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Analys av värmeåtervinningsmöjligheter och värmeväxlare kring elektrolysprocessen vid Bolidens Rönnskärsanläggning / Analysis of potential for heat recovery and heat exchanger for the electrolysis process at the Boliden Rönnskär plantLundberg, Anton January 2022 (has links)
Bolidens elektrolysverk på Rönnskär hade ett behov av att analysera potentialen för att återvinna och utnyttja spillvärme från kondensat för verket. Ångan som användes för existerande värmeväxlare varåtervunnen från olika processer inom Rönnskär, men även producerad av en oljepanna. Den ännu outnyttjade spillvärme som fanns på elektrolysverket skulle potentiellt kunna assistera existerande värmeväxlare för att minska oljekonsumtionen. Ett av målen var att undersöka om det var möjligt attöka temperaturen på elektrolyten till 63 ℃ med ytterligare en värmeväxlare före den nuvarandevärmeväxlaren. Uppvärmningspotentialen för en värmeväxlare med den kondensatmängd och kondensattemperatur som fanns på elektrolysverket skulle undersökas om temperaturen på kondensatet var lägre än 63 ℃. Projektet analyserade relaterade system inom elektrolysverket och mer specifikt avkoppringens utformning med olika maskiner och system. Analysen inkluderade också rekommendationer inom val av värmeväxlare, dimensionering och beräkningar för konfiguration av rörvärmeväxlaren. Sedan beräknades även kondensatmängd, kondensattemperatur, hållbarhetsanalys och ekonomisk analys. En känslighetsanalys utfördes för de viktigaste variablerna. Resultaten visade att mängden kondensat var för liten för att motivera ytterligare en värmeväxlare. Detta ledde till två fallstudier för olika scenarion inom elektrolysverket vad gällde mängd kondensat, kondensattemperaturer och uppvärmningspotential för elektrolyten. I första fallet beräknades kravet på kondensattemperaturen för uppvärmning av elektrolyten till 63 ℃. I andra fallet utforskades uppvärmningspotentialen av elektrolyten med den beräknade kondensattemperatur på cirka 60 ℃. För båda fallen så användes varierande volymflöden mellan 53,5 liter/min till 126 liter/min. Det medfördeatt elektrolyttemperaturen kunde värmas upp till ett intervall på mellan 30 och 44 ℃. Elektrolytens uppnådda temperatur var beroende av vilket volymflöde som valdes. För att nå temperaturen 63 ℃ påelektrolyten behövdes en kondensattemperatur på cirka 96 ℃ för maxkapacitet. Bästa valet av värmeväxlare var rörvärmeväxlare. Utformningen av värmeväxlaren gav ett acceptabelt tryckfall och god total värmeöverföringskoefficient. Hållbarhetsanalysen visade att det var gynnsamt med en värmeväxlare för att minska koldioxidutsläppen. Minskade koldioxidkostnader gav en mer gynnsam ekonomi, frånsett eventuella investeringskostnader. Känslighetsanalysen visade att känsliga variabler har låg påverkan på resultatet och att de viktiga variablerna som temperaturer och flöden påverkaderesultatet som förväntat. Slutligen kunde man konstatera att denna lösning inte var gynnsam för tillfället på grund av brist på kondensatmängd, men kan vara relevant för elektrolysverket i framtiden. / Boliden's electrolysis plant at Rönnskär had a need to analyze the potential to reuse waste heat from the condensate. The steam used for existing heat exchangers was recovered by various processes within Rönnskär and/or produced by an oil fired boiler. The waste heat that was available at the electrolysis plant could possibly assist existing heat exchangers to reduce oil consumption. One of the goals was to investigate whether it was possible to increase the temperature of the electrolyte to 63 ℃with an additional heat exchanger before the current heat exchanger. The heating potential of a heat exchanger with the certain amount of condensate and condensate temperature that was present at the electrolysis plant would be investigated if the temperature of the condensate was lower than 63 ℃.The project analyzed related systems within the electrolysis plant and more specifically, the process of interest in terms of design with different machines and