Micro-structured string-reactor for autothermal production of hydrogen

Novel micro-structured string-reactor designed as catalytically active wires placed in parallel into a tube was developed. The small diam. of the channels (.apprx.100 mm) leads to a short radial diffusion time, a narrow residence time distribution, and a low pressure drop. This reactor was applied for the oxidative steam-reforming of methanol to produce hydrogen in autothermal mode for fuel cells. The heat generated during methanol oxidn. at the reactor entrance is axially transferred to the reactor zone of the endothermic steam-reforming. The brass metal wires (Cu/Zn = 4/1) were used as precursors for the prepn. of string-catalysts. The brass wires have high thermal cond. (120 W/(m K)) and the chem. compn. is similar to the active phase of the Cu/ZnO/Al2O3 traditional catalyst during the steam-reforming of methanol. Brass-based string catalysts are obtained by metal/aluminum alloy formation on the outer surface of wires followed by an acid treatment leaching out aluminum. This treatment leads to an increase of the sp. surface area due to the formation of porous outer layer on the wire surface. The porous outer layer has the morphol. of Raney metals. The catalysts were first tested for the steam-reforming of methanol and showed high activity together with selectivities close to 100% towards hydrogen and carbon dioxide. Then, the optimized catalyst was tested during the methanol partial oxidn. and during steam reforming. Oxygen was obsd. to be totally converted via total oxidn. and therefore, higher methanol conversion in steam reforming together with CO2 selectivity of 99% and H2 selectivity of 60% were obtained. [on SciFinder (R)

Compact string reactor for authotermal hydrogen production

This study addresses the development of a compact reactor for oxidative steam-reforming of methanol (OSRM) to produce hydrogen in autothermal mode for fuel cells. The string reactor uses catalytically active brass wires with a diameter of 500 mu m placed in parallel into a tube. The micro-channels in the reactor for gases are formed between the wires presenting hydrodynamics similar to the one in multi-channel micro-reactors. Due to the high thermal conductivity of brass, the heat generated during methanol oxidation at the reactor entrance is transferred to the zone of the endothermic steam-reforming. The catalysts are prepared by Al-alloy formation on the surface of the brass wires followed by the partial leaching of Al. The catalyst presents a porous layer with the morphology of Raney metals and the chemical composition consistent with the Cu/Zn/Al-mixed oxide. The catalyst surface was additionally modified by incorporating chromium leading to Cr/Cu-spinel. This decreases the degree of the reduction of copper oxide and sintering leading to a stable catalyst. The catalyst was tested in OSRM showing high activity and selectivity to carbon dioxide and hydrogen. The string reactor presents nearly isothermal profile since the temperatures gradient within the reactor length is about 3 K. Micro-structured string reactor presents a short start-up and a fast transient behavior showing a rapid temperature change when adjusting the oxygen amount introduced into the reactor. (c) 2006 Elsevier B.V. All rights reserved

Palladium supported on filamentous active carbon as effective catalyst for liquid-phase hydrogenation of 2-butyne-1,4-diol to 2-butene-1,4-diol

Structured palladium catalysts suitable for three-phase reactions have been developed based on woven fabrics of active carbon fibers (ACF) as the catalytic supports. The Pd/ACF were tested in liq.-phase hydrogenation of 2-butyne-1,4-diol showing a selectivity towards 2-butene-1,4-diol up to 97% at conversions up to 80%. Multiple reuse of the catalyst with stable activity/selectivity in a batch reactor was also demonstrated. The reaction kinetics was studied and the main kinetic parameters were obtained. Assuming a Langmuir-Hinshelwood kinetics and a weak hydrogen adsorption a suitable kinetic model was developed consistent with the exptl. data. [on SciFinder (R)

New magnetic phase in metallic V_{2-y}O_3 close to the metal insulator transition

We have observed two spin density wave (SDW) phases in hole doped metallic V_{2-y}O_3, one evolves from the other as a function of doping, pressure or temperature. They differ in their response to an external magnetic field, which can also induce a transition between them. The phase boundary between these two states in the temperature-, doping-, and pressure-dependent phase diagram has been determined by magnetization and magnetotransport measurements. One phase exists at high doping level and has already been described in the literature. The second phase is found in a small parameter range close to the boundary to the antiferromagnetic insulating phase (AFI). The quantum phase transitions between these states as a function of pressure and doping and the respective metamagnetic behavior observed in these phases are discussed in the light of structurally induced changes of the band structure.Comment: REVTeX, 8 pages, 12 EPS figures, submitted to PR

Photothermal infrared thermography applied to the identification of thin layer thermophysical properties

