Global ETD Search

81	Passive Treatment for Removal of Metal and Organic Contaminants from Runoff and Effluent at Confined Disposal Facilities Acevedo-Acevedo, Damarys 11 August 2012 (has links) A passive treatment alternative for the removal of metal and organic contaminants from runoff and effluent in CDFs was evaluated in this study. Activated carbon impregnated curtains have been used for different remediation projects; however, very little research has been conducted to understand its sorption behavior, breakthrough time, and exhaustion time of contaminants under high flow rates characteristic of CDF runoff and effluent. The major objectives of this study were to evaluate the efficiency of the curtain in removing contaminants from a synthetic effluent in a flow through regime and estimate the expected life of the curtains. Equilibrium tests, batch sorption tests and column tests were conducted to evaluate the feasibility of this alternative. The copper column tests showed that the curtain is not efficient in the removal of metals; whereas, the Aroclor1016 column tests showed that the curtains could potentially be used as a treatment alternative for organic contaminants. activated carbon runoff treatment effluent treatment FilterMat confined disposal facilities
82	Adsorption of Bisphenol-s (BPS) from Water Using Activated Carbon Al-Mashhadani, Suhaib Abdulsattar 24 May 2017 (has links) No description available. Chemical Engineering Bisphenol-s Adsorption Powder Activated Carbon Adsorption isotherm
83	Comparative Study of Adsorption of Dyes onto Activated Carbon and Modified Activated Carbon by Chitosan Impregnation Reddy Reddy, Pratyusha 24 September 2018 (has links) No description available. Environmental Engineering Adsorption Granular activated carbon Chitosan Dye Adsorption capacity
84	STABILIZATION/SOLIDIFICATION TREATMENT OF MERCURY CONTAINING WASTES USING REACTIVATED CARBON AND CEMENT ZHANG, JIAN January 2002 (has links) No description available. Engineering, Environmental mercury activated carbon stabilization/solidification sulfurization cement
85	Competition and allelopathic effects of native and invasive populations of <i>Lonicera maackii</i>: a comparative analysis Romanek, Daniel M. 29 December 2009 (has links) No description available. Ecology Lonicera maackii allelopathy invasive activated carbon competition
86	Making biodiesel from spent coffee grounds through in situ transesterification Liu, Yang 16 October 2015 (has links) No description available. Environmental Engineering Biodiesel Spent Coffee Grounds Activated Carbon in situ
87	A Mechanical and Structural Approach for Binder-Free Biomass-Derived Carbon Electrodes Hu, Jiyao 05 1900 (has links) This dissertation investigates the development of binder-free biomass-derived activated carbon electrodes for energy storage applications. Firstly, it introduces various electrochemical storage mechanisms and discusses the potential of utilizing industrial crops in electrode manufacturing. Subsequently, existing literature on industrial crop utilization for electrode materials is reviewed. Following this, methods for producing binder-free activated carbon electrodes from biomass sources are explored. The impact of retting on electrode properties is investigated, examining how different processing techniques influence performance. Mechanical stress and flow simulations are employed to gain insights into the behavior and performance of these unique electrodes. The study concludes with a comprehensive summary of findings and recommendations for future research directions, highlighting the potential of binder-free biomass-derived activated carbon electrodes in advancing sustainable energy storage solutions. biomass activated carbon hemp battery simulation Engineering, Mechanical
88	Refining of hydrochars/ hydrothermally carbonized biomass into activated carbons and their applications Hao, Wenming January 2014 (has links) Hydrothermally treated biomass could not only be used as a fuel or a fertilizer but it can also be refined into high-value products. Activated carbons are one of those. In the studies of this thesis, four different hydrothermally carbonized (HTC) biomasses, including horse manure, grass cuttings, beer waste and biosludge, have been successfully made into activated carbons. The activated carbon materials were in the forms of powdered activated carbons, powdered composites of activated carbon and iron oxide nano-crystals, and activated carbon discs. The HTC biomasses and the activated carbons were characterized and analyzed using several methods. The biomasses were carbonized to different extent during the hydrothermal treatment, which depended on the different natures of the biomasses. The HTC biomasses were activated into powdered activated carbons by both physical activation, using CO2, and by chemical activation, using H3PO4. Full factorial design matrices were applied to design experiments and study the influence of different parameters used during both physical and chemical activation. Activated carbons with embedded iron oxide nanoparticles were synthesized through hydrothermal carbonization followed by CO2 activation. These composites had high surface areas and showed a strong magnetism, and the powders could be separated from liquid phase by applying a magnetic field. Strong and dense activated carbon discs were also prepared from powdered HTC beer waste by pulsed current processing (PCP) and a subsequent CO2 activation procedure. The potential for carbon dioxide separation from nitrogen, and methylene blue adsorption in aqueous solution, were assessed for the powdered activated carbons produced from HTC biomasses. They showed good performance in both applications. