Global ETD Search

181	Performance of Deep Geothermal Energy Systems Manikonda, Nikhil 29 August 2012 (has links) Geothermal energy is an important source of clean and renewable energy. This project deals with the study of deep geothermal power plants for the generation of electricity. The design involves the extraction of heat from the Earth and its conversion into electricity. This is performed by allowing fluid deep into the Earth where it gets heated due to the surrounding rock. The fluid gets vaporized and returns to the surface in a heat pipe. Finally, the energy of the fluid is converted into electricity using turbine or organic rankine cycle (ORC). The main feature of the system is the employment of side channels to increase the amount of thermal energy extracted. A finite difference computer model is developed to solve the heat transport equation. The numerical model was employed to evaluate the performance of the design. The major goal was to optimize the output power as a function of parameters such as thermal diffusivity of the rock, depth of the main well, number and length of lateral channels. The sustainable lifetime of the system for a target output power of 2 MW has been calculated for deep geothermal systems with drilling depths of 8000 and 10000 meters, and a financial analysis has been performed to evaluate the economic feasibility of the system for a practical range of geothermal parameters. Results show promising an outlook for deep geothermal systems for practical applications. deep geothermal energy main well side channels lateral temperature gradient diffusivity thermal conductivity demand curve cost analysis drilling length total depth finite difference typical demand curve
182	Modificacions en la dinàmica de processat i en les característiques finals de productes carnis amb contingut reduït de sodi Costa Corredor, Anna 01 October 2010 (has links) In recent years, several studies have linked sodium intake to hypertension, and the consequent mortality risk due to vascular diseases. Several UE member states and the WHO recommend reducing the salt intake level to a maximum of 5 g per day. Salt is a useful ingredient for meat product processing. A reduction of added salt provokes a decrease in the quality of meat products. As a technological strategy, the reduction of the amount of added salt and the addition of potassium lactate, until a 30% molar substitution (taking into account the salt standard amount (30 g/kg)), have been proposed. This substitution could modify the product evolution during its processing. The knowledge of these effects could make the optimization of the process easier. In dry-cured meat products with a reduced salt content, it could be concluded that the proposed strategy reduces the processing period, as well as the anomalous texture risk; it increases the product safety and it does not modify the visual attributes. / Al llarg dels darrers anys, diversos estudis han evidenciat una correlació entre el consum de sal/sodi i la hipertensió arterial, i conseqüent risc de mortalitat degut a malalties vasculars. Diversos països membres de la UE i l’OMS recomanen reduir el consum de sal a 5 grams diaris. La sal és un ingredient essencial en el processat de productes carnis. Una reducció de la quantitat afegida provoca una disminució de la qualitat. Com a estratègia per a no minvar-la, es planteja la reducció de la sal afegida i l’addició de lactat potàssic, fins a un 30% de substitució molar de la quantitat de sal estàndard (30 g/kg); quelcom que pot modificar els paràmetres de procés. El coneixement dels efectes facilitaria l’optimització del processat. En productes carnis crus-curats amb contingut reduït de sal, es conclou que l’estratègia plantejada redueix tant el temps requerit pel processat com el risc d’aparició de textures anòmales; incrementa la seguretat del producte acabat i no modifica els atributs visuals. Sal Salt Sodi Sodio Sodium Lactat potàssic Lactato potásico Potassium lactate Productes carnis Meat products Productos cárnicos Reducció de sal Reducción de sal Reducing salt Difusivitat Diffusivity Difusividad 663/664
