Global ETD Search

461	Chemical Recycling of Poly (Ethylene Terephthalate) and its Co-polyesters with 2, 5-Furandicarboxylic Acid using Alkaline Hydrolysis Vinnakota, Keerthi January 2018 (has links) No description available. Chemical Engineering
462	Comparative LCA of Electrolyzers for Hydrogen Gas Production / Jämförande LCA av elektrolyser för vätgasproduktion Lundberg, Susanne January 2019 (has links) The need for energy and fuels is predicted to grow within the next decades, in parallel to the need of decreasing the emissions to air and water to operate within the planetary boundaries. The alternatives to consider as energy or fuel options need to be environmentally friendly, evaluated over the whole life cycle. Hydrogen is one of the considered alternatives because it contains no carbon and has a good environmental performance when produced from renewable sources. It can be produced by a variety of methods, where electrolyzers have a good potential environmental impact if powered by renewable energy. Electrolyzers cleave water into hydrogen and oxygen, by using electricity and water. There are currently four technologies on the market or under development but there is a lack of LCA-studies that compare these. This study is an attributional LCA-study, evaluating the potential environmental performance of two electrolyzers: PEMEC and SOEC. The result from this study is thereafter compared to a parallel study of one other electrolyzer: Alkaline. The LCA study considers six impact categories: Abiotic Depletion (element), Abiotic Depletion (fossil), Acidification Potential, Eutrophication Potential, Global Warming Potential and Photochemical Ozone Creation Potential. The system boundary is set as cradle to gate. The electricity source for hydrogen production is evaluated in a sensitivity analysis, together with a scenario of future estimated developments. The electricity during hydrogen production has the highest impact of the life cycle for PEMEC and SOEC, where the energy source has a great impact on the result. PEMEC has the lowest potential environmental impact, in comparison to Alkaline and SOEC, which comes from low energy consumption and low weight of materials with high environmental impact. / Energi- och bränslebehovet förväntas öka inom de närmsta decennierna, samtidigt som utsläpp till luft och vatten måste minska för att nå uppsatta klimatmål. De alternativ som tas fram behöver vara miljövänliga, med bra klimatresultat sett över hela livscykeln. Vätgas är ett alternativ som övervägs, på grund av högt energiinnehåll och låga utsläpp till följd av att den är fri från kol. Vätgas kan produceras med en mängd metoder, där genom elektrolys anses vara en av de bästa teknikerna ur miljösynpunkt. En elektrolysör producerar vät- och syrgas genom att sönderdela vatten med hjälp av elektricitet. Det finns fyra elektrolys-varianter på marknaden och under utveckling, men det saknas LCA-studier där dessa jämförs mot varandra. Denna studie är en bokförings LCA av två elektrolyser: PEMEC och SOEC, som jämförs med resultatet från en parallell studie av en annan elektrolys-typ: Alkalisk. Potentiell miljöpåverkan mättes i sex stycken kategorier: resursutarmning (fossila resurser och ämnen), försurning, övergödning, global uppvärmning och fotokemiskt marknära ozon. Systemgränsen är satt från råmaterialutvinning till vätgasproduktion. Valet av elektricitetskälla för vätgasproduktion utvärderas i en känslighetsanalys, tillsammans med påverkan av framtida teknikers konstruktion. Livscykelfasen ”produktion av vätgas” har övervägande högst påverkan över livscykeln för SOEC och PEMEC, där elektriciteten är den bidragande faktorn. Elektrolysmodellen PEMEC har uppskattningsvis lägst miljömässig påverkan över livscykeln. Den låga påverkan för PEMEC kan härledas till låg elektricitetsförbrukning under vätgasproduktionen samt låga vikter av material med hög miljömässig påverkan. Energy Hydrogen Gas LCA Electrolyzer SOEC PEMEC Alkaline Energi Vätgas LCA Elektrolysör SOEC PEMEC Alkalisk Engineering and Technology Teknik och teknologier
