ABSTRACT:The increased demand for electricity and the depletion of fossil energy sources are a challenge to exploit new and renewable energy sources. Relatively cheap renewable energy sources are Wind Power Plant (WPP) and Photovoltaic System (PV). Currently, many small scale generating plants are being evolved into conventional systems known as Embedded Generation (EG). EG as a source of electricity in the distribution system will affect the flow of system power, system reliability, voltage profile and others. Besides, with the placement of converter technology in WPP and PV system will give contribution of harmonic enhancement to the system. This paper presents the harmonic analysis of WPP and PV designs that are injected into conventional distribution system in one bus at Pujon feeder station Malang, Indonesia. The bus is chosen because in this area the need for electric power in the area is very high and the existing system has a harmonic value of 11%. Hybrid Active Filter (HAF) is designed to lower the voltage harmonics due to EG injection into existing systems without affecting harmonics in other buses. To analyze the harmonics in this study there are 4 scenarios offered: Scenario 1 starts with analysis on existing system, scenario 2 existing in WPP 2 MVA injection, scenario 3, injection1.3 MVA PV, scenario 4 injected EG (WPP and PV). The simulation result using PSCAD 4.5 shows in scenario 4 to generate harmonic voltage of 18.6% and after added with HAF, the harmonic value of the voltage becomes 2.434%
Grid-Connection Control and Simulation of PMSG Wind Power System Based on Mul...ijsrd.com
This dissertation proposes a wind energy conversion system is composed of a wind turbine PMSG, a rectifier, and an inverter. The wind turbine PMSG transforms the mechanical power from the wind into the electrical power, while the rectifier converts the AC power into DC power and controls the speed of the PMSG. The controllable inverter helps in converting the DC power to variable frequency and magnitude AC power. With the voltage oriented control, the inverter also possesses the ability to control the active and reactive powers injected into the grid. Multilevel inerter is used to step up the voltage and to reduce the THD. Here nine level and eleven level inverter are used and the voltage increases and THD reduces from 12.87 % to 7.46 %. Active and reactive power is controlled dc stabilization and the reactive power is near to unity Here PI controller is used to control the inverter output rms voltage and LC filter is used to remove the harmonics available in the system.
Drive Applications of Fuzzy Logic Controlled Interleaved Boost Converter for ...EECJOURNAL
The improvement in the efficiency, a reduced ripple and reduction in the passive elements is proposed in this project through the interleaved boost converter. The interleaved boost converter operates multiple phase approach, is used for the power factor control applications. The proposed converter is used to extract the power output from the solar panel with reduced ripple losses and greater efficiency thereby obtaining the maximum power from the solar panel. The control of the current with energy saving method is obtained with the efficiency of 95%. The converter operation is controlled by the fuzzy logic controller to operate the switches with the finest and reduced power loss constrains. The proposed method is mathematically modeled and the results are analysed. A similar prototype model is designed and the results are compared with the theoretical values.
In a distributed generation system, divers renewable agents are connected to the low voltage 3 phase utility grid by an inverter which is used as power condition and must assurance the higher efficiency of the renewable agent. To achieve this level of efficiency, a unitary power factor between the utility grid voltages and the inverter currents is necessary, and a synchronization algorithm is required for the perfect synchronization between the 3-phase utility grid and the renewable agent. The aim of this paper is to present the optimization of the performance of a Synchronization controller for a 3-phase photovoltaic grid-connected system, assessing its accuracy under different conditions and studying their drawbacks and advantages. A grid connected photovoltaic system with a nominal power of 5 kW is used so as to assess the behavior of the synchronization algorithm when the 3 phase utility grid is affected by some disturbances such as voltage unbalances.
Measurement and Analysis of Power in Hybrid Systemijeei-iaes
Application with renewable energy sources such as solar cell array, wind turbines, or fuel cells have increased significantly during the past decade. To obtain the clean energy, we are using the hybrid solar-wind power generation. Consumers prefer quality power from suppliers. The quality of power can be measured by using parameters such as voltage sag, harmonic and power factor. To obtain quality power we have different topologies. In our paper we present a new possible topology which improves power quality. This paper presents modeling analysis and design of a pulse width modulation voltage source inverter (PWM-VSI) to be connected between sources, which supplies energy from a hybrid solar wind energy system to the ac grid. The objective of this paper is to show that, with an adequate control, the converter not only can transfer the dc from hybrid solar wind energy system, but also can improve the power factor and quality power of electrical system. Whenever a disturbance occurs on load side, this disturbance can be minimized using open loop and closed loop control systems.