183	Innovative process solutions towards recycling of salt cake from secondary aluminum smelting Li, Peng January 2012 (has links) To offer better solutions for the recycling of salt cake from secondary aluminum melting, several innovative investigations were carried out based on hydrometallurgical and pyrometallurgical views. Thermal diffusivity measurements as a function of temperature on salts-Al composites having various compositions (0, 2, 4, 6, 8, 10, 12wt pct metallic Al) were carried out. Its attempt to derive theoretical relationships between aluminium contents in the salt-Al composites and the thermal conductivities so that these would serve as calibration curves for industrial samples taken out from secondary aluminium re-melting at a later stage. The AlN hydrolysis behavior in NaCl solution was investigated by immersing pure AlN powder in deionized water, 0.3mol/l NaCl aq, 0.6mol/l NaCl aq and NaCl solution respectively with CO2 bubbling at 291K. The results showed that AlN powder underwent enhanced hydrolysis in NaCl aq than that in deionized water, while, the introduction of CO2 was found to hinder the hydrolysis even in the presence of NaCl. The characterization of the products after hydrolysis was carried out using XRD, SEM and TEM analyses. It was shown that the hydrolysis process included a slow-reaction period involving the dissolution of aluminum hydroxide layer around raw AlN particle, followed by the precipitation of aluminum hydroxide gel and the crystallization of boehmite, bayerite and gibbsite. The effects of sodium chloride concentration on the hydrolysis behavior are presented. The leaching process in CO2-saturated water showed that, at a solid to liquid ratio of 1:20 and 3h at 291K, the extraction of Na and K from the dross could be kept as high as 95.6% and 95.9%, respectively. At the same time, with continuous CO2 bubbling, the mass of generated NH3 during the leaching process decreased significantly, also the escaping NH3 gas decreased from 0.25mg in pure water down to <0.006mg. The above results showed that the introduction of CO2 causes hindrance to the hydrolysis of AlN, meanwhile, effective absorption of ammonia. The plausible mechanisms for the observed phenomena are discussed. The concept of the leaching of the salt cake by carbonated water and the consequent retention of AlN in the leach residue opens up a promising route towards an environment-friendly recycling process for the salt cake viz. recovery of the salts, utilization of CO2 and further processing of the dross residue, towards the synthesis of SiAlON from the leach residues. In alternative route to the processing of salt cake, the ammonia gas evolved by hydrolysis of AlN was collected by CO2-saturated water during water leaching at 373K. The products, i.e. ammonium carbonates which are free of chlorides, has application as a fertilizer, besides that, this method also has the advantage of fixing carbon from CO2, which is the subject of many investigations around the world. The oxidation behavior of composites SiMgAlON phases (β-SiAlON, MgAlON and 15R) synthesized from the residue during the leaching treatment of salt cake and corresponding synthetic samples was investigated in air by thermogravimetric measurements. The oxidation studies reveal the effects of impurities, namely, Fe2O3 and CaO present in the salt cake residue. From the view of kinetics, the addition of Fe2O3 brings a lower activation energy and more aggressive oxidation. The additive of CaO caused the shrinkage during the synthesis and liquid formation during the oxidation above 1673K, thus retard the oxidation rate. The impurities of CaO and Fe2O3 in the leaching residue can result in an aggressive oxidation at low temperature and a protective oxidation at temperatures above the eutectic point. From the view of phase evolution, with the progress of oxidation, the composition of the material being oxidized moved towards the Al2O3-rich corner of MgO-Al2O3-SiO2 or CaO-MgO-Al2O3-SiO2 phase diagrams relevant to SiMgAlON composite. At lower temperatures, the addition of Fe2O3 and CaO facilitated the formation of cordierite and anorthite, respectively. With the increasing of temperature, islands of silicate melt were formed dissolving these oxides, with the liquidus temperature getting lowered as a consequence. The liquid phase formed engulfed the adjacent solid phases providing strong mobility for the cations and enabling the crystal growth. As a result, intermediate products, i.e. cordierite, anorthite, spinel, which formed earlier during oxidation are found to get dissolved in the liquid phase. / <p>QC 20120912</p> Thermal diffusivity Model Solubility CO2 AlN Crystals Hydrolysis Enhance Hinder Leaching Absorption Synthesis SiMgAlON Oxidation Arctan Activation energy Mullite Liquid Crystallization.
