Exploratory pre-industrial test linking FGM and Hatschek technologies for the manufacture of asbestos-free corrugated cementitious roof sheets

A mathematical model coupled with electromagnetic field has been developed to simulate the transient turbulence flow and initial solidification in a slab continuous casting mold under different electromagnetic stirring (EMS) currents and casting speeds. Through comparing the magnetic flux density, flow field with measured results, the reliability of the mathematical model is proved. The uniform index of solidified shell thickness has been introduced to judge the uniformity of the solidified shell. The results show that a horizonal recirculation flow has been generated when EMS is applied, and either accelerated or decelerated regions of flow field are formed in the liquid pool. Large EMS current and low casting speed may cause the plug flow near the mold narrow face and a suitable EMS current can benefit to the uniform growth of solidified shell. Meanwhile, an industrial test exhibits that EMS can weaken the level fluctuation and number density of inclusion. Overall, a rational EMS current range is gained, when the casting speed is 1.2 m/min, the rational EMS current is 500–600 A.

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A Method of Ore Blending Based on the Quality of Beneficiation and Its Application in a Concentrator

Applied Sciences ◽

10.3390/app11115092 ◽

2021 ◽

Vol 11 (11) ◽

pp. 5092

Author(s):

Bingyu Liu ◽

Dingsen Zhang ◽

Xianwen Gao

Keyword(s):

Neural Network ◽

Bp Neural Network ◽

Industrial Test ◽

Modeling Method ◽

Daily Work ◽

Production Site ◽

Neural Network Algorithm ◽

The Relationship ◽

Ore Dressing

Ore blending is an essential part of daily work in the concentrator. Qualified ore dressing products can make the ore dressing more smoothly. The existing ore blending modeling usually only considers the quality of ore blending products and ignores the effect of ore blending on ore dressing. This research proposes an ore blending modeling method based on the quality of the beneficiation concentrate. The relationship between the properties of ore blending products and the total concentrate recovery is fitted by the ABC-BP neural network algorithm, taken as the optimization goal to guarantee the quality of ore dressing products at the source. The ore blending system was developed and operated stably on the production site. The industrial test and actual production results have proved the effectiveness and reliability of this method.

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3D-Printed Multilayer Sensor Structure for Electrical Capacitance Tomography

Sensors ◽

10.3390/s19153416 ◽

2019 ◽

Vol 19 (15) ◽

pp. 3416 ◽

Cited By ~ 3

Author(s):

Aleksandra Kowalska ◽

Robert Banasiak ◽

Andrzej Romanowski ◽

Dominik Sankowski

Keyword(s):

Industrial Applications ◽

Industrial Test ◽

Electrical Capacitance Tomography ◽

Geometrical Parameters ◽

Electrical Capacitance ◽

Low Contrast ◽

Sensor Structure ◽

Internal Measurement ◽

3D Printed ◽

Capacitance Tomography

Presently, Electrical Capacitance Tomography (ECT) is positioned as a relatively mature and inexpensive tool for the diagnosis of non-conductive industrial processes. For most industrial applications, a hand-made approach for an ECT sensor and its 3D extended structure fabrication is used. Moreover, a hand-made procedure is often inaccurate, complicated, and time-consuming. Another drawback is that a hand-made ECT sensor’s geometrical parameters, mounting base profile thickness, and electrode array shape usually depends on the structure of industrial test objects, tanks, and containers available on the market. Most of the traditionally fabricated capacitance tomography sensors offer external measurements only with electrodes localized outside of the test object. Although internal measurement is possible, it is often difficult to implement. This leads to limited in-depth scanning abilities and poor sensitivity distribution of traditionally fabricated ECT sensors. In this work we propose, demonstrate, and validate experimentally a new 3D ECT sensor fabrication process. The proposed solution uses a computational workflow that incorporates both 3D computer modeling and 3D-printing techniques. Such a 3D-printed structure can be of any shape, and the electrode layout can be easily fitted to a broad range of industrial applications. A developed solution offers an internal measurement due to negligible thickness of sensor mount base profile. This paper analyses and compares measurement capabilities of a traditionally fabricated 3D ECT sensor with novel 3D-printed design. The authors compared two types of the 3D ECT sensors using experimental capacitance measurements for a set of low-contrast and high-contrast permittivity distribution phantoms. The comparison demonstrates advantages and benefits of using the new 3D-printed spatial capacitance sensor regarding the significant fabrication time reduction as well as the improvement of overall measurement accuracy and stability.