High Proficiency Grid ConnectedPhotovoltaic Power Generation SystemIJRES Journal
Solar energy hasbecomepopular nowadays and desire for clean energy. Since the solar radiation on no occasion remains constant,it keeps on insecure throughout the day. The need of the hour is to distribute a constant voltage to the grid irrespective of the deviation in temperatures and solar insolation. The inverter is designed from a boost converter along with a line frequency. The voltage from the boost converter is fedto the grid through inverter. In this proposed method high efficiency can be achievedby using only one switch functioning at high frequency at a time. The converter uses IGBT and ultra-fast reverse recovery diode. The simulation and experiment results are verified using MATLAB/Simulink software.
Improvement of Power Quality using Fuzzy Logic Controller in Grid Connected P...IAES-IJPEDS
In this paper, the design of combined operation of UPQC and PV-ARRAY is designed. The proposed system is composed of series and shunt inverters connected back to back by a dc-link to which pv-array is connected. This system is able to compensate voltage and current related problems both in inter-connected mode and islanding mode by injecting active power to grid. The fundamental aspect is that the power electronic devices (PE) and sensitive equipments (SE) are normally designed to work in non-polluted power system, so they would suffer from malfunctions when supply voltage is not pure sinusoidal. Thus this proposed operating strategy with flexible operation mode improves the power quality of the grid system combining photovoltaic array with a control of unified power quality conditioner. Pulse Width Modulation (PWM) is used in both three phase four leg inverters. A Proportional Integral (PI) and Fuzzy Logic Controllers are used for power quality improvement by reducing the distortions in the output power. The simulated results were compared among the two controller’s strategies With pi controller and fuzzy logic controller
Parallel Operation of Current-Source Inverter for Low-Voltage High-Current Gr...IJECEIAES
Solar energy is very potential to be developed in a tropical country such as in Indonesia. This energy source is eco-friendly because it can eliminate air pollution such as caused by conventional fossil fuels. This research article presents analysis results of a novel grid-connected photovoltaic system using low-voltage high-current system. The electrical energy produced by the photovoltaic system was sent into the electrical power grid using two or more H-bridge current source inverters operated in parallel. The proposed system is very suitable for large size photovoltaic system because of its some merits. The inverter circuits work generating sinusoidal output currents and controlling the power delivered into the grid. The test results of the new system showed that the system worked properly as interface between photovoltaic system and the electrical grid delivering high ac current with low harmonic distortion.
Grid-Connection Control and Simulation of PMSG Wind Power System Based on Mul...ijsrd.com
This dissertation proposes a wind energy conversion system is composed of a wind turbine PMSG, a rectifier, and an inverter. The wind turbine PMSG transforms the mechanical power from the wind into the electrical power, while the rectifier converts the AC power into DC power and controls the speed of the PMSG. The controllable inverter helps in converting the DC power to variable frequency and magnitude AC power. With the voltage oriented control, the inverter also possesses the ability to control the active and reactive powers injected into the grid. Multilevel inerter is used to step up the voltage and to reduce the THD. Here nine level and eleven level inverter are used and the voltage increases and THD reduces from 12.87 % to 7.46 %. Active and reactive power is controlled dc stabilization and the reactive power is near to unity Here PI controller is used to control the inverter output rms voltage and LC filter is used to remove the harmonics available in the system.
Drive Applications of Fuzzy Logic Controlled Interleaved Boost Converter for ...EECJOURNAL
The improvement in the efficiency, a reduced ripple and reduction in the passive elements is proposed in this project through the interleaved boost converter. The interleaved boost converter operates multiple phase approach, is used for the power factor control applications. The proposed converter is used to extract the power output from the solar panel with reduced ripple losses and greater efficiency thereby obtaining the maximum power from the solar panel. The control of the current with energy saving method is obtained with the efficiency of 95%. The converter operation is controlled by the fuzzy logic controller to operate the switches with the finest and reduced power loss constrains. The proposed method is mathematically modeled and the results are analysed. A similar prototype model is designed and the results are compared with the theoretical values.
