic acid is needed for the removal of I mg phosphorus. The results obtained by this investigation were consistent with the hypothesis proposed by Marais et al., 1983. The most recent biochemical models, proposed by Comeau et al., 1986 and Wentzel et al., 1986, were also tested using the data collected in the present investigation. Both models, in most cases, overestimated the ratios of phosphorus release to volatile fatty acid utilized. A speculative model for anaerobic metabolism by poly-p bacteria of volatile fatty acids which contain both odd and even numbers of carbon atoms was proposed. All added substrates produced no effect on both COD and TKN removals. Metal releases were found to correlate with the amount of phosphorus release. / Ph. D.

LD5655.V856 1988.A274

Treatment of secondary municipal wastewater by submerged hollow fiber microfiltration membrane for water reuse : pilot-scale evaluation

Kim, Eung D.

01 January 2004

No description available.

Sewage -- Purification -- Filtration

Water reuse

Civil and Environmental Engineering

Engineering

Environmental Engineering

A study on the functions of volatile fatty acids and ph on enhanced biological phospate removal

Liu, Yan Hua

01 April 2001

No description available.

Fatty acids

Civil and Environmental Engineering

Engineering

Environmental Engineering

Evaluation of seasonal impacts on nitrifiers and nitrification performance of a full-scale activated sludge system

Awolusi, Oluyemi Olatunji

January 2016

Submitted in complete fulfillment for the degree of Doctor of Philosophy (Biotechnology), Durban University of Technology, Durban, South Africa, 2016. / Seasonal nitrification breakdown is a major problem in wastewater treatment plants which makes it difficult for the plant operators to meet discharge limits. The present study focused on understanding the seasonal impact of environmental and operational parameters on nitrifiers and nitrification, in a biological nutrient removal wastewater treatment works situated in the midlands of KwaZulu Natal. Composite sludge samples (from the aeration tank), influent and effluent water samples were collected twice a month for 237 days. A combination of fluorescent in-situ hybridization, polymerase chain reaction (PCR)-clone library, quantitative polymerase chain reaction (qPCR) were employed for characterizing and quantifying the dominant nitrifiers in the plant. In order to have more insight into the activated sludge community structure, pyrosequencing was used in profiling the amoA locus of ammonia oxidizing bacteria (AOB) community whilst Illumina sequencing was used in characterising the plant’s total bacterial community. The nonlinear effect of operating parameters and environmental conditions on nitrification was also investigated using an adaptive neuro-fuzzy inference system (ANFIS), Pearson’s correlation coefficient and quadratic models. The plant operated with higher MLSS of 6157±783 mg/L during the first phase (winter) whilst it was 4728±1282 mg/L in summer. The temperature recorded in the aeration tanks ranged from 14.2oC to 25.1oC during the period. The average ammonia removal during winter was 60.0±18% whereas it was 83±13% during summer and this was found to correlate with temperature (r = 0.7671; P = 0.0008). A significant correlation was also found between the AOB (amoA gene) copy numbers and temperature in the reactors (α= 0.05; P=0.05), with the lowest AOB abundance recorded during winter. Sanger sequencing analysis indicated that the dominant nitrifiers were Nitrosomonas spp. Nitrobacter spp. and Nitrospira spp. Pyrosequencing revealed significant differences in the AOB population which was 6 times higher during summer compared to winter. The AOB sequences related to uncultured bacterium and uncultured AOB also showed an increase of 133% and 360% respectively when the season changed from winter to summer. This study suggests that vast population of novel, ecologically significant AOB species, which remain unexploited, still inhabit the complex activated sludge communities. Based on ANFIS model, AOB increased during summer season, when temperature was 1.4-fold higher than winter (r 0.517, p 0.048), and HRT decreased by 31% as a result of rainfall (r - 0.741, p 0.002). Food: microorganism ratio (F/M) and HRT formed the optimal combination of two inputs affecting the plant’s specific nitrification (qN), and their quadratic equation showed r2-value of 0.50. This study has significantly contributed towards understanding the complex relationship between the microbial population dynamics, wastewater composition and nitrification performance in a full-scale treatment plant situated in the subtropical region. This is the first study applying ANFIS technique to describe the nitrification performance at a full-scale WWTP, subjected to dynamic operational parameters. The study also demonstrated the successful application of ANFIS for determining and ranking the impact of various operating parameters on plant’s nitrification performance, which could not be achieved by the conventional spearman correlation due to the non-linearity of the interactions during wastewater treatment. Moreover, this study also represents the first-time amoA gene targeted pyrosequencing of AOB in a full-scale activated sludge is being done. / D

amoA

Nitrifiers

NGS

Illumina

Pyrosequencing

Adaptive neuro-fuzzy inference system

SAOR

SNFR

qPCR

Activated sludge

Nitrifying bacteria

Nitrification

Enhanced adsorption of base metal, phenol and aldehyde from aqueous solutions on low-cost activated carbon.