463	The alkaline hydrolysis of esters in aqueous-organic solvent mixtures. The effects of solvents and of the activity coefficients of reactants on the kinetics of the alkaline hydrolysis of methyl acetate in aqueous dioxan, aqueous dimethyl sulphoxide and aqueous diglyme (bis (2-methoxyethyl ) ether) mixtures as solvents. Kazempour, Abdol Rassoul January 1978 (has links) Values of the rate constant for the alkaline hydrolysis of methyl acetate in various aqueous-organic solvent mixtures (dimethyl sulfoxide 0<x40.2, dioxane 0 <, x., < 0.2, methyl ethyl ketone 0<x<0.06 and diglyme, i. e. ether-bis (2-methyloxethyl) 0x<0.10) have been determined for the temperatures 15 0 C, 25 0C and 35 0C conductometrically. To interpret these results the approach adapted is to experimentally determine the activity coefficient of the ester (YE ) and the activity of the water (aH20', mechanistically, at least one molecule of water is involved in the rate-determining step) and then to use the Bronsted-Bjerrum equation to determine the residual activity coefficient ratio of the participating ions, y (Yf - for Oil the transition state). Values of YE and aH 20 have been determined by a transpiration method, using gas-chromatographic analysis of the vapours of solutions of methyl acetate in aqueous-organic solvent mixtures of dir. ethyl sulfoxide, dioxane, methyl ethyl ketone and diglyme in the same composition ranges as above, tetrahydrofuran 04x org z<, 0.15, methanol, ethanol and tert-butanol in t1h6e range 04x0.20'at 25oC. These results indicate that on changing org the solvent composition YE varies by a larger factor than is predicted for the ratio YOH-/yýO_ by the Debye-Iluckel approach, and hence is the dominant factor in determining the effects of solvent composition on the rates of the hydrolysis. This is in contradiction to the assumptions of the electrostatic theories of Laidler and Eyring, and of Amis and Jaffe. The gas-chromatographic results also indicate that whilst the concentration of the water varies in each mixture studied, the activity coefficient varies in the opposite way to produce almost constant values of aý, 0* Using the transpiratioii/gas-chromatogralýlic method, the thermodynamic properties of the ternary systems, methyl acetate-water-organic Solvcat, using the organic solvents mentioned above (excepting, diglyme) have been investigated, and the results indicate that the variation of *ýE with solvent composition, for the dilute solutions of ester used, can be estimated from the thermodynamic properties of the binary water-organic solvent mixtures, using the Gibbs-Dahem equation. Single ion activity coefficients in the literature for small negative ions, to represent the OH_ ion, and for large ions, to rep-resent the transition state ion, have been used to explain the experimentally fomd variation of the residual activity coefficient -ratio with solvent composition. Hence, it is concluded that the importance of the parameters involved in the hydrolysis of esters - an ion-molecule reaction - in aqueousorganic solvent mixtures are in the order of Ymolecule > aH 20> YOH_/YM+ -> (dielectric constant), and that the nonelectrostatic effects -- thermodynamic effects - are more important in these studies than the electrostatic effects. From a preliminary investigation of the data in the literature the thermodynamic approach also yields a valid interpretation of the effect of solvent composition on the rates of the acid hydrolysis of esters. / Ministry of Science and Higher Education of Iran Methyl acetate Alkaline hydrolysis Aqueous-organic solvent mixtures Activity coefficients Bronsted-Bjerrum equation Residual activity coefficient ratio
464	The Geochemistry of Streams and Weathering Processes in an Arctic Carbonate Terrain: Cornwallis Island and Grinnell Peninsula Northwest Territories. Davie, Robert F. 05 1900 (has links) Missing page 48 / <p> The low ambient air temperatures, together with the low annual rainfall and complete lack of vegetation in the Canadian High Arctic, results in a breakdown of the carbonate rock material by mechanical means. The importance of chemical decomposition, soil formation and transport of ionic material in solution is negligible, when compared with the role played by these same processes in more temperate climates. </p> <p> The purpose of this thesis is to investigate certain aspects of the alkali, alkaline earth and heavy metal geochemistry of selected components of the weathering cycle. The discussion will deal with concentration levels of these parameters in stream waters and, to a lesser extent, soils and stream sediments. </p> <p> Analytical results show that element distributions in the streams resemble those of more temperate carbonate terrains. However, the solute levels are, in general, lower, indicating that a greater proportion of the metals is travelling in colloidal form and/or adsorbed to slit-sized material carried by the streams. </p> <p> These findings confirm the belief that chemical weathering and transport in solution are of little importance in the area studied. </p> / Thesis / Bachelor of Science (BSc) geology stream; weathering processes Arctic; carbonate terrain
