Global ETD Search

1	Deoxidation control in the electric arc furnace using oxygen probe measurements Rao, Yalamanchili Bhaskara 12 1900 (has links) No description available. Thermodynamics Steel Oxygen content Metals Deoxidizing
2	A comparative study of oxygenation techniques in the hydroponic cultivation of Pelargonium Tomentosum Butcher, Joshua David January 2016 (has links) Thesis (MTech (Horticultural Science))--Cape Peninsula University of Technology, 2016. / This aim of this study was to investigate the viability of growing P. tomentosum in deep water culture (DWC) hydroponics and to assess the effects of various methods of oxygenating the nutrient solution with regards to growth, development and chlorophyll responses. The experiment was conducted over a period of 74 days. In chapter 3, 16 different methods of oxygenation were applied to 9 replicates. The control had passive aeration. The treatments were made up of air-pumps, vortex oxygenators and the application of hydrogen peroxide (H2O2) at various frequency intervals; these were combined with each other and run as separate oxygenation methods. Hydroponics Pelargoniums -- Cultivation Pelargoniums -- Planting Plants -- Oxygen content
3	The plasma adenosine triphosphate response to dynamic handgrip exercise Wood, Rachel Elise January 2008 (has links) Despite over a century of inquiry, the mechanisms that achieve the close matching of oxygen supply to demand during exercise remain elusive. It has been proposed that in addition to its role as the primary oxygen carrier, the red blood cell (RBC) functions as a roving oxygen sensor, linking the oxygen demand at the muscle with oxygen delivery via the circulation (Ellsworth et al. 1995). It is hypothesised that the RBC would release adenosine triphosphate (ATP) in proportion to the number of unoccupied binding sites on the haemoglobin molecule as it traverses regions of high oxygen demand such as the microcirculation of active skeletal muscle. ATP would then stimulate the release of vasodilatory substances from the endothelium which would diffuse to neighbouring vascular smooth muscle resulting in vasodilation and an increase in blood flow in accordance with the oxygen demand set by the muscle. The first step in establishing a role for this mechanism during exercise in humans is to determine whether ATP increases in the venous blood draining an active muscle bed. Based on the handful of published studies, there is an increase in ATP concentration in the femoral vein during knee extensor exercise. However the response has not been studied in other vascular beds in humans. As such, the main aim of this thesis was to measure the ATP response to dynamic handgrip exercise. Secondary aims were to determine whether the response was modified by hypoxia, and to provide information about the timing of the changes in ATP concentration during a bout of handgrip exercise. These questions were addressed in Studies 3 and 4. Because blood flow is central to this hypothesis, a substantial portion of this thesis was also associated with the measurement of forearm blood flow (FBF) using venous occlusion strain gauge plethysmography (VOSGP), and this was conducted in Studies 1 and 2. VOSGP is based on the assumption that with venous outflow prevented, any increase in limb volume is proportional to the rate of arterial inflow. The rate of arterial inflow is determined as the slope of the change in limb volume over time. The slope must be calculated over the initial linear portion of this relationship, when arterial inflow is unaffected by the inevitable rise in venous pressure associated with venous occlusion. VOSGP was initially used to measure blood flow at rest and in response to pharmacological interventions which produced only modest increases in arterial inflow (Joyner et al. 2001). However, measurement of the high rates of arterial inflow that occur with exercise may challenge the limits of this technique. Tschakovsky et al. (1995) reported a marked reduction in arterial inflow over the first four cardiac cycles during venous occlusion following static handgrip exercise that elevated blood flow to 22-24 mL/min/100mL. Only during the first cardiac cycle was arterial inflow unaffected by cuff inflation. As such, the window for measuring high rates of arterial inflow may be very brief. Therefore Study 1 aimed to determine whether blood flow could be measured using VOSGP across the range of arterial inflows that occur with dynamic handgrip exercise. Participants (n = 7) completed four, five-minute bouts of dynamic handgrip exercise at 15, 30, 45, and 60% of maximum voluntary contraction (MVC). FBF was measured using VOSGP at rest, and following five minutes of dynamic handgrip exercise. The slope of the change in limb volume was measured over the first one, two, three, and four consecutive cardiac cycles following the onset of occlusion. FBF was 2.5 ± 0.5 at rest, and 16.5 ± 4.9, 24.9 ± 9.4, 44.1 ± 22.0, and 57.8 ± 14.9 mL/min/100mL following five minutes of exercise at 15, 30, 45, and 60% MVC, respectively. At rest, arterial inflow decreased across the four cardiac cycles (P = 0.017 for the main effect), however post-hoc pairwise comparisons revealed no significant differences between any of the cardiac cycles. In contrast, the inclusion of two, three, or four cardiac cycles at 30 and 60% MVC, and three or four cardiac cycles at 15 and 