505 research outputs found
Oxidative degradation of a novel AMP/AEP blend designed for CO2 capture based on partial oxy-combustion technology
Versión aceptada. Embargo 24 mesesSolvent degradation and volatile compound emissions are two of the major concerns about the deployment of carbon capture technologies based on chemical absorption. In this context, partial oxy-combustion might reduce the solvent degradation due to the use of a higher CO2 concentrated flue gas. This work evaluates the oxidative degradation of a novel AMP/AEP blend, namely POS #1, under partial oxy-combustion conditions. The effects of temperature and flue gas composition were evaluated in terms of solvent loss, degradation rates, NH3 emissions and degradation products. The experiments were set at temperatures up to 70 °C and two levels of O2 concentration – 3%v/v and 6%v/v. The CO2 concentration of the flue gas ranged between 15%v/v and 60%v/v CO2.
The novel solvent POS#1 showed high resistance to degrade and resulted in lower degradation rates than MEA in all the operating conditions evaluated in this work. The maximum degradation of AEP and AMP was 24% and 19%, respectively. MEA degraded almost double under the same conditions. Temperature and O2 concentration enhanced the oxidative degradation of POS #1. However, the use of higher CO2 concentration in the flue gas led to lower degradation rates of AEP and AMP and hence oxidative degradation was partially inhibited under partial oxy-combustion conditions. The presence of higher CO2 content in the flue gas decreased the NH3 production and a 70% reduction of its emissions was achieved as the CO2 concentration shifted from 15%v/v to 60%v/v. Other major degradation compounds such as formate and 2,4-lutidine were also decreased. New degradation products were not identified so that the suggested degradation pathways proposed in the literature were not influenced by the presence of higher CO2 concentrations.Ministerio de Economia y Competitividad CTM-2014-58573-RUnión Europea, European Development Research Fund (EDRF
Diversos actores, variedades, fuentes y transacciones en los sistemas de semilla de papa en Cotopaxi
La provincia de Cotopaxi es una de las principales zonas productoras de papa del Ecuador.Desafortunadamente, la productividad es 48% más baja que la productividad nacional(Ministerio de Agricultura y GanaderÃa, 2019). Una de las principales razones de esta bajaproductividad es la calidad de la semilla. Diversas intervenciones se han realizado paraincrementar el uso de semilla de calidad y mejorar las prácticas de manejo, sin embargo,el impacto de estas ha sido limitado debido al insuficiente conocimiento de los sistemasde semilla. El objetivo de esta investigación fue entender la articulación de diferentesactores, la biodiversidad, fuentes de semilla y los diferentes mecanismos en la renovaciónparcial de los lotes de semilla en la provincia de Cotopaxi
Thermo-fluid dynamics modelling of steam electrolysis in fully-assembled tubular high-temperature proton-conducting cells
Electrolysis based on renewable energies offers a promising carbon-free solution for hydrogen generation and storage. The recent developments of proton ceramic electrolysis cells operating at intermediate temperatures bear promise of superior energy efficiency compared to oxide ion conducting electrolytes. Here, a proton ceramic Single Engineering Unit (SEU) design is optimized for steam electrolysis using a computational fluid dynamics (CFD) model implemented in a COMSOL Multiphysics software. The SEU is an all-in-one tubular cell arrangement that constitutes the smallest electrolysis unit and enables efficient, adaptable pressurized hydrogen generation. The parametrical modelling study is conducted for two adiabatic operation scenarios with distinct steam conversion rates and tested for multiple key parameters, namely internal and external chamber pressures and inlet stream temperature. The modelling results show that low steam conversions enable operation at higher current densities and that the thermoneutral voltage for a fixed steam conversion is highly sensitive to the process conditions and operation modes. The increment of the pressure of the generated hydrogen implies a reduced production rate at thermoneutral voltage, although it can be compensated with an enhanced steam pressure or a reduced inlet temperature. Additionally, the introduction of a porous medium as the SEU current collector in the steam chamber enhances heat transport within this chamber. The area specific resistance of the system determines the current density, enforcing an adaption of the area of the electrolyser to satisfy the target hydrogen production and energy efficiency. The resulting proposed SEU design and adapted operational parameters allow effective delivery of pressurized dry hydrogen for a wide range of conditions and applications.publishedVersio
The response of pre-osteoblasts and osteoclasts to gallium containing mesoporous bioactive glasses.
