315 research outputs found
Proceedings of ASME Turbo Expo 2013: Power for Land, Sea and Air, Volume 1A: Combustion, Fuels and Emissions
Shahrokh Etemad (with Sandeep Alavandi and Benjamin Baird) is a contributing author, Fuel Flexible Rich Catalytic Lean Burn System for Low Btu Fuels
3D P- and Converted Shear wave characteristics of the Morrow production trend in the Buffalo Valley field, Chaves-Eddy County, New Mexico
Regional and local subsurface log and 3D seismic interpretations were undertaken in the vicinity of the Buffalo Valley field in southeastern New Mexico. Oil production in the field is trapped in early Pennsylvanian basal Morrow Formation Harris Channel. Regional interpretation shows that the field is located on the Northwestern Shelf along the rim of the Delaware basin. Structure and isopach maps reveal that high production is associated with a structural low that actively developed during deposition of the reservoir interval. The Harris Channel scoured into the upper Mississippian Barnett shale. Areas of thin Barnett Shale coincide with production and define the channel course.;Seismic data from the field consisted of 24 square miles of 3D P-wave and mode converted shear wave (PS-wave) data collected by WesternGeco. The 3D seismic interpretation reveals that the field is bounded by steeply dipping north-south trending faults along its west and east margins. Dip reversals along these faults suggest they may be strike-slip in origin. The 5 to 30 foot thickness of the Harris Channel lies below the resolution limit (60 feet) of the P-wave seismic and does not produce an easily detectable seismic response. Recursive inversions of the P and PS-wave volumes were combined to provide 3D Vp/Vs and Poisson\u27s ratio volumes. Poisson\u27s ratios were averaged over a 5ms window of time including reflection events from the reservoir interval. Poisson\u27s ratio/lithology relationships were derived from a well in the field. The mapped distribution of Poisson\u27s ratio throughout the survey helps define the distribution of producing sands
Two-dimensional and three-dimensional GPR imaging of wood and fiber reinforced polymer composites.
Subsurface defects in wooden logs such as knots, decays, splits, embedded metallic nails and bullets are of major concern to timber saw mills. Presence of these defects decreases the value of the sawn lumber boards. Also, the factory down time and operation cost increases significantly whenever the saw blade is damaged by encountering embedded metals during the sawing process. This study has been conducted to assess the possibility of detecting subsurface defects in logs using Ground Penetrating Radar (GPR) before the sawing process. GPR radargrams obtained from several wooden logs using different scanning techniques and analysis methods were investigated. These methods included scanning of both the circular and canted logs and using 900 MHz and 1600 MHz frequency antennas. The GPR radargrams obtained using different scanning configurations and antenna frequencies were analyzed using both 2D and 3D imaging techniques. The study showed that metals and defects inside the log can be precisely detected and located using GPR. Moreover, use of newer 3D interpretation techniques showed the possibility of determining even the orientation and extent of the defects inside the log. Similar to wooden logs, there is also a need to identify the defects within the FRP composites. Debonds and entrapped moisture in the FRP wrapped members often reduce their strength and stiffness performance. Hence the 2D and 3D methodology developed for wooden logs was extended to FRP composites for subsurface defect detection. The study showed that GPR based system is suitable for use in timber saw mills to map hidden defects (e.g., knots, decays) and foreign objects (e.g., metallic nails) in wooden logs prior to sawing, so that the yield of high-value defect-free lumber can be maximized. It can also be used as a fast nondestructive tool to detect subsurface moisture and debonds and monitor the in-situ condition of FPR wrapped members
Acute Ethanol Administration Rapidly Increases Phosphorylation of Conventional Protein Kinase C in Specific Mammalian Brain Regions in Vivo
Background
Protein kinase C (PKC) is a family of isoenzymes that regulate a variety of functions in the central nervous system including neurotransmitter release, ion channel activity, and cell differentiation. Growing evidence suggests that specific isoforms of PKC influence a variety of behavioral, biochemical, and physiological effects of ethanol in mammals. The purpose of this study was to determine whether acute ethanol exposure alters phosphorylation of conventional PKC isoforms at a threonine 674 (p-cPKC) site in the hydrophobic domain of the kinase, which is required for its catalytic activity.