In a distributed generation system, divers renewable agents are connected to the low voltage 3 phase utility grid by an inverter which is used as power condition and must assurance the higher efficiency of the renewable agent. To achieve this level of efficiency, a unitary power factor between the utility grid voltages and the inverter currents is necessary, and a synchronization algorithm is required for the perfect synchronization between the 3-phase utility grid and the renewable agent. The aim of this paper is to present the optimization of the performance of a Synchronization controller for a 3-phase photovoltaic grid-connected system, assessing its accuracy under different conditions and studying their drawbacks and advantages. A grid connected photovoltaic system with a nominal power of 5 kW is used so as to assess the behavior of the synchronization algorithm when the 3 phase utility grid is affected by some disturbances such as voltage unbalances.
Measurement and Analysis of Power in Hybrid Systemijeei-iaes
Application with renewable energy sources such as solar cell array, wind turbines, or fuel cells have increased significantly during the past decade. To obtain the clean energy, we are using the hybrid solar-wind power generation. Consumers prefer quality power from suppliers. The quality of power can be measured by using parameters such as voltage sag, harmonic and power factor. To obtain quality power we have different topologies. In our paper we present a new possible topology which improves power quality. This paper presents modeling analysis and design of a pulse width modulation voltage source inverter (PWM-VSI) to be connected between sources, which supplies energy from a hybrid solar wind energy system to the ac grid. The objective of this paper is to show that, with an adequate control, the converter not only can transfer the dc from hybrid solar wind energy system, but also can improve the power factor and quality power of electrical system. Whenever a disturbance occurs on load side, this disturbance can be minimized using open loop and closed loop control systems.
High Proficiency Grid ConnectedPhotovoltaic Power Generation SystemIJRES Journal
Solar energy hasbecomepopular nowadays and desire for clean energy. Since the solar radiation on no occasion remains constant,it keeps on insecure throughout the day. The need of the hour is to distribute a constant voltage to the grid irrespective of the deviation in temperatures and solar insolation. The inverter is designed from a boost converter along with a line frequency. The voltage from the boost converter is fedto the grid through inverter. In this proposed method high efficiency can be achievedby using only one switch functioning at high frequency at a time. The converter uses IGBT and ultra-fast reverse recovery diode. The simulation and experiment results are verified using MATLAB/Simulink software.
Improvement of Power Quality using Fuzzy Logic Controller in Grid Connected P...IAES-IJPEDS
In this paper, the design of combined operation of UPQC and PV-ARRAY is designed. The proposed system is composed of series and shunt inverters connected back to back by a dc-link to which pv-array is connected. This system is able to compensate voltage and current related problems both in inter-connected mode and islanding mode by injecting active power to grid. The fundamental aspect is that the power electronic devices (PE) and sensitive equipments (SE) are normally designed to work in non-polluted power system, so they would suffer from malfunctions when supply voltage is not pure sinusoidal. Thus this proposed operating strategy with flexible operation mode improves the power quality of the grid system combining photovoltaic array with a control of unified power quality conditioner. Pulse Width Modulation (PWM) is used in both three phase four leg inverters. A Proportional Integral (PI) and Fuzzy Logic Controllers are used for power quality improvement by reducing the distortions in the output power. The simulated results were compared among the two controller’s strategies With pi controller and fuzzy logic controller
Parallel Operation of Current-Source Inverter for Low-Voltage High-Current Gr...IJECEIAES
Solar energy is very potential to be developed in a tropical country such as in Indonesia. This energy source is eco-friendly because it can eliminate air pollution such as caused by conventional fossil fuels. This research article presents analysis results of a novel grid-connected photovoltaic system using low-voltage high-current system. The electrical energy produced by the photovoltaic system was sent into the electrical power grid using two or more H-bridge current source inverters operated in parallel. The proposed system is very suitable for large size photovoltaic system because of its some merits. The inverter circuits work generating sinusoidal output currents and controlling the power delivered into the grid. The test results of the new system showed that the system worked properly as interface between photovoltaic system and the electrical grid delivering high ac current with low harmonic distortion.