Mukosha, Lloyd.

January 2014

D. Tech. Chemical Engineering / Aims of this research project was to add value to largely wasted South African sawdust by development of low-cost AC of high efficiency for removal of toxic Cr (VI), phenol and glutaraldehyde from dilute aqueous media. The main objectives of the research project were: a) To develop low-cost AC based on South African P. patula sawdust using economical physical superheated steam activation.Characterization of carbon samples for selection of optimum preparation conditions for development of low-cost AC of effective microporosity mesoporosity and surface functionality for enhanced adsorption capacity of Cr (VI) and/or phenol and/or glutaraldehyde from dilute aqueous solution. Acid-amine surface groups modification of optimally developed AC for further enhancement of adsorption capacity for mixed polarized glutaraldehyde molecules from aqueous solution. b) To evaluate the aqueous phase batch adsorption properties of developed AC for Cr (VI) and phenol and, of acid-amine modified developed AC for glutaraldehyde. Determination of optimum pH for adsorption; accurate adsorption isotherm modelling for determination of maximum adsorption capacity, comparison of maximum adsorption capacities for Cr (VI) and phenol of developed AC with commercial AC and literature ACs, and attempt to establish average micropore size for enhanced capacity for Cr (VI) and phenol from dilute aqueous solution.Kinetics reaction and diffusion modelling for determination of adsorption rate constants and diffusion parameters; and determination of adsorption thermodynamic parameters.Evaluation of equilibrium selectivity of developed AC for Cr (VI) and/or phenol in binary aqueous solutions. c) To evaluate aqueous phase fixed-bed adsorption characteristics of developed AC for single Cr (VI) and mixed solution using Rapid Small Scale column Tests (RSSCTs). Generation of breakthrough curves at optimum adsorption conditions for evaluation of column performance indicators at different process conditions, bed regeneration-reusability potential, and dynamic adsorption selectivity of developed AC for Cr (VI) from solution of base metals. Determination of column diffusion parameters; accurate mass transfer and empirical modelling of breakthrough data; determination of applicable RSSCT scaling equation; and optimization of breakthrough data for accurate RSSCT scale-up.

Dissertations, Academic -- South Africa.

In situ remediation.

Bioremediation.

Chromium -- Absorption and adsorption.

Phenol -- Absorption and adsorption.

Glutaral -- Absorption and adsorption.

Carbon, Activated.

Mesoporous materials.

Pinus patula.

Estudo de tratabilidade de efluentes de industria de catalisadores quimicos por lodos ativados por batelada (LAB) : Degussa, Americana, SP / Treatment study of effluents from chemical catalyst industry by activated sludge using sequencing batch reactor: Degussa, Americana, SP, Brrazil

Higa, Marcia Fernanda

23 February 2005

Orientador: Carlos Gomes da Nave Mendes / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-07T08:45:44Z (GMT). No. of bitstreams: 1 Higa_MarciaFernanda_M.pdf: 694032 bytes, checksum: 6aeb2dc109b978afe0fa9cd54037a168 (MD5) Previous issue date: 2005 / Resumo: O presente trabalho teve como objetivo principal a investigação do potencial de utilização de reatores de lodos ativados intermitentes para o tratamento conjunto de diversos tipos de águas residuárias geradas na indústria de catalisadores químicos Degussa, localizada no município de Americana - SP, incluindo-se os esgotos sanitários. Foram utilizados reatores de bancada e estudadas duas idades de lodo, simulando-se a aeração convencional e aeração prolongada. Foram investigados também quatro cenários possíveis, ou seja, quatro amostras compostas distintas de efluentes, de serem implantados em escala real. Os resultados obtidos mostraram que o sistema de aeração prolongada foi preferível em todas as situações estudadas, e que três dos cenários foram adequados ao tratamento biológico de lodos ativados por batelada, uma vez que apresentaram eficiências de redução dos valores de DQO superiores à 80%. No caso do tratamento conjunto de todas as águas residuárias da indústria, essa eficiência foi de 85,7 e 92,1% para as idades de lodo de 7 e 20 dias, respectivamente, indicando que o uso de reatores biológicos de lodos ativados por batelada constituiu-se em alternativa viável para a Degussa / Abstract: The present work had as main objective the investigation of the utilization potential of activated sludge sequencing batch reactors on the combined treatment of several kinds of wastewaters originated in the chemical catalyst industry Degussa, located in Americana - SP, including the domestic sewage. Workbench reactors were used and two sludge ages were studied, simulating the conventional and the prolonged aerations. Four possible sceneries, or four different effluent compound samples, possible of being full-scale introduced, were also investigated. The results showed that the system of prolonged aeration was preferable in alI the studied situations, and that three of the sceneries were suitable for the biological treatment by activated sludge using sequencing batch reactors, once they achieved efficiencies of reduction in the COD values greater than 80%. In the treatment inc1uding the total reunion of the industry effluents, this efficiency was 85,7 and 92,1%, to the sludge age of 7 and 20 days, respectively, indicating that the use of activated sludge sequencing batch biological reactors is a feasible alternative for Degussa / Mestrado / Saneamento e Ambiente / Mestre em Engenharia Civil