45% MVC resulted in reductions in calculated arterial inflow compared with using the first cardiac cycle alone (P > 0.05). The inclusion of just two cardiac cycles resulted in a 9-26% reduction in calculated arterial inflow depending on the workload. This reduction was even more pronounced when three (19-40%) or four (26-50%) cardiac cycles were included. In conclusion, resting FBF can be calculated over at least four cardiac cycles during venous occlusion at rest. However, exercising FBF should be calculated from the first cardiac cycle only following dynamic handgrip exercise across the range of intensities used in this study. This extends the findings of Tschakovsky et al. (1995) who demonstrated this effect following handgrip exercise at a single intensity. Study 2 was designed to establish the FBF response to dynamic handgrip exercise, whether the workloads produced different blood flow responses, and to establish the within- and between-day reproducibility of FBF measured using VOSGP. In Part A (within-day reproducibility), participants (n = 7) completed three trials of dynamic handgrip exercise at four intensities (15, 30, 45, and 60% MVC), with each exercise trial separated by 10 minutes of rest. In Part B (between-day reproducibility) participants (n = 7) completed three trials of dynamic handgrip exercise at 15, 30, and 45% MVC on three separate days within a two week period. FBF was measured at rest, and each minute of exercise during brief (5-7 second) pauses in contractions. FBF response. FBF increased from rest at all workloads (P > 0.05), and then plateaued between Minutes 1 to 5 at the 15 and 30% MVC workloads and between Minutes 2 and 5 at the 45% workload (P > 0.05 for each minute compared to Minute 5). Too few participants completed the 60% workload to permit any statistical analysis. FBF reached values of 13.0 ± 2.0, 26.8 ± 8.4, 44.8 ± 14.9, and 52.9 ± 5.1 mL/min/100mL in the final minute of exercise at the 15, 30, 45, and 60% MVC workloads. FBF was different between the 15, 30, and 45% workloads by Minute 3 (P > 0.05). Reproducibility. The within-day test-retest reliability of exercising FBF was poor to moderate (ICC = 0.375-0.624) with individual coefficients of variation (CVs) ranging from 6-25%, 9-23%, and 9-31% for the 15, 30, and 45% MVC workloads, respectively. The between-day test-retest reliability for resting FBF was moderate (ICC = 0.644, P > 0.05; individual CVs between 1 and 31%). Between-day test-retest reliability for exercising FBF was poor to moderate (ICC = 0.381-0.614), with individual CVs ranging from 14-24%, 8-23%, and 6-18% for the 15, 30, and 45% workloads, respectively. It was concluded from this study that VOSGP provides adequately reproducible measurements to detect changes in FBF of the magnitude seen between workloads in this study. However, the variability in the measurement precludes its use when smaller differences are of interest. Based on the previous findings reporting an increase in ATP concentration during dynamic knee extensor exercise in the leg (Gonzalez-Alonso et al. 2002; Yegutkin et al. 2007), Study 3 was designed to determine whether ATP concentration increased in the venous effluent during dynamic handgrip exercise in the forearm. Since the deoxygenation of haemoglobin is a primary stimulus for ATP release from red blood cells, a further aim was to determine whether this response was augmented by systemic hypoxia. Participants (n = 6) completed four, five-minute bouts of dynamic handgrip exercise at 30, 45, 65, and 85% MVC under normoxia (inspired oxygen fraction = 0.21) and hypoxia (inspired oxygen fraction = 0.12). Blood samples for the determination of ATP concentration were drawn at rest and 180 seconds after the onset of exercise at each workload from a catheter inserted into a forearm vein. Venous plasma ATP concentration at rest was 0.28 ± 0.11 μM/L and remained unchanged during exercise at workloads up to 85% MVC (P > 0.05). Systemic hypoxia, sufficient to reduce arterial oxygen saturation to 83 ± 2%, also failed to alter the plasma ATP concentration (P = 0.148). The lack of a change in ATP concentration was unexpected but there are several possible explanations. It is possible, although unlikely, that ATP was not released in the forearm microcirculation. The previous demonstration that ATP increased in response to static handgrip exercise (Forrester and Lind 1969) would suggest that this was probably not the case. When considered in the context of the findings from Study 4, the most plausible explanation is that a less than optimal blood sampling site may have hindered the measurement of a change in ATP. The blood flow response at the onset of dynamic exercise in the forearm is at least biphasic; Phase 1 describes the immediate, large increase in blood flow within 2 seconds of the onset of exercise and is believed to be governed by mechanical factors whereas Phase 2 has a latency of ~20 seconds and describes a further, slower increase until blood flow reaches steady state (Saunders et al. 2005b). The temporal characteristics of Phase 2, along with the fact that blood flow during this phase is closely related to the metabolic rate of the muscle, suggest regulation by metabolic factors. Currently there is scant evidence detailing the time course of vasodilator release, although it is important to demonstrate that the release of a vasodilatory substance