Mesoporous bioactive glasses (MBGs) in the system SiO2-CaO-P2O5-Ga2O3 have been synthesized by the evaporation induced self-assembly method and subsequent impregnation with Ga cations. Two different compositions have been prepared and the local environment of Ga(III) has been
characterized using 29Si, 71Ga and 31P NMR analysis, demonstrating that Ga(III) is efficiently incorporated as both, network former (GaO4 units) and network modifier (GaO6 units). In vitro bioactivity tests evidenced that Ga-containing MBGs retain their capability for nucleation and growth of an apatite-like layer in contact with a simulated body fluid with ion concentrations nearly equal to those of human blood plasma. Finally, in vitro cell culture tests evidenced that Ga incorporation results in a selective effect on osteoblasts and osteoclasts. Indeed, the presence of this element enhances the early differentiation towards osteoblast phenotype while disturbing osteoclastogenesis. Considering these results, Ga-doped MBGs might be proposed as bone substitutes, especially in osteoporosis scenarios
Serum HER-2 concentration is associated with insulin resistance and decreases after weight loss.
HER2/neu is a member of the epidermal growth factor receptor family
easily detectable in the serum of cancer patients. We aimed to evaluate
circulating HER-2 concentrations in association with insulin resistance in
healthy and obese subjects. METHODS: Insulin sensitivity (minimal model) and
serum HER-2 concentrations were evaluated in a cross sectional study in men
(cohort 1, n = 167) and longitudinally after weight loss in obese subjects
(cohort 2, n = 30). RESULTS: Serum HER-2 concentrations were positively
associated with BMI and waist circumference (both r = 0.18, p = 0.02), post-load
glucose (r = 0.28, p = 0.001) and fasting triglycerides (r = 0.26, p = 0.001);
and negatively associated with insulin sensitivity (r = -0.29, p = 0.002, n =
109). Subjects with type 2 diabetes showed significantly increased soluble serum
HER-2 concentrations. In different multivariate regression models, fasting
triglycerides emerged as the factor that independently contributed to 10-11% of
serum HER-2 variance.Serum HER-2 concentrations correlated significantly with
fasting triglycerides and insulin sensitivity index in subjects from cohort 2.
Weight loss led to a significant decrease of serum HER-2 concentrations. The
change in serum HER-2 concentrations were significantly associated with the
change in percent body fat and fasting triglycerides in young (below the median
age of the cohort) subjects. CONCLUSIONS: Serum HER-2 concentrations might be
implicated in the pathophysiology of insulin resistance and associated
comorbidities
Seed availability, access and quality of potato seed systems in Cotopaxi-Ecuador
Strengthening potato seed systems in developing countries is essential to improve seed security. In Ecuador, as in other developing countries, the limited knowledge about the complexity of the different seed systems has restricted the impact on seed security of a large amount of interventions. To contribute to the impact of seed interventions, this research aimed to: (1) understand the different traits of a diverse array of seed systems and (2) describe the different agricultural and social characteristics of the households of the province of Cotopaxi. The design of this study (survey/sampling strategy) was based on the information collected during a pilot study (n=40 interviewed farmers selected at random). Therefore, this survey was implemented using a stratified sampling design where each canton (Latacunga, Pujili, Salcedo and Saquisili) was considered as a different stratum. Each stratum was initially divided in different numbers of quadrants to assure proper spatial distribution. The questionnaire used was an adaptation of the questionnaire suggested by Hammond et al., 2017 (Journal of Agricultural systems [Vol 151]). It considered the following sections: (1) Metadata, (2) Household characteristics, (3) Crop productivity, (4) Potato seed system traits, (5) Agricultural inputs, (6) Livestock productivity, (7) Wild food, (8) Food security, and (9) Progress out of Poverty. As a result, we surveyed, from September to October 2018, 118 farmers in Latacunga, 67 farmers in Pujili, 56 farmers in Salcedo, and 19 farmers in Saquisili. It is expected that this database contributes to a deeper knowledge about seed systems and consequently provides information to improve current seed system interventions