184	Surface modification of paper and cellulose using plasma enhanced chemical vapor deposition employing fluorocarbon precursors Vaswani, Sudeep 18 January 2005 (has links) Paper and cellulosic materials hold a good promise of being candidates for flexible packaging materials provided suitable barrier properties such as water repellence and grease resistance are imparted to them. One of the methods to achieve these objectives is to surface modify paper/cellulose by applying thin fluorocarbon coatings on the surface. Fluorocarbon thin films produced by plasma enhanced chemical vapor deposition (PECVD) offer several advantages over the films produced by conventional polymerization means. Plasma deposited films are pinhole-free, chemically inert, insoluble, mechanically tough, thermally stable and highly coherent and adherent to variety of substrates. In this work, we investigate the use of PECVD technique to produce barrier films on paper and cellulosic materials. These films, with composition and properties not much different from PTFE, repel water and act as a good barrier to lipophilic materials. Two different monomers, pentafluoroethane (PFE; CF3CHF2) and octafluorocyclobutane (OFCB; C4F8), were investigated and compared in terms of deposition rates and final film properties. Various analytical techniques (XPS, FT-IR, SEM, Ellipsometry, Contact Angle Goniometry, etc.) were used to characterize the fluorocarbon films. The fluorocarbon coated paper exhibited hydrophobic character as evidenced by high water contact angles. Although the films allow water vapor diffusion, the films are hydrophobic and are not wetted when liquid water contacts these layers. Based on various thickness of these films deposited on surface of cellulose, there was a minimum PFE film thickness required to achieve a stable hydrophobic behavior. The fluorocarbon films investigated in this work also exhibited good resistance to lipophilic materials (e.g. oils, fatty acids, etc.). While techniques such as oleic acid penetration and TAPPI "oil-kit" test are commonly used in paper industry to qualitatively test the grease barrier properties of paper/cellulose, this work attempts to quantify the grease barrier properties of fluorocarbon coated paper using techniques such as magnetic resonance imaging (MRI) and quartz crystal microbalance (QCM). Finally, the feasibility of deposition of dual layer films by PECVD was investigated using PFE and n-isopropylacrylamide (NIPAAM) as precursors for applications in barrier packaging and printing. Lipophobic or Grease Barrier Water vapor diffusivity Barrier films Hydrophobic Surface modification Plasma deposition Fluorocarbon films Water barrier Plasma chemistry Diffusion Packaging Materials
185	Grape Juice Filtration, Thermopyhsical Properties Of Clear Fruit Juices And Pressurized Low Polarity Water (plpw) Extraction Of Polyphenolic Compounds From Grape Canes Karacabey, Erkan 01 September 2009 (has links) (PDF) Filtration of grape juice was investigated. Effects of process parameters of filtration were examined. The usage of precoating material and filter aid were found to be necessary to prolong the filter life. Filter cake was found to be incompressible with the effect of increasing pressure. Increase in temperature caused increase in flow rate due to the reduction in viscosity. The influences of depectinization and clarification on filtration process were also examined. Depectinization and clarification decreased the resistance and increased the flow rate. Improvement in the quality of the grape juice was observed when these pretreatments were employed. The effects of temperature and soluble solid concentration on physical properties of clarified fruit juices were investigated. High temperature and soluble solid content dependencies of density, viscosity and heat capacity were detected. Experimental data were fitted as a function of temperature and soluble solid content. Models being valid for studied clarified fruit juices were achieved for density and viscosity with the regression coefficients (R2) higher than 0.90. Optimization of the solid-liquid extraction conditions for trans-resveratrol, trans-&amp / #949 / -viniferin, ferulic acid, and total phenolics from milled grape canes has been investigated. Temperature and ethanol concentration were found to be major process variables for all responses. Maximum yields of trans-resveratrol, trans-&amp / #949 / -viniferin, ferulic acid, and total phenolics were predicted as 4.25 mg/g dw, 2.03 mg/g dw, 1.05 mg/g dw, and 9.28 mg/g dw, respectively. Optimization of extraction conditions for antioxidant activity of grape cane extracts measured by the Trolox equivalent antioxidant capacity (TEAC) and the oxygen radical absorbance capacity (ORACFL) assays was carried out using solid-liquid extraction and response surface methodology. Ethanol concentration and temperature employed for the extraction of antioxidant agents from grape cane samples were found to be statistically