465	Analysis of Environmental-Ethical Concerns Within the United States Funeral Industry Wisnewski, Olivia Ann 18 September 2023 (has links) This thesis examines the failings in environmental-ethics present in the United States funeral industry, focusing on the lack of environmental ethical guidelines at an industrial and policy level. Utilizing an interdisciplinary approach through the lenses of environmental science, philosophical ethical considerations surrounding policy-based advocacy and ecocritical approaches to the concepts of reciprocity and harm reduction, this thesis makes recommendations to close the gaps in environmental ethical oversight. Focus is placed on mitigation of environmental harms resulting from changes in policy and legislation, and in-industry oversight, with an emphasis on the support of ecologically beneficial methods of the disposition of human remains. / Master of Arts / The funeral industry in the United States has developed in a way that eschews environmental consciousness in the services available to consumers. This thesis examines the historical development of the relationship between the funeral industry and the environment, and the way the rise of the corporate funeral model ignores environmental concerns, as well as presents contemporary environmental issues that impact the industry. Additionally, the thesis explores the gaps regarding environmental impact present in the ethical guidelines the funeral industry adheres to, and the lack of environmental accountability coming from both within the industry and from regulatory bodies and the United States government. Finally, this thesis provides recommendations for the industry, and associated advocacy groups surrounding corrections and policy and practice changes that will support more a more environmentally friendly version of the funeral industry. In this case, environmental friendliness is defined by practices which take pollution impacts into account, as well as consider the sustainability of resource use incurred by both traditional and emergent technologies. US deathcare practices environmental ethics natural burial cremation Alkaline Hydrolysis Natural Organic Reduction ethical analysis harm reduction
466	Research on Preventing and Remediating the Dust Storms of China: A Case Study Investigating the Development of Salt Water Agriculture Hill, Kara J. 28 July 2011 (has links) No description available. Environmental Studies Dust storms Desertification &8220 Saline-alkaline dust storms Salt-water agriculture
467	Effects of strontium on osteogenic capacity and proliferation of human periodontal ligament cells and osteoblasts Aidoukovitch, Alexandra January 2015 (has links) Strontium (Sr2+) är det aktiva ämnet i läkemedel som används för att reducera frakturrisken hos patienter som lider av osteoporos. På senare tid har Sr2+ kombinerats med olika biomaterial i syfte att gynna benbildning, emellertid är ämnet vagt studerat avseende effekten på parodontala vävnader. Trots omfattande användning, är verkningsmekanismer av Sr2+ inte helt klarlagda. Denna studie syftar därmed till att utvärdera effekten av Sr2+ på humana parodontalligament-celler (PDL-celler) och osteoblaster avseende proliferation och osteogen aktivitet. Odlade humana PDL celler och osteoblastcellinjerna MG63 och hFOB 1.19 behandlades med SrCl2 (0,1-10 mM) eller vehikel under 72 h. Manuell cellräkning utfördes med en Bürker kammare. Det totala proteininnehållet fastställdes med en kolorimetrisk mätning genom användning av Bio-Rad proteinanalys. Aktiviteten av alkaliskt fosfatas bestämdes enzymatiskt och normaliserades till totalt proteininnehåll. SrCl2 hade ingen signifikant effekt på PDL celler (p> 0.05), däremot observerades en tendens till inducerade osteoblastiska egenskaper. I motsats till det, ökade 5 mM SrCl2 den totala proteinhalten i MG63 celler med 37% (p <0,01) jämfört med vehikel, medan en lägre koncentration (0,1 mM) inte hade någon påverkan. 