Comparative of Conventional and Intelligence Controller based Hybrid Generati...IJERD Editor
Harmonic pollution of the power supply system has risen significantly in recent years due primarily
to an increase of non-linear loads connected to the utility through residential, commercial and industrial
customers. This paper, proposed a solution to eliminate the harmonics introduced by the nonlinear loads in
steady and in transients. It presents a predictive current control strategy for achieving maximum benefits from
these grid-interfacing inverters implementing conventional DC link controller and intelligence controller, when
installed in 3-phase 4-leg voltage source inverter (VSI). The inverter is controlled to perform as a multi-function
device by incorporating active power filter functionality. The use of a four-leg voltage-source inverter allows
the compensation of current harmonic components, as well as unbalanced current generated by three-phase
nonlinear loads. Renewable energy resources (RES) are being increasingly connected in distribution systems
utilizing power electronic converters. The compensation performance of the proposed active power filter and the
associated hybrid PV/Wind system generation scheme with new control scheme is demonstrated to improve the
power quality features is simulated using MATLAB/SIMULINK.
Performance Analysis of DC Micro Grid with PV-Fuel Cell Hybrid GenerationIJMREMJournal
Conventional energy resources are being replaced by Renewable energy sources mainly due to increasing
environmental concerns. Photovoltaic (PV) and Fuel cell (FC) are suitable to be used in modern DC microgrids
due to their DC output. In this research work, a DC microgrid structure is proposed for small residential areas
using hybrid PV and FC generation. Power Electronic converters are used to regulate generated voltage of the
two sources for integration to a common DC bus. Proposed system is simulated using MATLAB SIMULINK to
observe its performance. Simulation results show that output voltage is properly maintained at different DC
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
The real problems in diminution of power quality occurs due to the rapid growth of nonlinear load are leads to sudden decrease of source voltage for a few seconds i.e sag, swell, harmonics in source and load current, voltage unbalance etc. All these problems can be compensated by using Unified Power Quality Controller (UPQC) and the operation of UPQC depends upon the available voltage across capacitor present in dc link. If the capacitor voltage is maintained constant then it gives satisfactory performance. The proposed research is basically on designing of Photo Voltaic (PV) /Wind energy fed to the dc link capacitor of UPQC so as to maintain proper voltage across it and operate the UPQC for power quality analysis. The said model is simulated in Matlab and results are verified by using FFT analysis.The proposed PV/ Wind energy-UPQC is design in Matlab simulation for reduction of voltage sag, swell, interruption of voltage, harmonics in load current and compensation of active and reactive power.
Electric Vehicle as an Energy Storage for Grid Connected Solar Power SystemIAES-IJPEDS
In the past few years the growing demand for electricity and serious concern
for the environment have given rise to the growth of sustainable sources like
wind, solar, tidal, biomass etc. The technological advancement in power
electronics has led to the extensive usage of solar power. Solar power output
varies with the weather conditions and under shading conditions. With the
increasing concerns of the impacts of the high penetration of Photovoltaic
(PV) systems, a technical study about their effects on the power quality of
the utility grid is required. This paper investigates the functioning of a gridtied
PV system along with maximum power point tracking (MPPT)
algorithm. The effects of varying atmospheric conditions like solar irradiance
and temperature are also taken into account. It is proposed in this work that
an Electric Vehicle (EV) can be used as an energy storage to stabilize the
power supplied to the grid from the photovoltaic resources. A coordinated
control is necessary for the EV to obtain desired outcome. The modeling of
the PV and EV system is carried out in PSCAD and the proposed idea is
verified through simulation results utilizing real field data for solar irradiance
and temperature.