Abstract: The aim of the present work is the thermal non-destructive characterisation of layers at the surface of metals. The sample is sinusoidally heated by means of an argon ion laser and a focal plane array infrared camera (CEDIP IRC 320-4 LW) is used to measure the temperature variations at the surface of the layer. A numerical lock-in procedure allows the detection of very weak temperature variations at the surface of the sample, down to a few mK when working from the acquisition of hundreds of images, yielding amplitude and absolute phase maps for modulation frequencies ranging from 0.1 Hz to 1000 Hz. An inverse procedure uses the Gauss-Newton parameter estimation method, in order to identify the thermal conductivity and the optical absorption coefficient of the layer. Confidence intervals on the parameters can also be estimated by the inverse procedure. More particular attention is devoted to the study of the sensitivity coefficients, as functions of the frequency range and of the radial range along the profiles, in order to optimise the identification procedure

Title: Ex vivo coronary stent implantation evaluated with digital image correlation

Abstract: Intracoronary stenting (PCI) has become standard revascularization technique to reopen blocked arteries. Although significant progress in stenting technology and implantation techniques has been made a number of problems remain. Specifically, stent sizing and inflation pressures are still a matter of scientific debates. Despite a large number of biomechanical computational simulations experimental data are rare, likely due to technical difficulties to measure dilatation pressures and coronary dimensions in the same settings. Our study shows that valuable data can be obtained by employing digital image correlation for 3D strain measurement during stent inflation ex-vivo that can provide further insight into the stent-artery wall interactions. Keywords: Artery wall-stent interaction; coronary stent; digital image correlation; experimental implantation; strain. 3 Abstract/Introduction Intracoronary stenting (PCI) has become standard revascularization technique to reopen blocked arteries. Although significant progress in stenting technology and implantation techniques has been made a number of problems remain Despite a large number of biomechanical computational simulations [3, Methods Stent and PCI equipment The balloon-expandable CoCr coronary stent Kaname TM (Terumo Corporation, Tokyo, Japan) with nominal diameter 3.5 mm, and length 15 mm (at pressure 0.9 MPa; and diameter 3.73 mm at 1.6 MPa) was used in this study. The stent was premounted on PCI dilatation catheter RX-2 (Terumo Corporation). Sample The sample of the main branch of the left coronary artery was obtained from autopsy. The male donor was 40 years old and atherosclerotic lesions were presented inside the sample. The experiment was performed 70 hours post mortem. Experiment The sample was mounted into the experimental setup ( Displacement measurement was based on 3D digital image correlation (DIC) conducted with commercial system Dantec Q-450 (Dantec Dynamics, Ulm, Germany). 4 DIC is non-contact optical method based on the stereoscopic principle which is becoming more popular especially within the strain measurement of geometrically nonuniform objects. The algorithm identifies material points on the object surface and the correlation between consecutive images allows material point tracking. Detailed description can be found in the literature The artery was recorded with two digital cameras (NanoSens Mk III, Dantec Dynamics; 1MPx CCD chip; lens Sigma EX, 105 mm, 1:2.8 D Macro) during the balloon expansion (sampling rate 25 Hz). In fully expanded state, the object ROI approx. 18*3 mm*mm was projected onto 600*300 px*px (in each camera). RX2 manometer was recorded with another camera to obtain time course of change of the balloon distending pressure (pressure transducer connected with PC was not available at the time of experiment). The stent was deployed within manual pressurization up to 1.6 MPa which spanned approximately 42 seconds. Results DIC revealed significant overloading of the artery by the expanded stent. The results are depicted in Principal strains' distribution (Green-Lagrange strain is considered within this study) shows artery response within maximally expanded stent. Principal vectors are predominantly aligned with the circumferential and longitudinal direction which is supposed to be the consequence of the cylindrical stent expansion. Circumferential deformation attains 0.5 mm/mm at the peak value which is far beyond physiological situation. The circumferential strain concentration appears non-symmetrically with respect to the length of the sample which is supposed to be the result of irregular reference geometry (an asymmetrical partially occluded lumen of the artery). Six points (P1-6) were chosen to illustrate specific strain values resulting from different loading conditions and atherosclerotic specimen in our experiment. Discussion This is a preliminary report concerning a stent implantation in ex-vivo settings employing a human coronary artery harvested from autopsy. The results suggest that 3D DIC is promising tool suitable for the evaluation of ex-vivo stent implantation potentially useful for validation of computational models and clinical considerations. Presented results suggest that overexpansion of a stent during deployment may overstretch the target site potentially resulting in implantation injury associated with restenosis and/or intimal tears associated with dissections. To obtain exact intraluminal dimensions during stent deployment optical coherence tomography or intravascular ultrasound (IVUS) would be required, currently not available in our laboratory. Nevertheless we plan to combine IVUS with 3D DIC in future experiments

Case report of a clinically indolent but morphologically high-grade cutaneous mast cell tumor in an adult:Atypical cutaneous mastocytoma or mast cell sarcoma?

