Analysis and solutions of power harmonics in medium voltage distribution networks

The transition toward more sustainable energy systems is driven mainly by greenhouse gas emissions reduction schemes and the growing demand for energy worldwide. Consequently, more Distributed Energy Resources (DER) based power sources and their enabling technologies such as Medium Voltage Direct Current (MVDC) systems are being integrated into the existing distribution networksto help meet such challenges. However, due to the presence of the Power Electronics (PE) based power converters interfacing these systems with the main power network, concerns related to power harmonics in today’s distribution networks must be addressed. To investigate the severity of power harmonics in the distribution networks with the presence of the MVDC converters, a detailed model of an MVDC converter including the switching behaviour of the semiconductor devices with a suitable control system and an interleaved Pulse-width Modulation (PWM) scheme was developed in this study. The key finding is that the proposed harmonic mitigation technique, the interleaved SPWM technique, has significantly reduced the Total Harmonic Distortion (THD) to 2% at the rated system capacity with no significant even-order harmonic components. The real data obtained from the power network of Albaha was also modelled and simulated in the frequency domain using the established harmonic models of the power system components to conductthe harmonic propagations study of the MVDC converter into the AC network. The MVDC converter harmonic performance in the Albaha power system revealed that the THDs at different voltage levels comply with the standard limits. Moreover, applications of Artificial Intelligence (AI), especially the optimization algorithms for power harmonic solutions have received considerable attention over recent years. Thus, in this research, the recently developed Manta Ray Foraging Optimization (MRFO) algorithm has been implemented for the optimal parameters design of a high-pass Passive Power Filter (PPF). An analytical harmonic analysis approach based on the Monte Carlo Simulation (MCS) was also proposed for PPF harmonic performance evaluation including uncertainties at the power network level. For the superiority validation of the MRFO algorithm, different optimizersthat have quite similar hunting and modelling strategies have been adopted. The MRFO algorithm has shown better solution-finding capability but relatively higher computational effort. By including uncertainties at the power network level, the harmonic performance of the optimally designed PPF proposed by the MRFO algorithm was investigated using a proposed MCS-based method, which has shown the significance of the PPF in terms of voltage distortions, system performance parameters, and the network’s hosting capacity for more renewable systems. The results imply that the optimally designed PPF can effectively attenuate the high-order harmonics and improved the system performance parameters over different operating conditions to continually comply with the standard limits. The proposed MCS method showed that the optimally designed PPF reduced the voltage and current distortions by roughly 54% and 30%, respectively, and improved the network hosting capacity by 10% for the worst-case scenario.Furthermore, DER-based power sources are predicted to cause significant harmonic distortions in today’s power networks due to the utilisation of power conversion systems, which are widely recognized as harmonic sources. Identifying the actual contribution of an offending harmonic source can be a challenging task, especially with multiple harmonic sources connected, changes in the system’s characteristic impedance, and the intermittent nature of renewable resources. Hence, a method based on an Artificial Neural Network (ANN) system including the location-specific data was proposed in this thesis to estimate the actual harmonic distortions of a harmonic source. The proposed method would help model the admittance of the harmonic source under the estimation, capture its harmonic performance over different operating conditions, and provide accurate harmonic distortions estimations. For this purpose, a simple power system was modelled and simulated, and the harmonic performance of a solar Photovoltaics (PV) system was used to train the ANN system and improve its prediction performance. Additionally, the expert ANN-based harmonic distortion estimator was validated in the IEEE 34-bus test feeder with different established harmonic sources, and it has estimated the individual harmonic components with a maximum error of less than 10% and a maximum median of 5.4

The effects of website quality on adoption of e-government service : an empirical study applying UTAUT model using SEM

In today&rsquo;s global age, e-government services have become the main channel for online communication between the government and its citizens. They aim to provide citizens with more accessible, accurate, real-time and high quality services. Therefore, the quality of government websites which provide e-services is an essential factor in the successful adoption of e-government services by the public. This paper discusses an investigation of the effect of the Website Quality (WQ) factor on the acceptance of using e-government services (G2C) in the Kingdom of Saudi Arabia (KSA) by adopting the Unified Theory of Acceptance and Use of Technology (UTAUT) Model. Survey Data collected from 400 respondents were examined using the structural equation modelling (SEM) technique and utilising AMOS tools. This study found that the factors that significantly influenced the Use Behaviour of e-government services in KSA (USE) include Performance Expectancy (PE), Effort expectancy (EE), Facilitating Conditions (FC) and Website Quality (WQ), while the construct known Social Influence (SI) did not. Moreover, the results confirm the importance of quality government websites and support systems as one of the main significant and influential factors of e-government services adoption. The results of this study can be helpful to Saudi&rsquo;s governmental sectors to adjust their corporate strategies and plans to advance successful adoption and diffusion of e-government services (G2C) in KSA.<br /

Empirical analysis on public expenditure for education and economic growth : evidence from Indonesia