systems. The analysis also included recommendations in the selection of heat exchangers, dimensioning and calculations for the configuration of a shell and tube heat exchanger. The amount of condensate, condensate temperature, sustainability analysis and economic analysis were also calculated. The sensitivity analysis was performed on important and sensitive variables. The result showed that the amount of condensate was too small to justify an additional heat exchanger. This led to two case studies for different scenarios within the electrolysis plant in terms of amount of condensate, condensate temperatures and heating potential for the electrolyte. In the first case, the requirement for the condensate temperature for heating the electrolyte to 63 ℃ was calculated. In the second case, the heating potential of the electrolyte with the calculated condensate temperature and the different amounts of condensate were explored. The volume flow varied between 53,5 liters/min to 126 liters/min for the condensate with a temperature of about 60 ℃. This meant that the electrolyte temperature could be heated between a range 30 to 44 ℃. The temperature of the electrolyte was depended on the volume flow chosen. To reach the temperature of 63 ℃ on the electrolyte, a condensate temperature of approximately 96 ℃ was needed for maximum capacity. The best choices of heat exchangers were a shell and tube heat exchanger. The design of the heat exchanger gave an acceptable pressure drop and a good overall heat transfer coefficient. The sustainability analysis showed that it was beneficial to have a heat exchanger to reduce carbon dioxide emissions. By reducing the carbon emissions, it resulted in less cost for EUA (European union allowance), but the investment cost was not included in these calculations. The sensitivity analysis showed that sensitive variables have a low impact on the result and that the important variables such as temperatures and flows affected the result as expected. Finally, it could be stated that this solution was not favorable at the moment due to a lack of condensate but may be relevant for the electrolysis plant in the future.
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Vitamin K Deficiency in the Setting of Blenderized Tube Feeding Regimen in a Teenager: A Case ReportKhan, Natasha, Taimur, M, Malkani, A, Lamsal, Riwaaj 11 January 2022 (has links)
Vitamin K acts a cofactor for the gamma-carboxylation of several proteins in the coagulation cascade. The clinical spectrum of vitamin K deficiency (VKD) can be asymptomatic to a significant bleeding. VKD is classically seen in newborns. However, this can manifest later in patients with risks such as sub-optimal nutrition, fat malabsorption, medications including antibiotics. A 17-year-old male with spinal muscular atrophy (SMA) Type 1, tracheostomy with ventilator dependent, gastrostomy tube feeding was seen by the gastroenterologist following treatment for small intestinal bacterial overgrowth (SIBO). Investigations showed coagulopathy following which he was transferred to the Pediatric ICU. Labs revealed prothrombin time (PT) 114 s [Normal 9.4-12.5 s], INR (International normalized ratio) 12.6 [Normal < 1.1] and partial thromboplastin time (PTT) 90 s [Normal 25.1-36.5 s]. Mixing studies and coagulation assays were consistent with VKD (low Factor VII and Factor IX with normal Factor V). His home blenderized feeding regimen met the caloric requirement but not the adequate intake (AI) values for vitamin K and other minerals. He received intravenous vitamin K (phytonadione) for five consecutive days with resolution of the coagulopathy (PT 13.2 s, PTT 37.1 s, INR 1.2). The patient was discharged on enteral vitamin K and additional supplements following dietary review by a nutritionist. Clinicians should be cognizant of VKD in patients on blenderized tube feeds which may not meet the adequate intake (AI) goals. In patients who are not receiving nutritionally complete formulas or receiving inadequate volumes, it is important to monitor macro and micronutrients.