precedes the blood flow response it is proposed to influence (Delp 1999). ATP is released from red blood cells in proportion to the offloading of oxygen and a reduction in the oxygen content of venous blood draining a muscle bed occurs within 10 seconds of the onset of exercise. Thus the release of ATP should follow soon thereafter. As such, Study 4 was designed to determine whether ATP increased in the venous effluent of the forearm following 30 and 180 seconds of dynamic handgrip exercise at 45% MVC; and whether this increase corresponded with a decrease in venous oxygen content. Participants (n = 10) completed two bouts of dynamic handgrip exercise at 45% MVC; the first was one minute in duration, and the second was four minutes in duration. Venous blood samples for the determination of ATP and venous oxygen content were drawn at rest and during exercise from a catheter inserted in a retrograde manner into the median cubital vein. Arterialised samples for the estimation of arterial blood gases and ATP concentration were obtained from the non-exercising hand. ATP concentration in arterialised blood from the non-exercising arm was 0.79 ± 0.30 μM/L at rest and remained unchanged at both time points during exercise (P > 0.05). ATP concentration in the venous blood of the exercising arm increased from 0.60 ± 0.17 μM/L at rest to 1.04 ± 0.33 μM/L 30 seconds after the onset of exercise (P > 0.05), and remained at this higher level after 180 seconds (0.92 ± 0.26 μM/L, P > 0.05 versus rest). This corresponded with a decrease in venous oxygen content from 103 ± 23 mL/L at rest to 68 ± 16 mL/L 30 seconds after the onset of exercise (P > 0.05) and 76 ± 15 mL/L (P > 0.05 versus rest) 180 seconds into exercise. Furthermore, at 180 seconds of exercise, ATP concentration was moderately and inversely related to venous oxygen content (r = -0.651, p > 0.05). In conclusion, this study provides the first evidence that ATP concentration is increased in the blood draining the exercising forearm muscles in response to dynamic handgrip exercise. The finding that ATP concentration was increased just 30 seconds after the onset of exercise is also novel, and particularly interesting in the context of the recently reported dynamic response characteristics of the forearm blood flow response. In conclusion, the work contained within this thesis provides several important findings. The first study has provided evidence that measuring high rates of arterial inflow using VOSGP is possible, but that the window for making these measurements is small, probably as brief as a single cardiac cycle. The second study demonstrated that while the reproducibility of forearm blood flow measurements using VOSGP is poor, it is adequate to detect the large changes that occurred between workloads. However, VOSGP cannot be used to detect more modest differences. Common to both Study 3 and 4 was the measurement of ATP at rest, and 180 seconds after the onset of dynamic handgrip exercise at 45% MVC. The primary difference was the position of the catheter which was inserted in an antegrade manner in Study 3, and in a retrograde manner in Study 4. Since ATP was unchanged in Study 3 but increased under similar conditions in Study 4, it is likely that ATP was also released during exercise in Study 3, but that a less than optimal blood sampling site precluded its measurement. This illustrates the necessity to sample blood from as close as possible to the probable site of ATP release, the muscle microcirculation. The most important and novel findings from this body of work come from Study 4. This is the first study to demonstrate an increase in ATP concentration in the forearm in response to dynamic handgrip exercise. However, the most novel finding was that ATP concentration was elevated just 30 seconds after the onset of exercise. Such an early increase has not previously been reported during dynamic exercise in any vascular bed. This is an important finding since establishing the time course for the release of vasodilatory substances is critical to our understanding of the mechanisms that regulate blood flow during exercise. forearm blood flow dynamic handgrip exercise adenosine triphosphate venous oxygen content
4	Timing and Characterization of the Change in the Redox State of Uranium in Precambrian Surface Environments: A Proxy for the Oxidation State of the Atmosphere Pollack, Gerald D. 08 December 2008 (has links) The redox-sensitive geochemical behavior of uranium permits the use of Th/U ratios as a geochemical proxy for the oxidation state of the atmosphere and oceans during sedimentary processes. Due to the effects of post-depositional uranium mobility on Th/U ratios during events involving oxygenated fluids, direct measurements of Th/U ratios are often misleading, but the whole rock Pb isotope composition may be used to determine a sample¡¦s apparent time-integrated Th/U ratio (ƒÛa) and the timing associated with the onset of the U-Th-Pb geochemistry. Rare earth element (REE) concentrations were determined by isotope dilution mass spectrometry to evaluate the influence of multiple provenance components and potential mobility of Th, U, and Pb during post-depositional processes on the Th/U ratio. The Pb isotope compositions and REE concentrations were determined for six Paleoproterozoic sedimentary sequences, which were the focus of previous studies involving the timing