Resíduos industriais

Sewage purification

Sewage biological treatment

Industrial wastewater

Surexpression de métallothionéines dans Nicotiana plumbaginifolia: impact sur l'homéostasie et la détoxication des métaux lourds

Heudiard, Alban

January 2007

A des concentrations supra-optimales, les métaux lourds essentiels (comme le Cu, Zn ou Ni) ou les métaux lourds non essentiels (comme le Cd, Pb ou Hg) peuvent être toxiques. La contamination des sols et de l’eau par des métaux lourds toxiques est un problème mondial qui peut nuire à l’environnement et à la santé humaine. En particulier, le cadmium est l’un des métaux lourds les plus toxiques pour les organismes. L’utilisation de plantes pour extraire ou dégrader les polluants (dans le cas de polluants organiques) constitue une stratégie intéressante, à bas coût et respectueuse de l’environnement pour remédier au problème des sites pollués. Pour une phytoextraction des métaux lourds, les plantes doivent avoir une croissance rapide, développer des biomasses importantes et accumuler des niveaux élevés de métaux lourds dans leurs parties récoltables. En d’autres termes, elles doivent être très tolérantes et accumulatrices. Une alternative consiste à utiliser des plantes tolérantes de façon à contenir la pollution (pour réduire la biodisponibilité et limiter la dispersion dans l’environnement). Des gènes d’une banque d’ADNc synthétisée à partir d’un hyperaccumulateur Cd/Zn Thlaspi caerulescens, dont l’expression augmente la tolérance au Cd dans les cellules, ont été identifiés. Dans cette thèse de Doctorat, notre but est d’une part de contribuer à la caractérisation fonctionnelle de ces gènes et d’autre part de créer de nouveaux outils en vue d’améliorer les techniques de phytoremédiation. Nous avons sélectionné deux séquences codant pour des protéines riches en cystéines, capables de lier certains métaux lourds et d’augmenter la tolérance au cadmium :une métallothionéine de type 3 (Tc-MT3) et une métallothionéine potentielle (MRP) provenant d’un organisme contaminant de la banque d’ADNc. Nous avons générer des lignées de tabac exprimant TcMT3 ou MRP, sous le contrôle d’un promoteur fort et constitutif, CaMV35S. Les plantes MT3 et MRP ont présenté un retard de croissance par rapport aux plantes contrôles, en croissance sur milieu non contaminé. Différents tests de croissance ont été réalisés en présence d’excès de Zn, Ni ou Cu et dans des milieux modifié avec du Cd. Nous avons remarqué qu’en présence de plusieurs métaux lourds en particulier le Cu et le Cd, les plantes Tc-MT3 et MRP étaient plus tolérantes que les plantes contrôles. La tolérance au Cd était la plus augmentée dans les plantes MRP. Les plantes Tc-MT3 ou MRP semblaient avoir un besoin en métaux lourds plus grand. L’accumulation des métaux lourds dans les parties aériennes n’était pas augmentée mais la minéralomasse des plantes Tc-MT3 et MRP l’était sur sol contaminé de la Région Bruxelloise. Une analyse biochimique a confirmé un changement dans le statu rédox de ces plantes. Une tendance à un statut plus oxydant a été observée dans les milieux non contaminés. Enfin, l’induction d’une métallochaperonne (CCH) du Cu indique une diminution de la biodisponibilité de cet élément, alors que la concentration totale n’est pas altérée. Il semble donc que pour la première fois, des métallothionéines puissent entrer en compétition avec une métallochaperonne végétale. Cette compétition pour les métaux pourrait être à l’origine de l’altération du statut rédox, du retard de croissance ainsi que de la meilleure tolérance aux métaux lourds. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Heavy metals

Métaux lourds

homéostasie

Métallothionéines

Nicotiana plumbaginifolia