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Shock-tube Investigation Of Ignition Delay Times Of Blends Of Methane And Ethane With OxygenWalker, Brian Christopher 01 January 2007 (has links)
The combustion behavior of methane and ethane is important to the study of natural gas and other alternative fuels that are comprised primarily of these two basic hydrocarbons. Understanding the transition from methane-dominated ignition kinetics to ethane-dominated kinetics for increasing levels of ethane is also of fundamental interest toward the understanding of hydrocarbon chemical kinetics. Much research has been conducted on the two fuels individually, but experimental data of the combustion of blends of methane and ethane is limited to ratios that recreate typical natural gas compositions (up to ~20% ethane molar concentration). The goal of this study was to provide a comprehensive data set of ignition delay times of the combustion of blends of methane and ethane at near atmospheric pressure. A group of ten diluted CH4/C2H6/O2/Ar mixtures of varying concentrations, fuel blend ratios, and equivalence ratios (0.5 and 1.0) were studied over the temperature range 1223 to 2248 K and over the pressure range 0.65 to 1.42 atm using a new shock tube at the University of Central Florida Gas Dynamics Laboratory. Mixtures were diluted with either 75 or 98% argon by volume. The fuel blend ratio was varied between 100% CH4 and 100% C2H6. Reaction progress was monitored by observing chemiluminescence emission from CH* at 431 nm and the pressure. Experimental data were compared against three detailed chemical kinetics mechanisms. Model predictions of CH* emission profiles and derived ignition delay times were plotted against the experimental data. The models agree well with the experimental data for mixtures with low levels of ethane, up to 25% molar concentration, but show increasing error as the relative ethane fuel concentration increases. The predictions of the separate models also diverge from each other with increasing relative ethane fuel concentration. Therefore, the data set obtained from the present work provides valuable information for the future improvement of chemical kinetics models for ethane combustion.
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Diagnosing Anencephaly In Archaeology: A Comparative Analysis Of Nine Clinical Specimens From The Smithsonian Institution NationMathews, Stevie 01 January 2008 (has links)
The inclusion of human fetal skeletons in the archaeological record can reveal much about past cultures' perception of life and death. The preservation of fetal remains in the archaeological record is a rarity, and the discovery of pathological skeletons is even rarer. A fetal skeleton from a Roman period cemetery (c. 31BC - 303AD) in the Dakhleh Oasis, Egypt, displays what are thought to be classic skeletal indicators of the neural tube defect, anencephaly. The published literature concerning the skeletal diagnosis of anencephaly is scant so in order to diagnose this individual it is pertinent to create a diagnostic standard. The purpose of this thesis is twofold - first to create a quantitative standard from which researchers can determine the presence of anencephaly in the archaeological record, thus ruling out trauma or taphonomic processes as reasons for missing cranial elements. The second objective of this research is to conduct a qualitative comparison in order to diagnose the individual from the Dakhleh Oasis. A comparative analysis of nine documented anencephalic skeletal remains housed at the Smithsonian Institute was conducted to create a diagnostic standard for the skeletal characteristics of anencephaly. The comparative analysis of the Dakhleh specimen supports the diagnosis of anencephaly.
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Characterization Of A Hydrogen-based Synthetic Fuel In A Shock TubeFlaherty, Troy 01 January 2009 (has links)
Shock-tube experiments were performed with syngas mixtures near atmospheric pressure with varying equivalence ratios behind reflected shock waves. Pressure and hydroxyl radical (OH*) emission traces were recorded and used to calculate ignition delay time for a single mixture at equivalence ratios of [phi ]=0.4, 0.7, 1.0, and 2.0 over a range of temperatures from 913-1803 K. The syngas mixture was tested at full concentration as well as with 98% dilution in Argon. The full concentration mixtures were used to compare ignition delay time measurements with the theoretical calculations obtained through the use of chemical kinetics modeling using the Davis et al. mechanism. The dilute mixtures were used to study the OH* emission profiles compared to those of the kinetics model. The model was in poor agreement with the experimental data especially at lower temperatures with an ignition delay difference of more than an order of magnitude. These ignition delay time data supplement the few existing data and are in relative agreement. The species profile comparison of OH* compared to the model also showed poor agreement, with the worst agreement at the highest temperatures. While the disagreements with ignition delay time and profile comparisons cannot be explained at this time, the data presented support other findings. The data provide additional information towards understanding this disagreement relative to syngas mixtures despite the relatively well known kinetics of the primary constituents Hydrogen and Carbon Monoxide.
