1,853 research outputs found
CO2 capture in cement plants by "Tail-End" Calcium Looping process
Abstract In this work the integration of the Calcium-Looping (CaL) process, used as a post-combustion CO2 capture system, into a cement kiln was analyzed by means of process simulations. The results show that capture efficiencies of about 90% can be achieved with operating conditions of CaL reactors similar to those for power generation applications. The integration of the CaL process increases the fuel consumption of the cement kiln, but the additional primary energy introduced for sustaining this CO2 capture process can be efficiently exploited for raising HP steam and producing electricity in a Rankine cycle
Attenuation of choroidal tickness in patients with Alzheimer disease: evidence from an Italian prospective study
INTRODUCTION: To compare the 12-month choroidal thickness (CT) change between
Alzheimer disease (AD) patients and normal subjects.
METHODS: In this prospective, observational study, 39 patients with a diagnosis
of mild to moderate AD and 39 age-matched control subjects were included. All the
subjects underwent neuropsychological (Mini Mental State Examination, Alzheimer
disease Assessment Scale-Cognitive Subscale, and the Clinical Dementia Rating
Scale) and ophthalmological evaluation, including spectral domain optical
coherence tomography, at baseline and after 12 months. CT was measured manually
using the caliper tool of the optical coherence tomography device.
RESULTS: After 12 months, AD patients had a greater reduction of CT than controls
(P≤0.05, adjusted for baseline CT, age, sex, axial length, and smoking).
DISCUSSION: CT in patients with AD showed a rate of thinning greater than what
could be expected during the natural course of aging
Six Sigma as a quality improvement tool for academic programs
In this work, we present a methodology for the design and improvement of academic programs based on Six Sigma. Six Sigma is a methodology for quality improvement [ISO 13053-1] well known in industrial environments that is being more and more used in services and administration areas. The proposed methodology is applied to the Internal Systems Quality Assurance (ISQA) in Information Technology and Communications (ITC) Schools, but it is easily generalizable to other schools and faculties. The Spanish National Agency for Quality Assessment and Accreditation (ANECA for its Spanish acronym) sets the guidelines for improving the ISQAs, but ANECA does not indicate how to implement them. Currently, there is a lack of methodologies to create and/or improve quality control systems for teaching and associated services. It is therefore necessary to explore other ways.
As a first contribution, we are using successful quality improvement methodologies at the business level for academic purposes. Even though there are various methods for improving the quality of processes (EFQM, Kaizen, etc.), Six Sigma has proven to be among the best ones. Indeed, Six Sigma successfully adapted the scientific method in order to be straightforwardly applied to process improvement within organisations.
Our second contribution, probably the most important one, is the development of a typology catalogue gathering the developed procedures structure. Such catalogue allows to systematically detect types of procedures and structures, representing by itself a novel tool.
The remaining contributions are explicit descriptions of procedures for a particular ITC School. These descriptions showcase a comprehensive practical application of the proposed methodology. The integrated system developed in this work organises the procedures into three areas: strategic, operational and cross-cutting
Process integration study of tail-end Ca-Looping process for CO2capture in cement plants
In this work, the integration of Calcium looping (CaL) process into a cement plant for post-combustion CO2capture is assessed via process simulations. In the proposed scheme, the carbonator of the CaL process is used as an end-of-pipe unit to capture the CO2from the cement kiln gas. From the results obtained, it is demonstrated that CO2capture efficiencies of the order of 90% are achievable, with CaL reactors operating in conditions not far from those demonstrated for application in power plants. The integration of the tail-end CaL process results in a significant increase of the total fuel consumption (about two to three times higher) compared to the benchmark cement plant without CO2capture. On the other hand, the heat from the CaL process can be recovered by a steam cycle producing decarbonized electric power that may exceed the needs of the plant auxiliaries (including the ASU and the CO2compression and purification unit), exporting in this way electricity to the grid and so resulting in CO2emission credits from a life cycle perspective. The resulting specific primary energy consumption for CO2avoided (SPECCA) highly depends on the reference power generation technology considered, and it ranges between 2.7 and 3.7 MJLHV/kgCO2in a coal-fired power generation scenario. As for the retrofittability of existing cement plants, the operation of the suspension preheating tower after the implementation of the CaL unit, as well as the position of the CaL carbonator with respect to the raw mill, have been assessed. Based on the results obtained, no critical issues have been found from a technical point of view in the adoption of the tail-end CaL process in existing cement kilns
Expression of apoptosis-related markers and clinical outcome in patients with advanced colorectal cancer