of the rise of atmospheric oxygen. The Mount McRae Shale, Huronian Supergroup, and Zaonezhskaya Formation have been interpreted as experiencing post-depositional alteration (perhaps associated with orogenic events) due to Pb-Pb ages that are younger than the likely depositional age and observed fractionation of REE in chondrite normalized REE patterns and interelement REE ratios (e.g. La/Nd, La/Yb, Eu/Eu*). Similar geochemical proxies have been interpreted as sedimentary geochemical features of the Timeball Hill Formation, Hotazel Formation, and Sengoma Argillite Formation. This study of Paleoproterozoic sedimentary units constrains the onset of U-Th decoupling, most likely due to the onset of oxidative weathering conditions, began by 2.32 Ga, the latest. Pb isotopes rare earth elements Th/U ratios time-integrated Atmospheric evolution oxygen content of the atmosphere U-Th decoupling Geography Geology
5	The impact of core temperature corrections on exercise-induced hypoxemia. Shipp, Nicholas Jon January 2008 (has links) The primary purpose of this doctoral dissertation was to investigate the effect of body temperature responses at physiologically relevant sites during an incremental exercise test on the phenomenon of exercise-induced hypoxemia (EIH). This phenomenon has been considered as an important limitation to physical performance with a prevalence of ~50 % in trained male athletes, but described in both sexes, across the range of both age and physical fitness in more recent literature. Previously this phenomenon has been described as a decrement in both arterial oxygen partial pressure (PaO₂) and oxy-haemoglobin saturation (SaO₂or SpO₂) with, particularly important for PaO₂, a lack of or inappropriate correction made for the change in body temperature during intense exercise. The initial study of this thesis determined the thermal response within the body at physiologically relevant sites measured simultaneously during an incremental exercise test. The results demonstrated the inadequacy of rectal temperature as an indicator of the acute temperature changes occurring during an incremental exercise test due to its slow response rate and relative thermal inertia. Radial arterial blood and oesophageal temperatures were shown to behave almost identically during the exercise test, albeit with an offset of approximately 1.3ºC, and were considered much more appropriate and relevant indicators of thermal changes during exercise. As an extension of the initial work active muscle temperature (vastus lateralis) was measured during the exercise test, demonstrating a significantly lower resting temperature than the oft-reported “core” temperatures (rectal and oesophageal) as well as a significantly greater increase in temperature in comparison to all other measurement sites. Overall, the results of this first study indicated that the physiologically relevant temperatures measured at the oesophageal and muscle sites differed markedly to the outdated rectal temperature measurement site and should be used as measures of thermal response when evaluating oxygen loading (oesophageal) or unloading (active muscle). Utilising the definition of EIH as a decrease in PaO₂ of ≥ 10 mmHg, the effect of temperature correcting PaO₂ was evaluated in the second study. Arterial blood gases measured simultaneously to the temperature measurements during the incremental exercise test were adjusted for the temperature changes at each site (every 1ºC increase in temperature will increase a PaO₂ value by ~5 mmHg). Whilst uncorrected PaO₂ values indicated an almost 100% prevalence of EIH in this group, oesophageal temperature corrected PaO₂ values decreased this prevalence to ~50% while muscle temperature corrections resolved all cases of EIH and demonstrated an HYPEROXAEMIA (i.e. the reverse of the well-established phenomenon) in the majority of subjects. Further investigation of arterial oxygen content during the exercise test indicates that there is no disruption in the delivery of oxygen to the active muscles and therefore any performance decrement should be attributed to another mechanism. Whilst the phenomenon of EIH is determined by the definition applied and the use of temperature corrections in the case of PaO₂, its reproducibility in a test-retest situation had not previously been determined. Utilising a subset of previously tested subjects, the reproducibility of both temperature and PaO₂ were determined with results indicating that the blood gas response was highly reproducible, especially the minimum PaO₂ value noted during each exercise test. However, comparing a more statistically relevant definition of a change in PaO₂ of ± 2 standard deviations from the mean resting PaO₂ to the previous delimiter of 10 mmHg indicated a lesser reproducibility of the prevalence of EIH. In summary, this thesis exposes the inadequacies of previous research into EIH with regard to the expected reproducibility of the phenomenon and the need to correctly adjust PaO₂ values for exercise-induce hyperthermia as well as demonstrating the difference in thermal responses to acute exercise in physiologically significant areas of the body. Furthermore, previously described correlations between the change in PaO₂ and VO₂ max were not evident in the subjects tested within this thesis, nor was there any indication of a diffusion limitation based on reduced pulmonary capillary transit time (by association with VO₂ max) or pulmonary oedema (rebuked by a rapid return of PaO₂ to above resting levels following exercise cessation). / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320633 / Thesis (Ph.D.) -- University of Adelaide, School of Medicine, 2008 Exercise -- Physiological aspects. Anoxemia -- Physiological effect. Temperature -- Physiological effect. Body temperature -- Measurement. Body temperature -- Regulation.