Development and Analysis of Fuzzy Control for MPPT Based Photovoltaic SystemIJERD Editor
In PV system control of Power electronics converters are very essential for the efficient utilization
of the solar System. This paper proposes modified Perturb & Observe Maximum power point tracking (MPPT)
with a fuzzy controller for DC-DC boost converter control in Photovoltaic system under shading and varying
atmospheric conditions. This paper proposes a different approach for MPPT of PV system so as to obtain
maximum power from PV system. In conventional methods, tracking power contains oscillation in the output
power. The Simulation and modeling of Photovoltaic system along with proposed algorithm are done using
MATLAB/SIMLINK software. Form Simulation results shows that P & O based fuzzy controller algorithm is
transient state is fast, less fluctuations and smooth in signal of generated power.
Hybrid Green Energy Systems for Uninterrupted ElectrificationDr.NAGARAJAN. S
In this paper, a new multiport, hybrid green-fed DC-DC bidirectional converter is designed and fed into the standalone system. This model is developed and integrated to study the concept of generating systems. In this model, a PV panel of 300 watts is designed and integrated to a bidirectional converter with a battery backup to extract power, while the wind power is harnessed with a transformer coupled a dual-half-bridge converter. The model proposed is designed with a meritorious objective of sustainable, cost-effective, less component count reduced losses, and good efficiency with a good relia- bility. The system works day and night to produce output with good efficiency. The simulation results are obtained using MATLAB software 2014a, and hence, the performance is analyzed.
Fuzzy based Modular Cascaded H-Bridge Multilevel PV Inverter with Distributed...IJMTST Journal
The inverters are categorized according to the configuration of the PV system, the configuration of the conversion stages within the inverter and whether they use transformers. After the introduction of the state of the art of inverters for PV systems with and without transformers, the paper focuses on some known problems and challenges for transformer less inverters. Topologies without transformers have big advantages like low weight, volume and cost. In addition they often reach higher efficiencies than topologies with transformers. Eliminating the leakage current is one of the most important issues for transformer less inverters in grid-connected photovoltaic system applications, where the technical challenge is how to keep the system common-mode voltage constant to reduce the leakage current. To realize better utilization of PV modules and maximize the solar energy extraction, a distributed maximum power point tracking control scheme is applied to both single- and three-phase multilevel inverters, which allows independent control of each dc-link voltage. For three-phase grid-connected applications, PV mismatches may introduce unbalanced supplied power, leading to unbalanced grid current.
This paper presents the analysis, modeling and control of a grid connected photovoltaic generation system. The model contains a detailed representation of the solar array, grid side multilevel neutral point clamped voltage source inverter. Fuzzy logic controller for the maximum power point tracking of a photovoltaic system under variable temperature and insulation conditions is discussed. The PQ control approach has been presented for the multilevel inverter. One of the most common control strategies structures applied to decentralized power generator is based on power direct control employing a controller for the dc link voltage and a controller to regulate the injected current to the utility network. The proposed models were implemented in Matlab/Simulink.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Nowadays tremendous increase in renewable energy technologies available in abounding nature energy extracted from sun, wind etc. This Proposed topology gathered maximum power using multi input ky boost converters for hybrid energy. This hybrid topology operates mainly delivered the power from renewable energy sources solar/wind to dc bus. In the absence of any one source, wind or solar supplies power to the dc bus. Without any renewable energy sources battery deliver the power to dc bus.An inverter type module convert the power from dc bus to ac grid. In this paper effectiveness of hybrid renewable energy is simulated through MATLAB/SIMULINK.
The battery energy storage systems are very essential for maintaining constant power supply when using solar photovoltaic systems for power generation. The viability and ability of battery energy storage systems are assessed based on battery usage in Solar Photovoltaic utility grid-connected systems. The power supply quality and reliability are improved by utilizing battery energy storage technologies in conjunction with solar photovoltaic systems. This paper presents a comparative analysis of Lead-Acid Storage battery and Lithium-ion battery banks connected to a utility grid. The battery mathematical model simulation study gives their performance characteristics of these batteries under grid-connected loads. Cost-benefit analysis of battery usage for determining the best battery suitable for solar photovoltaic system applications is also presented in this paper.