The clinical relevance of bax and bcl-2 protein expression has been investigated in 84 patients with recurrent or metastatic colorectal cancer submitted to a chemotherapy regimen including methotrexate and fluorouracil/leucovorin. Cytoplasmic immunostaining of bax and bcl-2 was present in 65.5% and 38%, respectively, of the tumours. No association was found between bax and bcl-2 or between p53 and bax or bcl-2 protein expression. Moreover, the biomarkers were unrelated to patient and tumour characteristics known to affect the clinical outcome of colorectal cancer patients. In general, the apoptosis-related markers did not appear indicative of short- and long-term clinical response nor of prognosis. Bcl-2-negative lesions were more frequent among patients who reached an objective clinical response, which is in agreement with previously reported data regarding other tumour types. When the interrelationship between p53 and bax expression was examined, a better response rate (40%) was found for patients whose tumours did not express p53 and bax, and a better prognosis (2-year probability of overall survival 75%) for patients with p53-positive and bax-negative tumours. In the present series of patients with advanced colorectal cancer submitted to systemic chemotherapy we did not find a clear association between expression of apoptosis-related markers and clinical outcome, even in the subset of patients in which the apoptotic index as determined by the TUNEL approach was investigated. © 2001 Cancer Research Campaign http://www.bjcancer.co
H3K36 methylation and DNA-binding both promote Ioc4 recruitment and Isw1b remodeler function
The Isw1b chromatin-remodeling complex is specifically recruited to gene bodies to help retain pre-existing histones during transcription by RNA polymerase II. Recruitment is dependent on H3K36 methylation and the Isw1b subunit Ioc4, which contains an N-terminal PWWP domain. Here, we present the crystal structure of the Ioc4-PWWP domain, including a detailed functional characterization of the domain on its own as well as in the context of full-length Ioc4 and the Isw1b remodeler. The Ioc4-PWWP domain preferentially binds H3K36me3-containing nucleosomes. Its ability to bind DNA is required for nucleosome binding. It is also furthered by the unique insertion motif present in Ioc4-PWWP. The ability to bind H3K36me3 and DNA promotes the interaction of full-length Ioc4 with nucleosomes in vitro and they are necessary for its recruitment to gene bodies in vivo. Furthermore, a fully functional Ioc4-PWWP domain promotes efficient remodeling by Isw1b and the maintenance of ordered chromatin in vivo, thereby preventing the production of non-coding RNAs
Effect of Microencapsulated Phase Change Materials on the Flow Behavior of Cement Composites
Microencapsulated phase change materials (MPCMs) were incorporated into cement pastes of Portland cement (PC). Minislump tests and rheological properties of cement pastes containing three MPCMs with different surfaces (hydrophilic, amphiphilic and hydrophobic) were measured, and the water demand of MPCM in the cement matrix was evaluated. The hydrophilic MPCM was chosen for a more thorough rheological study, since it was found to be more compatible with the cement matrix. The dispersion of a high amounts (45 wt% with respect to the cement content, which corresponds to about 62 vol% of the total solids) of the hydrophilic MPCM in the cement pastes was achieved by optimization of the amount of superplasticizer through rheological measurements. For the viscometer tests, a Power Law model was found to give the best fit to the experimental data. While pastes (with 45 wt% of hydrophilic MPCM) prepared with low superplasticizer contents (<1.2 wt%) were found to be shear thinning, the paste exhibited a shear thickening behavior in the presence of higher amounts of superplasticizer. The shear thickening is probably caused by high water adsorption onto the microcapsules combined with deflocculation of the cement particles at high concentrations of superplasticizer. After the optimization of the superplasticizer content, homogeneous pastes were obtained, where the particles of the hydrophilic MPCM were well dispersed and unaltered after 28 days of hydration.MINECO -BIA2017-82391-R) y I3 (IEDI-2016-0079
Large-area deposition of protective (Ti,Al)N coatings onto polycarbonate
Polycarbonate (PC) and protective (Ti,Al)N coatings exhibit extremely
different material properties, specifically crystal structure, thermal
stability, elastic and plastic behavior as well as thermal expansion
coefficients. These differences present formidable challenges for the
deposition process development as low-temperature synthesis routes have to be
explored to avoid a thermal overload of the polymer substrate. Here, a
large-area sputtering process is developed to address the challenges by
systematically adjusting target peak power density and duty cycle. Adhering
(Ti,Al)N coatings with a critical residual tensile stress of 2.2 +/- 0.2 GPa
are obtained in the pulsed direct current magnetron sputtering range, whereas
depositions at higher target peak power densities, realized by high power
pulsed magnetron sputtering, lead to stress-induced adhesive and/or cohesive
failure. The stress-optimized (Ti,Al)N coatings deposited onto PC with a target
peak power density of 0.036 kW cm-2 and a duty cycle of 5.3% were investigated
by cross-cut test confirming adhesion. By investigating the bond formation at
the PC | (Ti,Al)N interface, mostly interfacial CNx bonds and a small fraction
of (C-O)-(Ti,Al) bonds are identified by X-ray photoelectron spectroscopy,
indicating reactions at the hydrocarbon and the carbonate groups during
deposition. Nanoindentation reveals an elastic modulus of 296 +/- 18 GPa for
the (Ti,Al)N coating, while a Ti-Al-O layer is formed during electrochemical
impedance spectroscopy in a borate buffer solution, indicating protective
passivation. This work demonstrates that the challenge posed by the extremely
different material properties at the interface of soft polymer substrates and
hard coatings can be addressed by systematical variation of the pulsing
parameters to reduce the residual film stress
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