Material parameter determination of a piezoelectric disc with triple-ring-electrodes for increased sensitivity

AbstractFast chemical process development is inevitably linked to an optimized determination of thermokinetic data of chemical reactions. A miniaturized flow calorimeter enables increased sensitivity when examining small amounts of reactants in a short time compared to traditional batch equipment. Therefore, a methodology to determine optimal reaction conditions for calorimetric measurement experiments was developed and is presented in this contribution. Within the methodology, short-cut calculations are supplemented by computational fluid dynamics (CFD) simulations for a better representation of the hydrodynamics within the microreactor. This approach leads to the effective design of experiments. Unfavourable experimental conditions for kinetics experiments are determined in advance and therefore, need not to be considered during design of experiments. The methodology is tested for an instantaneous acid-base reaction. Good agreement of simulations was obtained with experimental data. Thus, the prediction of the hydrodynamics is enabled and the first steps towards a digital twin of the calorimeter are performed. The flow rates proposed by the methodology are tested for the determination of reaction enthalpy and showed that reasonable experimental settings resulted. Graphical abstract A methodology is suggested to evaluate optimal reaction conditions for efficientacquisition of kinetic data. The experimental design space is limited by thestepwise determination of important time scales based on specified input data.

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nanotatoR: a tool for enhanced annotation of genomic structural variants

BMC Genomics ◽

10.1186/s12864-020-07182-w ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Surajit Bhattacharya ◽

Hayk Barseghyan ◽

Emmanuèle C. Délot ◽

Eric Vilain

Keyword(s):

De Novo ◽

Genome Mapping ◽

Gene List ◽

Sufficient Information ◽

Rna Seq ◽

Structural Variants ◽

De Novo Genome Assembly ◽

Pathogenic Variants ◽

Increased Sensitivity

Abstract Background Whole genome sequencing is effective at identification of small variants, but because it is based on short reads, assessment of structural variants (SVs) is limited. The advent of Optical Genome Mapping (OGM), which utilizes long fluorescently labeled DNA molecules for de novo genome assembly and SV calling, has allowed for increased sensitivity and specificity in SV detection. However, compared to small variant annotation tools, OGM-based SV annotation software has seen little development, and currently available SV annotation tools do not provide sufficient information for determination of variant pathogenicity. Results We developed an R-based package, nanotatoR, which provides comprehensive annotation as a tool for SV classification. nanotatoR uses both external (DGV; DECIPHER; Bionano Genomics BNDB) and internal (user-defined) databases to estimate SV frequency. Human genome reference GRCh37/38-based BED files are used to annotate SVs with overlapping, upstream, and downstream genes. Overlap percentages and distances for nearest genes are calculated and can be used for filtration. A primary gene list is extracted from public databases based on the patient’s phenotype and used to filter genes overlapping SVs, providing the analyst with an easy way to prioritize variants. If available, expression of overlapping or nearby genes of interest is extracted (e.g. from an RNA-Seq dataset, allowing the user to assess the effects of SVs on the transcriptome). Most quality-control filtration parameters are customizable by the user. The output is given in an Excel file format, subdivided into multiple sheets based on SV type and inheritance pattern (INDELs, inversions, translocations, de novo, etc.). nanotatoR passed all quality and run time criteria of Bioconductor, where it was accepted in the April 2019 release. We evaluated nanotatoR’s annotation capabilities using publicly available reference datasets: the singleton sample NA12878, mapped with two types of enzyme labeling, and the NA24143 trio. nanotatoR was also able to accurately filter the known pathogenic variants in a cohort of patients with Duchenne Muscular Dystrophy for which we had previously demonstrated the diagnostic ability of OGM. Conclusions The extensive annotation enables users to rapidly identify potential pathogenic SVs, a critical step toward use of OGM in the clinical setting.