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Development Of Design Equations For A Square-tube Subbase Supporting A Shaft-mounted Speed ReducerBrown, William E. III 18 January 2002 (has links)
Shaft mounted speed reducers are used in material handling applications, such as conveyor systems for transporting ore out of mine shafts. A subbase joins the reducer with an electric motor, and serves to limit the misalignment between the motor shaft and the reducer input shaft. The entire assembly is supported at two points: the axis of rotation of the reducer output shaft, which is fixed, and a clevis-pin joint under the motor, which prevents rotation of the assembly about the reducer output shaft axis.
In an effort to reduce the production and material costs of subbases that support shaft mounted reducers, Rexnord Corp. is implementing subbase designs that are lighter weight and easier to manufacture than current designs. Impeding the implementation of lower cost designs is the lack of an equation to properly choose subbase dimensions for acceptable values of shaft misalignment. Trial and error in subbase construction may provide designs that give acceptable results for misalignment. Given an equation, however, the weight could be minimized while still limiting misalignment at the coupling location. The project goal is to provide equations that give shaft misalignment as a function of three subbase parameters: tube thickness, mounting strap width, and end cap thickness.
Developing design equations by analytical methods is investigated first. Next, finite element models are used to check the analytical results for accuracy. Finally, finite element models are used to perform design sensitivity studies where needed. The final equations for misalignment are given as functions of the three design variables. / Master of Science
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Effect of heat stress on in vitro pollen germination and pollen tube elongation of Chenopodium quinoa and wild relativesMorris, Angel 11 1900 (has links)
Climate change is one of the biggest challenges facing agriculture today. Transient or prolonged heat stress can be detrimental to plant reproductive development. The male gametophyte, pollen, is particularly sensitive to heat stress, resulting in sterile pollen (pre-anthesis) or deformed/stunted pollen tubes (post-anthesis).
Quinoa (Chenopodium quinoa Willd.) has recently seen a rise in global interest due to its nutritional qualities, but global expansion of quinoa is partially hindered by its susceptibility to heat. It has been hypothesized that introgression of heat tolerance traits from wild relatives that occupy warmer environments can increase thermotolerance in quinoa. The goal of this research was to investigate the effect of heat stress on mature pollen grains from quinoa and its wild relatives, C. berlandieri and C. hircinum.
To answer this question, several experiments were performed:
1. The nuclear number of the pollen of wild relatives was assessed to determine whether mature pollen grains were released at the trinucleate stage. All pollen was found to be trinucleate.
2. Pollen germination medium was optimized for four accessions: C. quinoa (QQ74; PI 614886), C. berlandieri var. zschackei (CB; BYU14118), and C. hircinum (CHA; Hircinum-069 and CHC; BYU17105). Optimal sucrose and PEG concentrations were determined to be: 5% sucrose/20% PEG for QQ74 and CB; 20% sucrose/0% PEG for CHA; and 10% sucrose/20% PEG for CHC.
3. Temperature optima for pollen germination for QQ74 was 32°C-36°C; CB was 30°C-34°C; CHA was 36°C; and CHC was 32°C -34°C. Overall, pollen from wild relatives was not found to be more heat-tolerant than pollen from domesticated quinoa.
4. Pollen tube elongation over time was observed for all four accessions at 34°C and 38°C, with CHA and QQ74 having the lowest decrease in rate at 38°C (35 and 45%, respectively).
This study provides a new method for pollen collection for quinoa and its wild relatives, further optimizes the pollen germination media for QQ74, introduces pollen germination media for three wild accessions, and investigates the effect of heat stress on mature pollen grains. These observations can be employed in future studies investigating heat stress response of pollen in quinoa and its wild relatives.