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Application and Development of an Environmentally Friendly Blast Hole Plug for Underground Coal Mines

Shock and Vibration ◽

10.1155/2018/6964386 ◽

2018 ◽

Vol 2018 ◽

pp. 1-12

Author(s):

Donghui Yang ◽

Yixin Zhao ◽

Zhangxuan Ning ◽

Zhaoheng Lv ◽

Huafeng Luo

Keyword(s):

Split Hopkinson Pressure Bar ◽

Low Cost ◽

Blast Hole ◽

Environmentally Friendly ◽

Test System ◽

Industrial Test ◽

Labor Intensity ◽

Rock Blasting ◽

Hopkinson Pressure Bar ◽

The Impact

Drilling and blasting technology is one of the main methods for pressure relief in deep mining. The traditional method for blasting hole blockage with clay stemming has many problems, which include a large volume of transportation, excess loading time, and high labor intensity. An environmentally friendly blast hole plug was designed and developed. This method is cheap, closely blocks the hole, is quickly loaded, and is convenient for transportation. The impact test on the plug was carried out using an improved split Hopkinson pressure bar test system, and the industrial test was carried out in underground tunnel of coal mine. The tests results showed that, compared with clay stemming, the new method proposed in this paper could prolong the action time of the detonation gas, prevent premature detonation gas emissions, reduce the unit consumption of explosives, improve the utilization ratio, reduce the labor intensity of workers, and improve the effect of rock blasting with low cost of rock breaking.

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Design for Test and Diagnosis of Power Switches

Journal of Circuits System and Computers ◽

10.1142/s0218126616400132 ◽

2015 ◽

Vol 25 (03) ◽

pp. 1640013

Author(s):

Miroslav Valka ◽

Alberto Bosio ◽

Luigi Dilillo ◽

Patrick Girard ◽

Arnaud Virazel ◽

...

Keyword(s):

Power Consumption ◽

Industrial Test ◽

Design For Test ◽

Power Gating ◽

Test Quality ◽

Worst Case ◽

Manufacturing Defects ◽

Efficient Test ◽

Power Switches ◽

Static Power

Power gating techniques have been adopted so far to reduce the static power consumption of integrated circuits (ICs). Power gating is usually implemented by means of several power switches (PSs). Manufacturing defects affecting PSs can lead to increase in the actual static power consumption and, in the worst case, they can completely isolate a functional block in the IC. Thus, efficient test and diagnosis solutions are needed. In this paper, we present a novel Design for Test and Diagnosis (DfTD) solution able to increase the test quality and diagnosis accuracy of PSs. The proposed approach has been validated through SPICE simulations on ITC’99 benchmark circuits as well as on industrial test cases.

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What Dictates the Meaning of Test Linking? A Reaction to “Thinking About Linking”

Measurement Interdisciplinary Research and Perspectives ◽

10.1080/15366361003684455 ◽

2010 ◽

Vol 8 (4) ◽

pp. 161-167

Author(s):

Alina A. von Davier

Keyword(s):

Test Linking

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Identification of L. casei and L. rhamnosus in the dairy products using Real-Time PCR assay

South Asian Journal of Experimental Biology ◽

10.38150/sajeb.4(5).p222-225 ◽

2015 ◽

Vol 4 (5) ◽

pp. 222-225

Author(s):

K. G. Li ◽

G. P. Pogossian ◽

A. K. Moldagulova ◽

E. E. Bekenova ◽

A. Abdikadirova ◽

...

Keyword(s):

Real Time ◽

Real Time Pcr ◽

Dairy Products ◽

Production Control ◽

High Efficiency ◽

High Specificity ◽

Industrial Test ◽

Fermented Dairy Products ◽

Species Specific ◽

Fermented Dairy

Lactobacilli are essential and important biological objects used in food pro-duction and medicine. One of the sufficient problems is fast, reliable and highly specific identification of lactobacilli in the scientific research and cur-rent production control. We represent two species-specific real-time PCR in the present study to discriminate L. rhamnosus and L. casei basing on the unique peptidoglycan-hydrolase genes p40 and p75 respectively. PCR pri-mers and probes were designed to provide high specificity discrimination via high temperature of PCR annealing stage. High efficiency of the reactions is provided by the size of amplified DNA fragments minimization. Reliable re-producibility of the target sequences amplification and fluorescence detec-tion provide a basis for the future creation of industrial test-systems for op-erational control in the production of fermented dairy products.

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Application of a three-step approach for prediction of combustion instabilities in industrial gas turbine burners

10.22261/jcw78t ◽

2017 ◽

Vol 1 ◽

pp. JCW78T

Author(s):

Dmytro Iurashev ◽

Giovanni Campa ◽

Vyacheslav V. Anisimov ◽

Ezio Cosatto ◽

Luca Rofi ◽

...

Keyword(s):

Gas Turbine ◽

Gas Turbines ◽

Time Lag ◽

High Amplitude ◽

Combustion Regime ◽

Industrial Test ◽

Distributed Model ◽

Combustion Instabilities ◽

Acoustic Oscillations ◽

Analytical Time

Abstract Recently, because of environmental regulations, gas turbine manufacturers are restricted to produce machines that work in the lean combustion regime. Gas turbines operating in this regime are prone to combustion-driven acoustic oscillations referred as combustion instabilities. These oscillations could have such high amplitude that they can damage gas turbine hardware. In this study, the three-step approach for combustion instabilities prediction is applied to an industrial test rig. As the first step, the flame transfer function (FTF) of the burner is obtained performing unsteady computational fluid dynamics (CFD) simulations. As the second step, the obtained FTF is approximated with an analytical time-lag-distributed model. The third step is the time-domain simulations using a network model. The obtained results are compared against the experimental data. The obtained results show a good agreement with the experimental ones and the developed approach is able to predict thermoacoustic instabilities in gas turbines combustion chambers.

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