A theoretical model for the determination of the optimal design of a power transportation and distribution system with several voltage levels

Determining the Norton’s Equivalent Model of Distribution System with Distributed Generation (DG) for Stability Analysis

Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) ◽

10.2174/2352096511666180723144119 ◽

2019 ◽

Vol 12 (2) ◽

pp. 190-198

Author(s):

Sunny Katyara ◽

Lukasz Staszewski ◽

Faheem Akhtar Chachar

Keyword(s):

Distributed Generation ◽

Normal Condition ◽

Distribution System ◽

Distribution Networks ◽

Equivalent Model ◽

Stability Factor ◽

Matlab Simulation ◽

The Stability ◽

Stability Issues

Background: Since the distribution networks are passive until Distributed Generation (DG) is not being installed into them, the stability issues occur in the distribution system after the integration of DG. Methods: In order to assure the simplicity during the calculations, many approximations have been proposed for finding the system’s parameters i.e. Voltage, active and reactive powers and load angle, more efficiently and accurately. This research presents an algorithm for finding the Norton’s equivalent model of distribution system with DG, considering from receiving end. Norton’s model of distribution system can be determined either from its complete configuration or through an algorithm using system’s voltage and current profiles. The algorithm involves the determination of derivative of apparent power against the current (dS/dIL) of the system. Results: This work also verifies the accuracy of proposed algorithm according to the relative variations in the phase angle of system’s impedance. This research also considers the varying states of distribution system due to switching in and out of DG and therefore Norton’s model needs to be updated accordingly. Conclusion: The efficacy of the proposed algorithm is verified through MATLAB simulation results under two scenarios, (i) normal condition and (ii) faulty condition. During normal condition, the stability factor near to 1 and change in dS/dIL was near to 0 while during fault condition, the stability factor was higher than 1 and the value of dS/dIL was away from 0.

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Second derivative synchronous fluorescence determination of avanafil in the presence of its acid-induced degradation product aided by powerful Lean Six Sigma tools augmented with D-optimal design

RSC Advances ◽

10.1039/d0ra08216c ◽

2021 ◽

Vol 11 (7) ◽

pp. 3834-3842

Author(s):

Khalid A. M. Attia ◽

Ahmad A. Mohamad ◽

Mohamed S. Emara ◽

Ahmed M. Abdel-Raoof ◽

Mohamed A. Hasan ◽

...

Keyword(s):

Optimal Design ◽

Quantitative Determination ◽

Degradation Product ◽

Six Sigma ◽

Lean Six Sigma ◽

Synchronous Fluorescence ◽

Second Derivative ◽

Fluorescence Determination ◽

Spectrofluorimetric Method

In this work, the quantitative determination of an erectile dysfunctional drug avanafil in the presence of its acid-induced degradation product was achieved via the application of a pre-optimized novel spectrofluorimetric method.

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Determination of failure rates of underground distribution system components from historical data

Proceedings of the 1991 IEEE Power Engineering Society Transmission and Distribution Conference ◽

10.1109/tdc.1991.169584 ◽

2002 ◽

Cited By ~ 4

Author(s):

W.F. Horton ◽

S. Goldberg

Keyword(s):

Distribution System ◽

Historical Data ◽

Failure Rates ◽

System Components

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D-optimal design for electrochemical simultaneous determination of bentazon and fenamiphos in natural waters

International Journal of Environmental & Analytical Chemistry ◽

10.1080/03067319.2021.2007241 ◽

2021 ◽

pp. 1-14

Author(s):

Lucia Codognoto ◽

Thays S. Lima ◽

Fábio R. Simões ◽

Heron D. T. Da Silva ◽

Eliana M. A. Valle

Keyword(s):

Optimal Design ◽

Simultaneous Determination ◽

Natural Waters

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Determination of variables for air distribution system with elastic valve for down-the-hole pneumatic hammer

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/53/1/012025 ◽

2017 ◽

Vol 53 ◽

pp. 012025

Author(s):

AYu Primychkin ◽

AS Kondratenko ◽

VV Timonin

Keyword(s):

Distribution System ◽

Air Distribution ◽

Pneumatic Hammer ◽

Elastic Valve

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Determination of Long Horizontal Borehole Height in Roofs and its Application to Gas Drainage

Energies ◽

10.3390/en11102647 ◽

2018 ◽

Vol 11 (10) ◽

pp. 2647

Author(s):

Gang Wang ◽

Cheng Fan ◽

Hao Xu ◽

Xuelin Liu ◽

Rui Wang

Keyword(s):

Numerical Simulation ◽

Theoretical Model ◽

Fracture Zone ◽

Coalbed Methane ◽

High Efficiency ◽

Gas Drainage ◽

Methane Drainage ◽

Working Face ◽

Variation Characteristics

Accurately determining the height of the gas-guiding fracture zone in the overlying strata of the goaf is the key to find the height of the long horizontal borehole in the roof. In order to determine the height, in this study we chose the 6306 working face of Tangkou Coal Mine in China as a research example and used both the theoretical model and discrete element method (DEM) numerical simulation to find the height of the gas-guiding fracture zone and applied the height to drill a long horizontal borehole in the roof of the 6303 working face. Furthermore, the borehole was utilized to deep into the roof for coalbed methane drainage and the results were compared with conventional gas drainage measures from other aspects. The height of the gas-guiding fracture zone was found to be 48.57 m in theoretical model based on the bulk coefficient and the void ratio and to be 51.19 m in the DEM numerical simulation according to the temporal and spatial variation characteristics of porosity. Taking both the results of theoretical analysis and numerical simulation into consideration, we determined that gas-guiding fracture zone is 49.88 m high and applied it to drill a long horizontal borehole deep into the roof in the 6303 working face field. Compared with conventional gas drainage measures, we found that the long horizontal borehole has the high stability, high efficiency and strong adaptability for methane drainage.

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Determination of Technological Forces in the Incremental Forming Process

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.371.133 ◽

2013 ◽

Vol 371 ◽

pp. 133-137

Author(s):

Radu Eugen Breaz ◽

Melania Tera ◽

Octavian Bologa ◽

Sever Gabriel Racz

Keyword(s):

Image Processing ◽

Theoretical Model ◽

Data Acquisition ◽

Incremental Forming ◽

Single Point ◽

Cnc Milling ◽

Forming Process ◽

Feed Drive ◽

Cnc Milling Machine

The paper presents a joint theoretical and experimental approach to determine the technological forces within the asymmetric single point incremental forming ASPIF process, based upon a theoretical model, image processing and data acquisition. The first step of this approach was to develop a theoretical model of the forces within the process, based upon the model of a mechanical feed drive of a CNC milling machine. By means of this model, relationships between the resistant torque at the motor spindle level and the technological force on the movement axis could be determined. Using an image processing method, which allowed the user to extract information within the machines operator panel and analytical relationships, the technological forces were determined. The results were compared with the measured values, obtained by means of a data acquisition system.

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