Methods
Male rats were administered a dose range of ethanol (0, 0.5, 1, or 2 g/kg, intragastric) and brain tissue was removed 10 minutes later for evaluation of changes in p-cPKC expression using immunohistochemistry and Western blot methods.
Results
Immunohistochemical data show that the highest dose of ethanol (2 g/kg) rapidly increases p-cPKC immunoreactivity specifically in the nucleus accumbens (core and shell), lateral septum, and hippocampus (CA3 and dentate gyrus). Western blot analysis further showed that ethanol (2 g/kg) increased p-cPKC expression in the P2 membrane fraction of tissue from the nucleus accumbens and hippocampus. Although p-cPKC was expressed in numerous other brain regions, including the caudate nucleus, amygdala, and cortex, no changes were observed in response to acute ethanol. Total PKC? immunoreactivity was surveyed throughout the brain and showed no change following acute ethanol injection
Characterizing collagen mimetic peptides for orthogonal self-assembly
A computational design of collagen mimetic peptides (CMPs) that self-assemble orthogonally (mutually exclusively), in the presence of other pre-existing collagen trimer mixtures, in vitro, has been proposed. The orthogonality in self-assembly was brought about by orthogonal patterning of ionic salt bridges and residues, along the collagen trimers’ axial length. Through the aid of circular dichroism spectroscopy alone, a novel experimental protocol was set-up to rapidly assess the level of cross-talk that may arise in such designed ‘heterogeneous monomer to trimer folding’ mixture environments. It is shown that the designed collagen mimetic peptides are stable and hetero-specific within their composite 3 chain peptide ecosystem. We experimentally demonstrate the extent to which loss in specificity could possibly occur, upon moving to a higher order ‘more than 3 monomers in solution’ peptide ensemble. Although the desired level of multi-state orthogonality was not achieved in the current design, the experimental results obtained were used to estimate the stability and specificity barrier threshold that one might run into, if one were to instead design orthogonal systems where-in specificity is incorporated during the computational design stage itself a priori. A Pareto frontier plot indicating the specificity versus stability trade-off is plotted. We conclude that a bottom-up design approach, incorporating design of specificity during the sequence design stage, would be a better way forward for achieving self-assembling orthogonality. In contrast to the complex chaperone assisted protein folding systems existing in nature, our method is a simplistic first step towards the complementary approach of modular synthetic collagen molecule design.Ph.D.Includes bibliographical referencesby Sandeep Vishwanath Belur
Resin and steel-reinforced resin used as injection materials in bolted connections
Injection bolts are bolts in which the cavity produced by the clearance between the bolt and the wall of the hole is completely filled up with a two-component resin. Filling of the clearance is carried out through a small hole in the head of the bolt. After injection and complete curing, the connection is slip resistant. Recently the injection material, typically an epoxy resin, was modified at TU Delft by adding steel shots (spherical particles) to mitigate the effects of resin compliance in the shear connection of reusable composite (steel-concrete) structures. Experimental compressive material tests on unconfined/confined resin and steel-reinforced resin are evaluated in this chapter. The uniaxial model which combines damage mechanics and the Ramberg-Osgood relationship is proposed to describe the uniaxial compressive behavior of resin and steel-reinforced resin. First-order numerical homogenization is employed as a high-fidelity model, where a combined nonlinear isotropic/kinematic cyclic hardening model is employed to define the steel plasticity, the linear Drucker-Prager plastic criterion was used to simulate resin damage, and the cohesive surfaces reflecting the relationship between traction and displacement at the interface. The linear Drucker-Prager plastic model is used as a low-fidelity model.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Steel & Composite Structure
Anomaly-Based DNN Model for Intrusion Detection in IoT and Model Explanation: Explainable Artificial Intelligence
IoT has gained immense popularity recently with advancements in technologies and big data. IoT network is dynamically increasing with the addition of devices, and the big data is generated within the network, making the network vulnerable to attacks. Thus, network security is essential, and an intrusion detection system is needed. In this paper, we proposed a deep learning-based model for detecting intrusions or attacks in IoT networks. We constructed a DNN model, applied a filter method for feature reduction, and tuned the model with different parameters. We also compared the performance of DNN with other machine learning techniques in terms of accuracy, and the proposed DNN model with weight decay of 0.0001 and dropout rate of 0.01 achieved an accuracy of 0.993, and the reduced loss on the NSL-KDD dataset having five classes. DL models are a black box and hard to understand, so we explained the model predictions using LIME.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.Cyber Securit
STUDIES ON PHYTOCHEMISTRY, ANTI-CANCER PROPERTIES OF BETULA UTILIS
Abstract: Betula is a versatile plant with several applications. D. Don (family Betulaceae) is a long-lived tree that has been known in Sanskrit for about 400 years as Himalayan birch, bhojpatra, or Bhurja. Its usefulness as a therapeutic plant is well acknowledged. Birch bark has recently been the topic of scientific study and industry given the presence contains triterpenoids including such betulinic acid as well as oleanolic acid, that are well for their anticancer actions. A new anticancer medication, betulinic acid promotes apoptosis in the cancer cells. Therefore, It was unique from other cancer treatments. A number of B. utilis species have been reported to contain phenolics as well as flavonoids. Suitable investigations were carried out to assess phytochemicals qualitatively using various solvents, as well as anticancer activities utilising the SRB test.