5 mM SrCl2 ökade MG63 cellantalet med 38% (p <0,001), medan en högre koncentration (10 mM) inte uppvisade en signifikant ökad effekt jämfört med 5 mM (+54%, jämfört med vehikel, p<0.05). Resultaten visar att 72 h administrering av ≥ 5 mM SrCl2 ger en pro-proliferativ effekt på humana osteoblastliknande MG63 celler och uppvisar en tendens till att stimulera osteogena egenskaper hos primära humana PDL-celler. / Strontium (Sr2+) is the active substance of pharmaceuticals used for reducing fracture risk in osteoporotic patients. Lately, Sr2+ is combined with biomaterials to enhance osteogenesis, which has been vaguely studied considering periodontal tissue regeneration. Despite extensive use, the mechanisms of action of Sr2+ are not fully understood. The present study assesses the impact of Sr2+ on primary human periodontal ligament cells (PDL cells) and human osteoblasts in regard to proliferation and pro-osteogenic activity. Cultured human PDL cells and osteoblast cell lines MG63 and hFOB 1.19 were treated with SrCl2 (0.1-10 mM) or vehicle for 72 h. Cells were counted manually using a Bürker chamber. Total protein content was determined by colorimetric analysis using Bio-Rad protein assay. Alkaline phosphatase activity was determined enzymatically and normalized to total protein content. SrCl2 had no significant effect on PDL cells (p>0.05), but a tendency towards induced osteogenic characteristics was observed. In contrast, 5 mM SrCl2 enhanced total MG63 cell protein content by 37% (p<0.01), compared to vehicle, whereas a lower concentration (0.1 mM) did not. 5 mM SrCl2 increased MG63 cell number by 38% (p<0.001), while a higher concentration (10 mM) did not have a significant additional effect over the 5 mM (+54%, compared to vehicle, p<0.05). The results demonstrate that 72 h administration of ≥ 5 mM SrCl2 exerts a pro-proliferative effect on human osteoblast-like MG63 cells and display a tendency to induce osteogenic characteristics in primary human PDL cells. Alkaline Phosphatase Cells Cultured Cell Division/Drug effects In vitro Osteoblasts Periodontal Ligament Strontium Strontium Chloride Medical and Health Sciences Medicin och hälsovetenskap
468	Evaluation of Topsoil Substitutes for Restoration of Appalachian Hardwoods on Strip Mined Land Showalter, Julia M. 05 September 2005 (has links) Current surface mine reclamation in Appalachia involves returning the land to approximate original contour by grading the surface and planting grasses and early-successional trees. This results in a greatly altered ecosystem compared to the native forest that was there prior to mining. The reclaimed land is usually degraded economically and environmentally because mine soils are usually less productive than the native soils, and because the mined sites do not provide the same level of ecosystem services. This research addressed constraints to the return of the native ecosystem by assessing how mine spoil properties and treatments affect native tree species and soil microorganisms. A 4x2x3 factorial greenhouse experiment was used to examine the growth of one-year-old Fraxinus americana, Quercus rubra, and Liriodendron tulipifera as well as herbaceous plant occurrence and microbial biomass and activity. Three mine spoils, brown, weathered sandstone (BWS), white, unweathered sandstone (WUS), and gray, unweathered shale (GUH) were compared with undisturbed forest topsoil (UFT) to determine their suitability for tree growth. Half of each of the four media was inoculated with a 2.5-cm layer of topsoil. BWS was the optimal spoil material for the growth of F. americana, Q. rubra and microbial populations. Foliar nutrient analysis indicated that L. tulipifera was highly dependent on nutrient levels and was unable to grow well on any of the spoil types due to deficiencies. Inoculation with topsoil increased tree growth on the GUH spoil, and increased microbial activity and presence of herbaceous plants across all growth media. The field study was used to determine what spoil properties most influenced three-year-old Quercus alba growth. This information was used to test a mine quality classification model. Northeast facing sites with sandy spoils high in nutrients, moderate in pH, and high in microbial populations were optimal for tree growth. These variables explained 52% of the variation in tree growth. Tree growth was also highly correlated with tree foliar nutrient levels, further suggesting that tree growth was influenced by spoil nutrients. Microbial biomass and dehydrogenase production were also regressed against soil properties and were dependant on a moderate pH, high nitrogen levels, and low salt content. These variables explained 53% of the variability in microbial biomass and 50% of the variability in enzyme production. These studies suggest that tree growth and soil microbial populations are closely linked, and both are affected by mine spoil properties. During mined land reclamation, mine spoils conducive to tree growth should be selected if return of the native ecosystem is the reclamation goal. / Master of Science reforestation mine soil reclamation tulip poplar site quality foliar nutrients soil microbes alkaline spoils red oak white oak white ash