The purpose of this paper is to find the relationship between public expenditure in the educational sector and the economic growth in Indonesia since the government decided to spend 20% of the state budget on education. We used time series data from 1988 to 2018 and the Cobb–Douglas production function as an economic theory for measurement. In the methodology, we employed Autoregressive Distributed Lag bound tests to find the relationship between variables. The results show that public expenditure on education has an insignificant relationship in the long- and short-term estimation. However, they both have different directions, which is a positive relationship in long-term and a negative relationship in short-term estimation. Meanwhile, gross fixed capital formation shows a positive relationship, and the labour variable has a negative relationship in the short and long terms. In conclusion, the Indonesian government should manage the education system regarding the relationship between education expenditure and economic growth

Optimal design of passive power filters using the MRFO algorithm and a practical harmonic analysis approach including uncertainties in distribution networks

The design of Passive Power Filters (PPFs) has been widely acknowledged as an optimization problem. This paper addresses the PPF parameters design problem using the novel Manta Ray Foraging Optimization (MRFO) algorithm. Moreover, an analytical method based on Monte Carlo Simulation (MCS) is proposed to investigate the harmonic performance of such an optimally designed PPF with variations in power networks. The MRFO algorithm has shown a superior solution-finding ability, but a relatively higher computational effort in comparison with other recently proposed algorithms. The harmonic performance of the optimal PPF solution with uncertainties was analyzed using the proposed method. The results imply that the optimally designed PPF can effectively attenuate the high-order harmonics and improved the system performance parameters over different operating conditions to continually comply with the standard limits. The proposed MCS method showed that the optimally designed PPF reduced the voltage and current distortions by roughly 54% and 30%, respectively, and improved the network hosting capacity by 10% for the worst-case scenario

Modelling and control development of a cascaded NPC-based MVDC converter for harmonic analysis studies in power distribution networks

Today’s power distribution networks are predicted to incorporate more Power Electronics (PE)-based power conversion systems, widely acknowledged as harmonic sources. Concerns about power harmonic severity in the distribution networks can arise, especially with the growing numbers of Medium Voltage Direct Current (MVDC) systems, which are also facilitated by such power converters. Yet, an accurate harmonic model of the MVDC converter is required to investigate its harmonic emissions, propagations, effects, and solutions in today’s distribution networks. This article is devoted to the development of a detailed model of a cascaded Neutral Point-Clamped (NPC)-based MVDC converter for accurate harmonic analysis studies. An appropriate control system with a simple Proportional Integral (PI) controller tuned using the loop-shaping technique is developed. An interleaved Sinusoidal Pulse-Width Modulation (SPWM) scheme aiming to improve the harmonic performance of such an application is introduced. The detailed model of the MVDC system was developed using the Simulink/MATLAB simulation environment, for which the concept of operation was validated, control system performance was investigated, and the effectiveness of the harmonic reduction method was analysed. The key finding is that the interleaved SPWM technique has significantly reduced the Total Harmonic Distortion (THD) to 2% with no significant even-order harmonic components in comparison to the reported models

An artificial neural network based harmonic distortions estimator for grid- connected power converter-based applications

Grid-connected solar Photovoltaic (PV) systems are predicted to cause significant harmonic distortions in today’s power networks due to the increase utilization of power conversion systems widely recognized as harmonic sources. Estimating the actual harmonic emissions of a certain harmonic source can be a challenging task, especially with multiple harmonic sources connected, changes in the system’s characteristic impedance, and the intermittent nature of renewable resources. A method based on an Artificial Neural Network (ANN) system including the location-specific data is proposed in this paper to estimate the actual harmonic distortions of a solar PV inverter. A simple power system is modelled and simulated for different cases to train the ANN system and improve its prediction performance. The method is validated in the IEEE 34-bus test feeder with established harmonic sources, and it has estimated the individual harmonic components with a maximum error of less than 10% and a maximum median of 5.4%

A pattern reconfigurable antenna using eight-dipole configuration for energy harvesting applications

A pattern reconfigurable antenna, composed of eight elements, is proposed for energy harvesting applications. Pattern reconfigurable antennas are a promising technique for harvesting from different wireless sources. The radiation pattern of the proposed antenna can be steered electronically using an RF switch matrix, covering an angle range from 0 to 360 degrees with a step size of 45 degrees. The proposed antenna primarily consists of an eight-dipole configuration that shares the same excitation. Each dipole is excited using a balun comprising a quarter-wavelength grounded stub and a quarter-wavelength open-circuit stub. The proposed antenna operates in the frequency range of 4.17 to 4.5 GHz, with an impedance bandwidth of 7.6%. By switching between the different switches, the antenna can be steered with a narrower rotational angle. In addition, the antenna can work in an omnidirectional mode when all switches are in the ON state simultaneously. The results demonstrate a good agreement between the numerical and experimental findings for the reflection coefficient and radiation characteristics of the proposed reconfigurable antenna

Tracking analysis of maximum Versoria criterion based adaptive filter

Recently, maximum Versoria criterion-based adaptive algorithms have been introduced as a new solution for robust adaptive filtering. This paper studies the steady-state tracking analysis of an adaptive filter with maximum Versoria criterion (MVC) in a non-stationary (Markov time-varying) system. Our analysis relies on the energy conservation method. Both Gaussian and general non-Gaussian noise are considered, and for both cases, the closed-form expression for steady-state excess mean square error (EMSE) is derived. Regardless of noise type, unlike the stationary environment, the EMSE curves are not increasing functions of step-size parameter. The validity of the theoretical results is justified via simulation