significant process variables affecting antioxidant activity measured by the TEAC and ORAC methods. trans-Resveratrol and trans-&amp / #949 / -viniferin were extracted from milled grape canes using pressurized low polarity water (PLPW). The extraction temperature was significant for both compounds: extraction at 160oC resulted in a 40% loss of trans-resveratrol compared to 95oC while reduction of trans-&amp / #949 / -viniferin at both temperatures remained at 30%. Increasing ethanol concentration from 0 to 25% increased the extraction of total phenolics and trans-&amp / #949 / -viniferin by 44% and 489%, respectively. Solvent flow rate also influenced trans-&amp / #949 / -viniferin extraction. Effective diffusivities of trans-resveratrol increased by three times with increasing temperature. The modified Gompertz equation satisfactorily explained the extraction of the stilbenes investigated. Q General Science 1-385
186	Ammonia sampling using Ogawa passive samplers [electronic resource] / by Paul Tate. Tate, Paul. January 2002 (has links) Document formatted into pages; contains 115 pages. / Title from PDF of title page. / Original thesis was submitted in HTML and can be accessed at http://www.lib.usf.edu/EDT-db/theses/available/etd-10262001-162331/unrestricted/default.htm / Thesis (M.S.)--University of South Florida, 2002. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: The purposes of this research were to determine the efficacy of using the Ogawa]a passive sampling device (PSD) to measure ammonia and to identify significant ammonia sources adjacent to Hillsborough and Tampa Bay. Ninety-four samplers were deployed over a 180-km2 area for two weeks in October 2001. Within the area sampled were located suburbs, an urban center, major highways, port activities, fertilizer manufacturing, wastewater treatment, coal-combustion power plants, warehousing and dairy farming. The sampled locations were arranged in a triangular grid pattern spaced 1.5 km apart. The pattern was designed to locate circular hot spots with a minimum radius of 0.75 km. The minimum, maximum, mean, and median ammonia concentrations were 0.06, 15, 2.0, and 1.5 mg/m3, respectively, and the estimated precision was 16%. Hot spots identified from kriged concentration data coincided with inventoried ammonia sources. / ABSTRACT: The relative bias and precision of the PSD based on collocation with an annular denuder system were (plus or minus) 30 % and 20 %. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web. Ammonia--Sampling. Air sampling apparatus. spatial concentrations. diffusion coefficient for ammonia. diffusivity. area sampling. tampa bay estuary program.
187	A comparison of SPS and HP sintered, electroless copper plated carbon nanofibre composites for heat sink applications Ullbrand, Jennifer January 2009 (has links) The aim of this study is to synthesize a material with high thermal conductivity and a low coefficient of thermal expansion (CTE), useful as a heat sink. Carbon nanofibres (CNF) are first coated with copper by an electroless plating technique and then sintered to a solid sample by either spark plasma sintering (SPS) or hot pressing (HP). The final product is a carbon nanofibre reinforced copper composite. Two different fibre structures are considered: platlet (PL) and herringbone (HB). The influence of the amount of CNF reinforcement (6-24 %wt), on the thermal conductivity and CTE is studied. CNF has an excellent thermal conductivity in the direction along the fibre while it is poor in the transverse direction. The CTE is close to zero in the temperature range of interest. The adhesion of Cu to the CNF surface is in general poor and thus improving the the wetting of the copper by surface modifications of the fibres are of interest such that thermal gaps in the microstructure can be avoided. The poor wetting results in CNF agglomerates, resulting in an inhomogeneous microstructure. In this report a combination of three different types of surface modifications has been tested: (1) electroless deposition of copper was used to improve Cu impregnation of CNF; (2) heat treatment of CNF to improve wetting; and (3) introduction of a Cr buffer layer to further enhance wetting. The obtained composite microstructures are characterized in terms of chemical composition, grain size and degree of agglomeration. In addition their densities are also reported. The thermal properties were evaluated in terms of thermal diffusivity, thermal conductivity and CTE. Cr/Cu coated platelet fibres (6wt% of CNF reinforcement) sintered by SPS is the sample with the highest thermal conductivity, ~200 W/Km. The thermal conductivity is found to decrease with increasing content of CNFs. electroless plating SPS spark plasma sintering HP hot pressing CNF carbon nanofibre carbon nanofiber heat sinks thermal conductivity thermal diffusivity Cu composite flash technique Physics Fysik