6	The impact of core temperature corrections on exercise-induced hypoxemia. Shipp, Nicholas Jon January 2008 (has links) The primary purpose of this doctoral dissertation was to investigate the effect of body temperature responses at physiologically relevant sites during an incremental exercise test on the phenomenon of exercise-induced hypoxemia (EIH). This phenomenon has been considered as an important limitation to physical performance with a prevalence of ~50 % in trained male athletes, but described in both sexes, across the range of both age and physical fitness in more recent literature. Previously this phenomenon has been described as a decrement in both arterial oxygen partial pressure (PaO₂) and oxy-haemoglobin saturation (SaO₂or SpO₂) with, particularly important for PaO₂, a lack of or inappropriate correction made for the change in body temperature during intense exercise. The initial study of this thesis determined the thermal response within the body at physiologically relevant sites measured simultaneously during an incremental exercise test. The results demonstrated the inadequacy of rectal temperature as an indicator of the acute temperature changes occurring during an incremental exercise test due to its slow response rate and relative thermal inertia. Radial arterial blood and oesophageal temperatures were shown to behave almost identically during the exercise test, albeit with an offset of approximately 1.3ºC, and were considered much more appropriate and relevant indicators of thermal changes during exercise. As an extension of the initial work active muscle temperature (vastus lateralis) was measured during the exercise test, demonstrating a significantly lower resting temperature than the oft-reported “core” temperatures (rectal and oesophageal) as well as a significantly greater increase in temperature in comparison to all other measurement sites. Overall, the results of this first study indicated that the physiologically relevant temperatures measured at the oesophageal and muscle sites differed markedly to the outdated rectal temperature measurement site and should be used as measures of thermal response when evaluating oxygen loading (oesophageal) or unloading (active muscle). Utilising the definition of EIH as a decrease in PaO₂ of ≥ 10 mmHg, the effect of temperature correcting PaO₂ was evaluated in the second study. Arterial blood gases measured simultaneously to the temperature measurements during the incremental exercise test were adjusted for the temperature changes at each site (every 1ºC increase in temperature will increase a PaO₂ value by ~5 mmHg). Whilst uncorrected PaO₂ values indicated an almost 100% prevalence of EIH in this group, oesophageal temperature corrected PaO₂ values decreased this prevalence to ~50% while muscle temperature corrections resolved all cases of EIH and demonstrated an HYPEROXAEMIA (i.e. the reverse of the well-established phenomenon) in the majority of subjects. Further investigation of arterial oxygen content during the exercise test indicates that there is no disruption in the delivery of oxygen to the active muscles and therefore any performance decrement should be attributed to another mechanism. Whilst the phenomenon of EIH is determined by the definition applied and the use of temperature corrections in the case of PaO₂, its reproducibility in a test-retest situation had not previously been determined. Utilising a subset of previously tested subjects, the reproducibility of both temperature and PaO₂ were determined with results indicating that the blood gas response was highly reproducible, especially the minimum PaO₂ value noted during each exercise test. However, comparing a more statistically relevant definition of a change in PaO₂ of ± 2 standard deviations from the mean resting PaO₂ to the previous delimiter of 10 mmHg indicated a lesser reproducibility of the prevalence of EIH. In summary, this thesis exposes the inadequacies of previous research into EIH with regard to the expected reproducibility of the phenomenon and the need to correctly adjust PaO₂ values for exercise-induce hyperthermia as well as demonstrating the difference in thermal responses to acute exercise in physiologically significant areas of the body. Furthermore, previously described correlations between the change in PaO₂ and VO₂ max were not evident in the subjects tested within this thesis, nor was there any indication of a diffusion limitation based on reduced pulmonary capillary transit time (by association with VO₂ max) or pulmonary oedema (rebuked by a rapid return of PaO₂ to above resting levels following exercise cessation). / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1320633 / Thesis (Ph.D.) -- University of Adelaide, School of Medicine, 2008 Exercise -- Physiological aspects. Anoxemia -- Physiological effect. Temperature -- Physiological effect. Body temperature -- Measurement. Body temperature -- Regulation.