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Partial Electrode Method for Loss and Physical Parameter Determination of Piezoceramics: Simplification, Error Investigation and Applicability

Journal of the European Ceramic Society ◽

10.1016/j.jeurceramsoc.2021.05.037 ◽

2021 ◽

Author(s):

Yoonsang Park ◽

Hossein Daneshpajooh ◽

Timo Scholehwar ◽

Eberhard Hennig ◽

Kenji Uchino

Keyword(s):

Physical Parameter ◽

Parameter Determination ◽

Electrode Method

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Normal modes of semiconductorp‐n–junction devices for material‐parameter determination

Journal of Applied Physics ◽

10.1063/1.323290 ◽

1976 ◽

Vol 47 (9) ◽

pp. 4203-4205 ◽

Cited By ~ 27

Author(s):

Fredrik A. Lindholm ◽

C. Tang Sah

Keyword(s):

Material Parameter ◽

Normal Modes ◽

Parameter Determination

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High Strength Combined Support Technology in Deep High Stress Soft Rock Roadway

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.524-527.598 ◽

2012 ◽

Vol 524-527 ◽

pp. 598-603

Author(s):

Nian Jie Ma ◽

Zhi Qiang Zhao ◽

Hua Zhao ◽

Li Shuai Jiang

Keyword(s):

High Stress ◽

Soft Rock ◽

High Strength ◽

Parameter Determination ◽

Test Results ◽

Actual Measurement ◽

Computer Numerical Simulation ◽

Soft Rock Roadway ◽

Rock Roadway

In order to solve the serious damage and repeat revision problem of high stress soft rock roadway in deep -950 level of Tangshan coal mine, based on the theory of the maximum stress level, together with the actual measurement of geostress and the laboratory mechanical parameters of rock-core and computer numerical simulation, the high strength combined support technology and supporting parameters are determined and the engineering test has been done. The engineering test results show that the parameter determination of high strength combined support technology, which based on the actual measurement of geostress, can effective solve the support issue of high stress soft rock roadway and provide useful experience for similar engineering problems.

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A Novel and Fundamental Approach Toward Field and Damper Circuit Parameter Determination of Synchronous Machine

IEEE Transactions on Industry Applications ◽

10.1109/tia.2013.2261972 ◽

2013 ◽

Vol 49 (5) ◽

pp. 2097-2105 ◽

Cited By ~ 2

Author(s):

Kaushik Mukherjee ◽

K. Lakshmi Varaha Iyer ◽

Xiaomin Lu ◽

Narayan C. Kar

Keyword(s):

Synchronous Machine ◽

Parameter Determination ◽

Circuit Parameter

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Problem of angular motion control of a non-cooperative on-orbit service object

Technical mechanics ◽

10.15407/itm2021.01.037 ◽

2021 ◽

Vol 2021 (1) ◽

pp. 37-50

Author(s):

A.A. Fokov ◽

◽

O.P. Savchuk ◽

Keyword(s):

Motion Control ◽

State Of The Art ◽

Object Motion ◽

The State ◽

Angular Motion ◽

Motion Parameter ◽

Rotary Motion ◽

Parameter Determination ◽

Service Object

The realization of existing projects of on-orbit servicing and the development of new ones is a steady trend in the development of space technology. In many cases, on-orbit service clients are objects that exhibit an undesired rotary motion, which renders their servicing difficult or impossible. The problem of on-orbit service object motion control determines the topicality of studies aimed not only at the refinement of methods and algorithms of controlling both the translational and the rotary motion of an object, but also at the development and refinement of methods of onboard determination of the object – service spacecraft relative motion parameters. This paper overviews the state of the art of the problem of object motion parameter determination in on-orbit servicing tasks and existing methods of object motion control and angular motion damping and specifies lines of further investigations into the angular motion control of non-cooperative service objects. Based on the analysis of publications on the subject, the applicability of onboard means for object motion parameter determination is characterized. The analysis of the applicability of methods of remote determination of the parameters of an unknown non-cooperative object from a service spacecraft shows that they are at the research stage. The input data for the verification of methods proposed in the literature were simulated or taken from ground experiments or previous missions. Contact and contactless methods of angular motion control of non-cooperative on-orbit service objects are considered. From the state of the art of investigations into the contactless motion control of on-orbit service objects it may be concluded that the most advanced contactless method of motion control of an on-orbit service object is a technology based on the use of an ion beam directed to the object from an electrojet engine onboard a service spacecraft. Lines of further investigations into non-cooperative object motion control are proposed.

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