188	Investigation of the diffusion mechanisms of several hydrocarbons in the Metal-Organic-Framework Zn(tbip) Seehamart, Kompichit 09 May 2011 (has links) (PDF) Most of the computer simulations of molecules in Metal-Organic Frameworks (MOFs) to be found in the literature are done with rigid framework. But, Molecular Dynamics (MD) simulations of the self-diffusivity, Ds, of ethane within the one-dimensional 4.5 Å channels of the MOF type Zn(tbip)(H2 tbip = 5-tert-butyl isophthalic acid) presented in this work have shown not only quantitative, but also qualitative, differences in the Ds values for fixed and flexible lattices. Particularly, the dependence of Ds upon the concentration of molecules, c, is strongly influenced by the lattice flexibility. The reasons for this influence are investigated with the aid of probability density plots, free energy landscapes and barriers, along with a determination of the structural changes accompanying increasing c. It is found that for flexible lattices, the tighter, more constrained parts of the channels become wider at higher c; this allows more molecules to diffuse in the central region of the channels. The investigations for Zn(tbip) have been extended to three equimolar mixtures of ethane/ethane, CO2/ethane and CO2/methanol. The simulations take into account the lattice flexibility. The diffusional characteristics are discussed in relation to molecule properties and lattice geometry. The results show that Zn(tbip) may be a useful material for separating methane/ethane and CO2/ethane mixtures at low concentrations, and CO2/methanol mixtures at high concentrations. The temperature and concentration dependence of the self-diffusivity of propane diffusion in Zn(tbip) have been investigated as well by performing normal MD and hyper-MD with bias potential simulations. The obtained temperature dependence of the self-diffusivities is analyzed using an Arrhenius relationship, yielding the activation energy to be 9.53 kJ/mol and the pre-exponential factor to be 4.48×10-9 m2s-1. Using this hyper-MD method, interesting mechanisms of the propane molecules able to pass each other and exchange their sites in the channels can be observed. Because of mutual hindrance of propane molecules, the propane self-diffusivities decrease with increasing concentration. MD-Simulation Metall-Organische Gerüstverbindungen Diffusion flexibles Gitter Self-diffusivity Molecular dynamics Framework flexibility Mixture Guest molecules Metal-Organic Frameworks; ddc:530
189	A Semi-Analytic Solution for Flow in Finite-Conductivity Vertical Fractures Using Fractal Theory Cossio Santizo, Manuel 2012 August 1900 (has links) The exploitation of unconventional reservoirs goes hand in hand with the practice of hydraulic fracturing and, with an ever increasing demand in energy, this practice is set to experience significant growth in the coming years. Sophisticated analytic models are needed to accurately describe fluid flow in a hydraulic fracture and the problem has been approached from different directions in the past 3 decades - starting with the use of line-source functions for the infinite conductivity case, followed by the application of Laplace Transforms and the Boundary-Element Method for the finite-conductivity case. This topic remains an active area of research and, for the more complicated physical scenarios such as multiple transverse fractures in ultra-tight reservoirs, answers are presently being sought. Fractal theory has been successfully applied to pressure transient testing, albeit with an emphasis on the effects of natural fractures in pressure-rate behavior. In this work, we begin by performing a rigorous analytical and numerical study of the Fractal Diffusivity Equation and we show that it is more fundamental than the classic linear and radial diffusivity equations. Subsequently, we combine the Fractal Diffusivity Equation with the Trilinear Flow Model, culminating in a new semi-analytic solution for flow in a finite-conductivity vertical fracture which we name the "Fractal-Fracture Solution". This new solution is instantaneous and has an overall accuracy of 99.7%, thus making it comparable to the Trilinear Pseudoradial Solution for practical purposes. It may be used for pressure transient testing and reservoir characterization of hydrocarbon reservoirs being produced by a vertically fractured well. Additionally, this is the first time that fractal theory is used in fluid flow in porous media to address a problem not related to reservoir heterogeneity. Ultimately, this work is a demonstration of the untapped potential of fractal theory; our approach is very flexible and we believe that the same methodology may be extended to develop new reservoir flow solutions for pressing problems that the industry currently faces. Fractal Fracture Solution fractals Cinco-Meng solution finite-conductivity vertical fracture hydraulic fracturng analytic solutions reservoir engineeringl trilinear flow fractal diffusivity equation