7	Projeto industrial para aeração automática de leiras de compostagem orgânica / Industrial project for automated aeretion of organic composting piles Figueira Júnior, Edson Alves 30 March 2012 (has links) Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Composting is a safety environmental alternative to reuse and treat organic wastes produced by human-beings. Although decomposition naturally happens, the handling of some factors, such as oxygen level, temperature, moisture content and pH, can alter the process speed, accelerating microbial activity. Aeration is a crucial practice during the composting process, since it can ensure adequate oxygen supply, temperature control and moisture content reduction in the windrows. Therefore, this work aimed to develop an automated process of compost pile aeration in order to accelerate and optimize the production of biofertilizers in an industrial plant. The trial was carried out at Valoriza Fertilizantes Company located in the city of Uberlândia - MG. Based on previous tests done in the company s standard ventilation system an automated system of forced aeration (SAFA) was projected. After installing this system, moisture content, oxygen level and temperature tests were performed aiming to verify the efficiency of the developed aeration system. / A compostagem é uma alternativa ambientalmente correta para o aproveitamento e tratamento dos resíduos orgânicos gerados pelo homem. Apesar de a decomposição ocorrer naturalmente, a manipulação de alguns fatores, como o nível de oxigênio, a temperatura, o teor de umidade e o pH, podem alterar a velocidade do processo, acelerando a atividade microbiana. A aeração é uma prática crucial durante o processo de compostagem, pois pode garantir suprimentos adequados de oxigênio, controlar a temperatura e reduzir o teor de umidade nas leiras. Objetivou-se neste trabalho desenvolver um processo automatizado de aeração de leiras de compostagem para acelerar e otimizar a produção de biofertilizantes em uma planta industrial. O experimento foi conduzido na Empresa Valoriza Agronegócios com sede na cidade de Uberlândia - MG. Baseado em testes realizados no sistema de ventilação padrão da empresa foi projetado um sistema de aeração forçada automatizado (SAFA). Após a instalação do sistema, testes de umidade, do teor de oxigênio e de temperatura foram realizados para verificar a eficiência do sistema de aeração desenvolvido. / Mestre em Engenharia Mecânica Adubos compostos Solos - Aeração Compostagem orgânica Teor de oxigênio Temperatura Organic composting Automated system of forced aeration Oxygen content and temperature CNPQ::ENGENHARIAS::ENGENHARIA MECANICA
8	Modellering av flöden och syrgasförhållanden i Dannemorasjön och dess tillrinningsområde / Modelling water flow and oxygen content in Lake Dannemorasjön and its catchment area Stenius, Seija January 2007 (has links) Det hydrologiska systemet i Dannemorasjöns avrinningsområde, beläget i norra Uppland, är mycket komplicerat och har förändrats genom åren på grund av mänskliga ingrepp. De naturliga sjöarna i området har vid flera tillfällen utsatts för stora sänkningsföretag, vars främsta syfte var att förhindra läckage till gruvan i Dannemora. Sjöarna har under lång tid använts som recipienter för samhällena och industrierna i Dannemora och Österbybruk. I området finns det flera dammar som användes som magasin för kraftproduktion till gruvan och järnhanteringen. Flera av dammarna skapades redan på 1600-talet. Syrgassituationen i Dannemorasjöns avrinningsområde är på många håll ansträngd och problemen har särskilt uppmärksammats för Dannemorasjön, Harvikadammen och Sundbroån men även andra sjöar i området är drabbade. Målsättningen med denna rapport är att kartlägga hydrologin i Dannemorasjöns tillrinningsområde, sammanställa fakta om dammar, vattendomar och genomförda vattenföretag, samt utarbeta ett förslag på förändring av flödesregimen och vattendragens utformning för att förbättra syrgasförhållandena i Dannemorasjön. För att kunna se hur en förändrad flödesregim påverkar syrgasförhållandena i Dannemorasjön har en flödesmodell upprättats för sjöns tillrinningsområde. Huvudsakliga indata har varit observerad specifik avrinning från Vattholma, strax nedströms Dannemorasjön. Till flödesmodellen har en modell som simulerar syrgashalten i Dannemorasjön vintertid kopplats. Simuleringsresultaten visar