We present a case of an adult male with a solitary mast cell tumor of the skin with unusual nuclear pleomorphism and mitotic activity. The tumor was excised, recurred within 2 years, was reexcised after 4 years and did not recur >6 years after diagnosis. The tumor showed progressive cytonuclear atypia and a high mitotic and proliferation rate by Ki67‐staining from the onset. No KIT mutations were identified in the tumor and bone marrow. Serum tryptase levels and a bone marrow aspirate and trephine biopsy were normal. Although the histomorphology of the skin tumor was consistent with mast cell sarcoma, the clinical behavior without systemic progression argued against this diagnosis. The tumor was finally considered as atypical mastocytoma, borderline to mast cell sarcoma. Currently, the patient is in close follow‐up and still in complete remission

Definitions, Criteria and Global Classification of Mast Cell Disorders with Special Reference to Mast Cell Activation Syndromes: A Consensus Proposal

Activation of tissue mast cells (MCs) and their abnormal growth and accumulation in various organs are typically found in primary MC disorders also referred to as mastocytosis. However, increasing numbers of patients are now being informed that their clinical findings are due to MC activation (MCA) that is neither associated with mastocytosis nor with a defined allergic or inflammatory reaction. In other patients with MCA, MCs appear to be clonal cells, but criteria for diagnosing mastocytosis are not met. A working conference was organized in 2010 with the aim to define criteria for diagnosing MCA and related disorders, and to propose a global unifying classification of all MC disorders and pathologic MC reactions. This classification includes three types of `MCA syndromes' (MCASs), namely primary MCAS, secondary MCAS and idiopathic MCAS. MCA is now defined by robust and generally applicable criteria, including (1) typical clinical symptoms, (2) a substantial transient increase in serum total tryptase level or an increase in other MC-derived mediators, such as histamine or prostaglandin D 2, or their urinary metabolites, and (3) a response of clinical symptoms to agents that attenuate the production or activities of MC mediators. These criteria should assist in the identification and diagnosis of patients with MCAS, and in avoiding misdiagnoses or overinterpretation of clinical symptoms in daily practice. Moreover, the MCAS concept should stimulate research in order to identify and exploit new molecular mechanisms and therapeutic targets. Copyright (C) 2011 S. Karger AG, Base

Experimental investigation of the effect of ionization on the 51V(p,n)51Cr reaction

The investigation of the effects of average atomic ionization on nuclear reactions is of prime importance for nuclear astrophysics. No direct experimental measurement using a plasma target has been done yet. In this regard, we measured for the first time the neutron production of a (p,n) reaction in different states of ionization. The studied nuclear reaction was 51V(p,n)51Cr. We measured a significantly lower neutron production than expected when the target was ionized, even when taking into account existing electron screening theory or the effect of the stopping power in the target on the injected proton beam. This experiment is a first step in the process to characterize the influence of ionization at astrophysically relevant energies.Comment: 20 pages, 10 figures, submitted to EP

Loss of Function of TET2 Cooperates with Constitutively Active KIT in Murine and Human Models of Mastocytosis

Systemic Mastocytosis (SM) is a clonal disease characterized by abnormal accumulation of mast cells in multiple organs. Clinical presentations of the disease vary widely from indolent to aggressive forms, and to the exceedingly rare mast cell leukemia. Current treatment of aggressive SM and mast cell leukemia is unsatisfactory. An imatinib-resistant activating mutation of the receptor tyrosine kinase KIT (KIT D816V) is most frequently present in transformed mast cells and is associated with all clinical forms of the disease. Thus the etiology of the variable clinical aggressiveness of abnormal mast cells in SM is unclear. TET2 appears to be mutated in primary human samples in aggressive types of SM, suggesting a possible role in disease modification. In this report, we demonstrate the cooperation between KIT D816V and loss of function of TET2 in mast cell transformation and demonstrate a more aggressive phenotype in a murine model of SM when both mutations are present in progenitor cells. We exploit these findings to validate a combination treatment strategy targeting the epigenetic deregulation caused by loss of TET2 and the constitutively active KIT receptor for the treatment of patients with aggressive SM