Keywords: phytochemicals, anticancer medication, cancer cells.
Title: STUDIES ON PHYTOCHEMISTRY, ANTI-CANCER PROPERTIES OF BETULA UTILIS
Author: Sandeep Singh Bhau, Dr. Arti Chaurasia
International Journal of Interdisciplinary Research and Innovations
ISSN 2348-1218 (print), ISSN 2348-1226 (online)
Vol. 10, Issue 2, April 2022 - June 2022
Page No: 22-29
Research Publish Journals
Website: www.researchpublish.com
Published Date: 06-May-2022
DOI: https://doi.org/10.5281/zenodo.6524653
Paper Download Link (Source): https://www.researchpublish.com/papers/studies-on-phytochemistry-anti-cancer-properties-of-betula-utilisInternational Journal of Interdisciplinary Research and Innovations, ISSN 2348-1218 (print), ISSN 2348-1226 (online), Vol. 10, Issue 2, April 2022 - June 2022, Research Publish Journals, Website: www.researchpublish.co
Erratum: The histone demethylase JMJD2B regulates endothelial-to-mesenchymal transition (Proceedings of the National Academy of Sciences of the United States of America (2020) 117 (4180-4187) DOI: 10.1073/pnas.1913481117)
Correction for “The histone demethylase JMJD2B regulates endothelial-to-mesenchymal transition,” by Simone F. Glaser, Andreas W. Heumüller, Lukas Tombor, Patrick Hofmann, Marion Muhly-Reinholz, Ariane Fischer, Stefan Günther, Karoline E. Kokot, David Hassel, Sandeep Kumar, Hanjoong Jo, Reinier A. Boon, Wesley Abplanalp, David John, Jes-Niels Boeckel, and Stefanie Dimmeler, which was first published February 7, 2020; 10.1073/pnas.1913481117 (Proc. Natl. Acad. Sci. U.S.A. 117, 4180-4187). The authors note that Hitoshi Okada should be added to the author list between Karoline E. Kokot and David Hassel. Hitoshi Okada should be credited with providing mice. The corrected author line, affiliation line, and author contributions appear below. The online version has been corrected
Some exact solitons to the (2+1)-dimensional broer-kaup-kupershmidt system with two different methods
The author, Sandeep Malik, thankfully acknowledges CSIR SRF Grant: 09/1051(0028)/2018-EMR-I.
09/1051(0028)/2018-EMR-ICSIR SRF GrantThe exact solutions of the (2 + 1) dimensional Broer-Kaup-Kupershmidt (BKK) system which has been recommended to model the nonlinear and dispersive long gravity waves traveling along with the two horizontal directions in the shallow water of uniform depth were obtained. Firstly, the given system was reduced to an ordinary differential equation (ODE) with the help of the wave transformations. Then, the reduced ODE was solved with the help of two methods which are called the modified (G'/G)-expansion method and new extended generalized Kudryashov method. We checked the results with the Maple software and plotted 3D, contour and 2D plots of some obtained solutions. As a result, we obtained exact solutions that are different from each other and have not been obtained before. Results can enhance the nonlinear dynamical behavior of a given system and demonstrate the effectiveness of the employed methodology. Results will be beneficial to a large number of engineering model specialists and useful for understanding the wave motions
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