att en förändrad flödesreglering vintertid kan förbättra syrgassituationen i Dannemorasjön. För att denna regleringsstrategi ska bli effektiv krävs dock större magasineringskapacitet i dammarna eller tillskott av vatten genom t.ex. pumpning. Det framgår även från simuleringsresultaten att en vattenståndshöjning i sjön skulle gagna syrgassituationen under senvintern, dels p.g.a. en ökad total mängd syrgas i sjön vid isläggningen, dels genom en minskad syretäring per volymsenhet. Under vintrar med en lång isperiod samt liten tillrinning blir syrgasförhållandena i sjön extra kritiska. Sådana säsonger räcker det inte med en enskild åtgärd utan det krävs flera samordnade åtgärder för att skapa en acceptabel syrgassituation i sjön. / The hydrological system in the catchment area of Lake Dannemorasjön, in the northern part of Uppland, is very complicated and has been changed many times by human activities. The water level of many lakes in the area has been lowered at several occasions. Most of these operations have been made in order to prevent leakage from Lake Gruvsjön to the mine in Dannemora. Already in the 17th century many of the wetlands were dammed up to be used as water storage for water power production. The power was needed for the mine and iron production in the area. Many lakes have also for a long time been used as recipients for waste water. The oxygen content in the lakes and rivers in the area has frequently been reported as very low, especially in Lake Dannemorasjön, Lake Harvikadammen and the River Sundbroån. The aim of this study is to describe the hydrology in the catchment area of Lake Dannemorasjön, compile facts about the regulated spillways of the reservoirs and water regulation vertictsand to work out a plan for changing the water regime in order to increase the oxygen content in Lake Dannemorasjön during winter. A model that simulates the flow of water within the catchment and to Lake Dannemorasjön was developed. Another model that simulates the oxygen content in Lake Dannemorasjön during ice covered conditions was attached to the waterflow model. The results from the model show that a change in the regulation of the flow to Lake Dannemorasjön can increase the oxygen content in the lake. A prerequisite for the new regulation to be effective is that the storage capacity of Lake Harvikadammen is increased or that additional water is supplied to the dam, for instance by pumping water from Lake Dannemorasjön. It is also clear from the study that a raised water level of the lake would affect the oxygen content in a positive way. The oxygen problem becomes particularly serious during cold Winters with a long lasting ice cover. During such Winters it is not enough with just one measure to prevent oxygen deficit, several different kinds of measures must be undertaken in order to make sure that the oxygen content stays at a reasonably level. water management water quality oxygen content water flow modelling Lake Dannemorasjön vattenhushållning vattenkvalitet syrgaskoncentration flödesmodellering Dannemorasjön
9	Effets de l’hypoxie sur la régulation de l’expression et la fonction de la tétraspanine CD9 dans les leucémies aiguës lymphoblastiques de l’enfant / Effects of Hypoxia on the Regulation of the Expression and the Function of the CD9 Tetraspanin in Childhood Acute Lymphoblastic Leukemias Gaudichon, Jérémie 03 October 2018 (has links) Les leucémies aiguës lymphoblastiques (LAL) sont le cancer le plus fréquent chez l’enfant et dérivent le plus souvent de précurseurs lymphoïdes B. D’importants progrès thérapeutiques ont permis d’améliorer considérablement le pronostic. Néanmoins, 15 à 20 % des enfants rechutent encore. Ces rechutes peuvent survenir de façon isolée ou combinée dans la moelle osseuse, le site primitif des lymphoblastes, et/ou dans des organes extramédullaires tels que le testicule ou le système nerveux central. Notre équipe a montré que la protéine transmembranaire CD9 jouait un rôle majeur dans la migration des blastes dans ces sites et notamment le testicule, par l’activation de la voie RAC1 en réponse à la stimulation des cellules par le CXCL12. Ici, nous avons mis en évidence qu’un faible niveau d’oxygène, caractéristique commune aux niches médullaire et extramédullaires, régulait positivement l’expression de CD9 aux niveaux transcriptionnel et protéique, via la voie majeure de réponse à