469	Ranaspumin Protein Characterization and Applications for Both Environmental and Medical Purposes Koerber, Rachel 12 1900 (has links) The Túngara frog (Engystomops pustulosus) from Central America creates a bio-foam that protects their young from dehydration, microbial degradation, and even predators during early development. The foam is composed of unique proteins known as Ranaspumin 1-6 (RSN 1-6). These RSN proteins have been synthetically synthesized and verified with Circular Dichroism (CD) to determine their critical micelle concentration, antimicrobial properties, and stability at varying temperatures and pH ranges. Throughout these characterizations, RSN 2 was determined to establish/produce antimicrobial properties, express stability at temperatures between 20 – 60oC, and express stability at a pH range of 5-8. Therefore, RSN 2 was isolated and utilized for medical and environmental applications. With the addition of RSN 2, the separation of aromatics was achieved in tar-sands with the assistance of a Tangential Flow Filtration (TFF) system. With only three passes through the TFF system, the RSN 2 solution isolated approximately 35% of the aliphatic region, and approximately 70% of the aromatic region. Finally, RSN 2 was implemented into an organ preservation solution for organ transplant surgery. By observing two different biomarkers, including Cardiolipin (CL) and alkali metals/alkaline earth metals for a change in concentration to verify organ viability. Resulting in the RSN 2 solution as well as a 50:50 solution composed of RSN 2 and a ‘gold standard' solution, has the potential to replace the on the market preservation solutions. Therefore, a simple bio-foam such as RSN 2 has the potential to advance both the medical and environmental fields. Ranaspumin 2 Circular Dichroism medical environmental Tangential Flow Filtration organ preservation solution Cardiolipin alkali metals/alkaline earth metals Chemistry, Analytical
470	Electrodeposition of Molybdenum-Based Coatings from Aqueous Alkaline Solutions for Enhanced Corrosion Resistance Zhou, Ting 05 1900 (has links) Zn-Mo coatings are very promising environment friendly anticorrosive coatings as replacement materials for cadmium and chromium (VI) based conversion layers. Electrodeposition has become a favorable technique in fabricating coatings due to its low cost, ease of use, and overall experimental control of coating quality. Very little research so far has been done for the electrodeposition of Zn-Mo coatings under alkaline conditions. In this work, Zn and Zn-Mo coatings were electrochemically deposited on stainless steel from an aqueous alkaline citrate solution. An organic compound, vanillin, was added to the electrolyte as a leveling agent for improving interlayer adherence and corrosion resistance of Zn-Mo coatings. Ni-Mo alloys have been known to possess high tensile strength and excellent corrosion protection of steels, and MoTe2 layers have a potential for the application in anticorrosive coatings due to their hydrophobic properties. In this study, MoTe2-Ni-Mo coatings were deposited on stainless steel using both sputtering and electrodeposition methods. These coatings with high corrosion resistance and other desirable properties are in demand in the oil and gas industry since they can protect and thus extend the lifetime of the underlying materials when exposed to aggressive environments. The Zn-Mo and MoTe2-Ni-Mo coatings were evaluated for chemical composition and corrosion behavior using different types of instrumental and electrochemical techniques. The addition of vanillin to the electrolyte did not change the crystalline structure or composition of the Zn-Mo coating, however, the corrosion resistance of the coating was significantly improved by the leveling effect of vanillin during the electrodeposition. The corrosion resistance of the Ni-Mo coating was also enhanced by applying the hydrophobic MoTe2 monolayer on the top surface. Electrodeposition Mo-based coatings alkaline solutions corrosion resistance. Chemistry, Analytical Molybdenum. Zinc coating. Corrosion and anti-corrosives. Electroplating.

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