190	Desenvolvimento de uma técnica experimental para a estimativa de propriedades térmicas usando uma única superfície de acesso "in situ" / Development of the experimental thecnique to Estimation the thermal properties using only one surface "in situ" Malheiros, Fernando Costa 18 May 2017 (has links) CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / FAPEMIG - Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Este trabalho apresenta um novo método experimental desenvolvido para a obtenção simult ânea da condutividade e difusividade térmica em materiais sólidos. O método se baseia na utilização de um novo aparato experimental na superfície que possui uma resistência elétrica para aquecimento, dois termopares e um sensor de medição de uxo de calor. A amostra é parcialmente aquecida em uma superfície frontal. Duas regiões da superfície frontal, aquecida e não aquecida, são usadas para estimar as propriedades térmicas. A técnica se baseia na minimização de duas funções distintas. Ambos são de nidos a partir das mesmas medições de temperatura na superfície frontal, mas usando diferentes conceitos térmicos. A primeira usa uma razão de ganho entre duas temperaturas medidas na superfície para a identi cação da difusividade térmica. A segunda é de nido pela conhecida função de erro quadrático calculada entre os valores experimentais e teóricos para as mesmas temperaturas super ciais. Este segundo procedimento permite a estimativa da condutividade térmica. Em adição, apresentase um estudo sobre o comportamento de alguns parâmetros que in uenciam o conceito de razão de ganho de temperatura. As propriedades foram mensuradas em duas amostras diferentes, PVC e cobre, materiais não condutor e condutor, com o desvio inferior a 2% dos valores encontrados na literatura. Após as estimativas experimentais, os modelos térmicos originais foram reduzidos a outros modelos simpli cados. Uma nova função para estimar a difusividade térmica foi proposta usando o modelo térmico simpli cado com a mesma ideia da razão de ganho entre duas temperaturas medidas na superfície. A condutividade térmica é determinada com o mesmo conceito quando se usa o modelo original, mas é necessária uma nova posição de medição de temperatura experimental sob o centro do uxo de calor. Esses modelos reduzidos usam apenas uma superfície para estimar as propriedades térmicas. Os resultados da estimativa de propriedades são os mesmos usando o modelo original ou os modelos reduzidos, mas tem uma diminuição signi cativa no tempo computacional usando os modelos reduzidos devido ao tempo para minimizar as funções. Dessa forma, esta técnica tem todos os requisitos para ser aplicada em medições "in situ". / This work presents a new experimental method developed for obtaining, simultaneously, the thermal conductivity and thermal di usivity of solid materials. The method is based on the use of a new surface probe that has one resistance heater, two termocouples, and one heat ux sensor. The sample is partially heated in a frontal surface. Two regions, heated and non-heated front surface are used to estimate the thermal properties. The technique relies on the minimization of two distinct functions. Both are de ned from the same frontal surface temperature measurements, but using di erent thermal concepts. The rst uses a gain ratio between two surface temperatures for the identi cation of the thermal di usivity. The second is de ned by the well-known square quadratic error function calculated between the experimental and theoretical values of the same surface temperatures. This second procedure allows the estimation of thermal conductivity. In addition, has a study about the behaviour of some parameters that in uence the a gain ratio temperatura concept. The properties were mensure in two di erent sample, PVC and coopper, non-condutor and conductor materials with the deviation less than 1% of the values found in literature. After mensurements, the original thermal models were reduced to others more simple. A new function to mensure the thermal di usivity was proposed using the simple thermal model wiht the same ideia of the gain ratio between two surface temperature measurements. The thermal conductivy is determinated with the same concept when use the original model, but a new position of mensurement of experimental temperatura under the center of the heat ux is necessary. Those reduced models use only one surface to estimate the thermal properties. The results of the properties estimation are the same using the original or the reduce models, but has a signi cant reduction in computacional estimation time using the reduce models because of the time to minimize the functions. So, this thecnique has all requirements to be applied in in situ measurements. / Tese (Doutorado) CNPQ::ENGENHARIAS::ENGENHARIA MECANICA Estimativa de propriedades Problema inverso Difusividade Condutividade Thermal properties Inverse problems Diffusivity Conductivity Engenharia mecânica Materiais - Propriedades térmicas

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