l’hypoxie, dépendante du facteur de transcription Hypoxia Inducible Factor 1a (HIF1a). Nous montrons que HIF1a se fixe directement sur le promoteur de CD9 pour induire sa transcription. Nous montrons aussi que la protéine CD9 est essentielle aux propriétés d’adhérence et de migration des blastes dans des conditions de basse oxygénation, et que son action pourrait s’exercer à travers RAC1 comme en normoxie. Nos résultats dans des expériences de xénogreffe à des souris indiquent que la voie HIF1a favorise la dissémination des blastes, possiblement à travers la régulation qu’elle exerce sur CD9. Ainsi, ce travail contribue à mieux comprendre le rôle de CD9 dans la pathogenèse des LAL de l’enfant. / Acute lymphoblastic leukemia (ALL) are the most frequent cancer in children and derive most often from B-cell precursors. Huge therapeutic improvements have allowed to reach high survival rates near 90% at 10 years from diagnosis. However, 15-20% of children still relapse with a significant risk of death. Relapses can occur in bone marrow and/or extramedullary sites such as testis or central nervous system, usually referred as “sanctuary sites”. Our previous work showed that the transmembrane protein CD9 plays a major role in lymphoblasts migration into these sites, especially in testis, through the activation of RAC1 signaling upon blasts stimulation with C-X-C chemokine ligand 12 (CXCl12). Here, we addressed the question of putative common factors shared by bone marrow and extramedullary niches which could upregulate CD9 expression and function. Consequently, we found that low oxygen levels could actually enhance CD9 expression both at mRNA and protein levels. We further determined that Hypoxia Inducible Factor 1a (HIF1a), the master transcription factor involved in hypoxia response, binds directly CD9 promoter to induce its transcription. We also showed that CD9 protein is crucial for leukemic cell adhesion and migration at low oxygen levels, possibly through its action on RAC1 signaling. Mouse xenograft experiments indicate that HIF1a signaling pathway favors ALL cells dissemination, which may involve CD9 as well. The present work increments our understanding of CD9 implication in ALL pathogenesis. Teneur en oxygène Protéine CD9 Tétraspanines Etv6-Runx1 Lymphoblastic leukemia in children Oxygen content CD9 protein Tetraspanins Etv6-Runx1
10	Antioxidant Activity of Ampelopsis Grossedentata Crude Extract and its Major Component Dihydromyricetin Ye, Liyun 25 August 2011 (has links) Oxidation limits the shelf life of many food products. Adding antioxidants to foods is the most common way to solve this problem. Reports on safety issues of synthetic food additives have raised consumer interest in "all natural" foods, without added antioxidants or with synthetic replaced with natural antioxidants. The natural antioxidants now in use are much more expensive and less potent than the synthetic antioxidants. Thus, effective and economical natural antioxidants are of great interest to researchers. Teng Cha is a type of herbal tea found in China that has reported high levels of antioxidants. Antioxidant activity of Teng Cha extract and its major component dihydromyricetin has been reported, but no studies have provided clear evidence for the antioxidant effectiveness of Tech Cha extracts. The goal of this study was to measure the antioxidant activity of Teng Cha extract and dihydromyricetin (DHM), a major component of Tech Cha extract. The DPPH assay was conducted and antioxidant activities of the crude extract and dihydromyricetin were evaluated in soybean oil based on the peroxide value, anisidine value, Totox value, headspace volatiles and headspace oxygen. Antioxidant effectiveness was also evaluated in a cooked beef model system. DHM was more potent than BHA in preventing soybean oil oxidation. The crude extract was not as effective as BHA and DHM, possibly because it contained transition metals. In cooked beef, DHM and the crude extract showed lower activity than BHA, possibly due to their low solubility. Overall, Teng Cha extract and DHM are potential natural food antioxidants for future applications. / Master of Science in Life Sciences Ampelopsis grossedentata antioxidant Teng Cha dihydromyricetin soybean oil oxidation peroxide value anisidine value Totox value headspace volatiles headspace oxygen content TBARS DPPH

Search results