Densification of WC-Fe-Ni-Co-Cr cemented carbides processed by HIP after sintering: effect of WC powder particle size
Shrinkage, liquid formation and mass losses of WC-19 vol% FeNiCoCr alloys during sintering have been inves-
tigated in compositions either with coarse or submicron WC powders. Mass losses detected by thermogravimetry
are compatible with carbothermal reduction of the different oxides present in the powder mixtures. Hardness and
fracture toughness of materials based on submicron WC powders are within tolerances of those reported for WC-
Co materials with similar microstructures. However, fracture strength is approx. 25% lower
Circulating omentin concentration increases after weight loss
Omentin-1 is a novel adipokine expressed in visceral adipose tissue
and negatively associated with insulin resistance and obesity. We aimed to study
the effects of weight loss-induced improved insulin sensitivity on circulating
omentin concentrations. METHODS: Circulating omentin-1 (ELISA) concentration in
association with metabolic variables was measured in 35 obese subjects (18 men,
17 women) before and after hypocaloric weight loss. RESULTS: Baseline circulating
omentin-1 concentrations correlated negatively with BMI (r = -0.58, p < 0.001),
body weight (r = -0.35, p = 0.045), fat mass (r = -0.67, p < 0.001), circulating
leptin (r = -0.7, p < 0.001) and fasting insulin (r = -0.37, p = 0.03).
Circulating omentin-1 concentration increased significantly after weight loss
(from 44.9 +/- 9.02 to 53.41 +/- 8.8 ng/ml, p < 0.001). This increase in
circulating omentin after weight loss was associated with improved insulin
sensitivity (negatively associated with HOMA value and fasting insulin, r =
-0.42, p = 0.02 and r = -0.45, p = 0.01, respectively) and decreased BMI (r =
-0.54, p = 0.001). CONCLUSION: As previously described with adiponectin,
circulating omentin-1 concentrations increase after weight loss-induced
improvement of insulin sensitivity
Digital image correlation after focused ion beam micro-slit drilling: A new technique for measuring residual stresses in hardmetal components at local scale
A new method has been developed for measuring residual stresses at the surface of hardmetal components with
higher spatial resolution than standard X-ray diffraction methods. It is based on measuring the surface displacements produced when stresses are partially released by machining a thin slit perpendicularly to the tested
surface. Slit machining is carried out by focused ion beam (FIB). Measurement of the displacement fields around
the FIB slit are performed by applying an advanced digital image correlation algorithm based on Fourier analysis
with sub-pixel resolution. This method compares SEM images of the same area of the hardmetal surface before
and after slitting. The method has been successfully applied to as-ground and femto-laser textured surfaces
showing good correlation with the standard sin2
ψ XRD technique. It is concluded that texturing induced by laser
pulses in the femtoseconds regime is not perfectly adiabatic, since residual stresses are reduced by 15
A High Dynamic Range ASIC for Time of Flight PET with monolithic crystals
The HRFlexToT is a 16-channel ASIC for SiPM anode readout designed for Positron Emission Tomography (PET) applications that features high dynamic range (>8 bits), low input impedance, common cathode connection, high speed and low power (~3.5 mW/ch). The ASIC has been manufactured using XFAB 0.18 mm CMOS technology. The main characteristics of the HRFlexToT, compared to its predecessor, are a new energy measurement readout providing a linear Time Over Threshold (ToT) with an extended dynamic range, lower power consumption and better timing response. Initial measurements show a linearity error below 3%. Single Photon Time Resolution (SPTR) measurements performed using a Hamamatsu MPPC S13360-3050CS (3x3 mm2 pixel, 50 umm cell) shows 30% improvement with respect to the previous version of the ASIC, setting this specification in the order of 141 ps FWHM and reducing 3 times power consumption. It is important to highlight that an SPTR of 141 ps FWHM is, according to the best of our knowledge, the best resolution achieved so far for this sensor. Coincidence Time Resolution (CTR) measurements are expected to be performed during 2018
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