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 1: In press.</p> Hydrothermally carbonized biomass activated carbon full factorial design activated carbon disc nanoparticles iron oxide CO2 separation methylene blue adsorption
89	Pretreatment options for municipal wastewater reuse using membrane technology Hatt, Juliette W. January 2012 (has links) Increasing freshwater scarcity across the world means that wastewater reclamation is being considered as a key method in which to meet the growing demand. Evolution of water reuse schemes where high quality product is required such as for indirect potable reuse has led to the adoption in recent years of the integrated membrane scheme using a combination of microfiltration or ultrafiltration with reverse osmosis membrane. However, despite technological advancements, these membranes are still prone to fouling resulting in increased costs through cleaning or replacement. This thesis aims to look at pretreatment to reduce the fouling propensity of the microfiltration membranes via a 600m3 /d pilot plant which was commissioned to investigate indirect potable reuse. A range of pretreatments including pre-screening, pre-coagulation, powdered activated carbon and granular activated carbon were assessed based on fouling amelioration, water quality improvement and cost analysis. Results showed that ferric sulphate dosing was the most effective in terms of reducing the reversible fouling rate especially at high turbidity loads enabling higher flux to be realised leading to a small cost benefit. Activated carbon proved the most effective pretreatment in terms of organic removal and a significant reduction in the irreversible fouling rate. However, the cost involved in using this as a pretreatment is significant compared to possible cost savings through reduced requirement for chemical cleaning. This pretreatment is only viable if it obviates the need for a separate organic removal process. 628.3
90	Towards application of activated carbon treatment for pharmaceutical removal in municipal wastewater Kårelid, Victor January 2016 (has links) Many pharmaceuticals are found in municipal wastewater effluents due to their persistence in the human body as well as in conventional wastewater treatment processes. This discharge to the environment can lead to adverse effects in aquatic species, such as feminization of male fish. During the past decade, these findings have spawned investigations and research into suitable treatment technologies that could severely limit the discharge. Adsorption onto activated carbon has been identified as one of the two main technologies for implementation of (future) full-scale treatment. Recent research has put a closer focus on adsorption with powdered activated carbon (PAC) than on granular activated carbon (GAC). Studies where both methods are compared in parallel operation are thus still scarce and such evaluation in pilot-scale was therefore a primary objective of this thesis. Furthermore, recirculation of PAC can be used to optimize the treatment regarding the carbon consumption. Such a setup was evaluated as a separate treatment stage to comply with Swedish wastewater convention. Additionally, variation of a set of process parameters was evaluated. During successive operation at three different wastewater treatment plants an overall pharmaceutical removal of 95% could consistently be achieved with both methods. Furthermore, treatment with GAC was sensitive to a degraded effluent quality, which severely reduced the hydraulic capacity. Both treatment methods showed efficient removal of previously highlighted substances, such as carbamazepine and diclofenac, however in general a lower adsorption capacity was observed for GAC. By varying the input of process parameters, such as the continuously added dose or the contact time, during PAC treatment, a responsive change of the pharmaceutical removal could be achieved. The work in this thesis contributes some valuable field experience towards wider application of these treatment technologies in full-scale. / <p>QC 20161124</p> / MistraPharma advanced wastewater treatment granular activated carbon powdered activated carbon municipal wastewater treatment pharmaceutical removal Water Treatment Vattenbehandling

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