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BOURDON Tube StudiesLee, Edward Tong 05 1900 (has links)
The objective of this study is to elucidate as much as possible the theory and analysis of BOURDON tubes. Both thick-walled and thin-walled tubes are considered. Three papers, representative of the state-of-the-art of BOURDON tube analysis, are reviewed (References 1, 2, and 6): <p> 1. Wuest, W. "Theory of High-Pressure BOURDON Tubes". </p><p> 2. Andreeva, L. E>, "Elastic Elements of Instruments" </p> <p> 3. Dressler, R., "Elastic Shell-Theory Formulation for BOURDON Tubes" </p><p> Reanalysis of (3) above, with a different approach (Appendix A) checked and completed the general formulation by Dressler. The final forms of all necessary equations, boundary conditions, etc. to the solution of the three governing equations of the BOURDON tube with an elliptical cross-section are given. </p><p> Comparison of results of Andreeva's sensitivity equation with test data of Kardos, Mason and Exline (References 3, 4 and 5) using a qualitative approach as set out by Kardos (References 3 and 17) showed good correlation. </p><p> The study concludes with recommendations for the approach of future research and preliminary design procedures for BOURDON tubes. </p> / Thesis / Master of Engineering (ME)
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The PATCH program for caregivers of children with gastrostomy tubes: promoting and teaching confidence for the homeLopez, Maria Isabella 19 June 2019 (has links)
The PATCH Program: Promoting and Teaching Confidence for the Home is a distinct approach developed to address the problem of high emergency department visit (8.6%) and hospital readmission rates (3.9%) associated with pediatric gastrostomy tube (GT) placement (Goldin et al., 2016). Recent literature regarding negative outcomes associated with pediatric GT placement identified the failure of current GT education and training practices to properly prepare caregivers to manage care in the home (Berman et al., 2017; Franklin & Rodger, 2003; Russell, Jewell, Poskey, & Russell, 2018). Developed by an occupational therapist, the PATCH Program offers an innovative approach to reducing facility rates of negative pediatric GT-related outcomes through family-centered education and self-efficacy enhancing components. Theory-based and evidence-driven, the PATCH Program integrates problem-solving training, formal education, and interactive skills practice to empower caregivers in developing the skills and self-efficacy needed to manage their children’s GT care. Adopting an occupational therapy perspective, the PATCH Program acknowledges that effective home management of a child’s GT care is the product of careful integration of familial context, skills, resources, and support systems. This doctoral project (1) summarizes the theory and evidence base supporting the PATCH Program’s development, (2) describes the PATCH Program curriculum and approaches, and (3) outlines future directions for PATCH Program implementation, including evaluation, dissemination, and funding. The PATCH Program demonstrates the value occupational therapy offers to supporting families in successfully managing a child’s medically complex condition, to reducing post-surgical emergency department visits and hospital readmissions, and to promoting health and wellness among caregivers and families.
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Hypersonic Aero-Optic Measurements in a High-Pressure Shock TubeMcGaunn, Jonathan P 01 January 2023 (has links) (PDF)
The high-pressure shock tube facility (HiPER-STAR) at the University of Central Florida (UCF) is analyzed experimentally to demonstrate the practicality of hypersonic aero-optical testing in an impulse facility without the use of an expansion nozzle or acceleration tube. The investigation analyses driver gas blending with helium and hydrogen to raise the speed of sound ratio in an attempt to increase the Mach number for aero-optics testing. HiPER-STAR has a unique ability to withstand pressures up to 1000 atm and run in a double diaphragm configuration allowing for a significant pressure differential to be created between the driver and driven sections. Results from this study show that hydrogen and helium blending can drastically increase the maximum Mach number of HiPER-STAR; Mach numbers up to 15 were generated at a variety of altitudes. Experiment test time varied on shock velocity but was purely dependent on the arrival of the reflected shock wave to measurement locations. The aero-optics data that was collected and visually captured with a high-speed camera clearly shows beam aberration due to density gradients and a diminishing light intensity indicating that hypersonic aero-optical phenomenon can be captured reliably and repeatedly with a shock tube.
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