A Wind driven PV- FC Hybrid System and its Power Management Strategies in a GridIJERA Editor
This paper shows the work done on the method to operate a Wind driven grid connected hybrid system which is composed of a Photovoltaic (PV) array and a Proton exchange membrane fuel cell . A wind system provides with an opportunity to harness the abundantly available renewable resource. With the proton exchange membrane the hybrid system output power becomes controllable. Here the system uses two operation modes, the unit-power control (UPC) mode and the feeder-flow control (FFC) mode. This papers discusses the coordination of two control modes, the coordination of the PV array and the proton exchange membrane fuel cell in hybrid system and the way in which the reference parameters are determined.
International Journal of Engineering Research and Applications (IJERA) aims to cover the latest outstanding developments in the field of all Engineering Technologies & science.
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
Our journal system primarily aims to bring out the research talent and the works done by sciaentists, academia, engineers, practitioners, scholars, post graduate students of engineering and science. This journal aims to cover the scientific research in a broader sense and not publishing a niche area of research facilitating researchers from various verticals to publish their papers. It is also aimed to provide a platform for the researchers to publish in a shorter of time, enabling them to continue further All articles published are freely available to scientific researchers in the Government agencies,educators and the general public. We are taking serious efforts to promote our journal across the globe in various ways, we are sure that our journal will act as a scientific platform for all researchers to publish their works online.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Comparative of Conventional and Intelligence Controller based Hybrid Generati...IJERD Editor
Harmonic pollution of the power supply system has risen significantly in recent years due primarily
to an increase of non-linear loads connected to the utility through residential, commercial and industrial
customers. This paper, proposed a solution to eliminate the harmonics introduced by the nonlinear loads in
steady and in transients. It presents a predictive current control strategy for achieving maximum benefits from
these grid-interfacing inverters implementing conventional DC link controller and intelligence controller, when
installed in 3-phase 4-leg voltage source inverter (VSI). The inverter is controlled to perform as a multi-function
device by incorporating active power filter functionality. The use of a four-leg voltage-source inverter allows
the compensation of current harmonic components, as well as unbalanced current generated by three-phase
nonlinear loads. Renewable energy resources (RES) are being increasingly connected in distribution systems
utilizing power electronic converters. The compensation performance of the proposed active power filter and the
associated hybrid PV/Wind system generation scheme with new control scheme is demonstrated to improve the
power quality features is simulated using MATLAB/SIMULINK.
Performance Analysis of DC Micro Grid with PV-Fuel Cell Hybrid GenerationIJMREMJournal
Conventional energy resources are being replaced by Renewable energy sources mainly due to increasing
environmental concerns. Photovoltaic (PV) and Fuel cell (FC) are suitable to be used in modern DC microgrids
due to their DC output. In this research work, a DC microgrid structure is proposed for small residential areas
using hybrid PV and FC generation. Power Electronic converters are used to regulate generated voltage of the
two sources for integration to a common DC bus. Proposed system is simulated using MATLAB SIMULINK to
observe its performance. Simulation results show that output voltage is properly maintained at different DC
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
The real problems in diminution of power quality occurs due to the rapid growth of nonlinear load are leads to sudden decrease of source voltage for a few seconds i.e sag, swell, harmonics in source and load current, voltage unbalance etc. All these problems can be compensated by using Unified Power Quality Controller (UPQC) and the operation of UPQC depends upon the available voltage across capacitor present in dc link. If the capacitor voltage is maintained constant then it gives satisfactory performance. The proposed research is basically on designing of Photo Voltaic (PV) /Wind energy fed to the dc link capacitor of UPQC so as to maintain proper voltage across it and operate the UPQC for power quality analysis. The said model is simulated in Matlab and results are verified by using FFT analysis.The proposed PV/ Wind energy-UPQC is design in Matlab simulation for reduction of voltage sag, swell, interruption of voltage, harmonics in load current and compensation of active and reactive power.
Electric Vehicle as an Energy Storage for Grid Connected Solar Power SystemIAES-IJPEDS
In the past few years the growing demand for electricity and serious concern
for the environment have given rise to the growth of sustainable sources like
wind, solar, tidal, biomass etc. The technological advancement in power
electronics has led to the extensive usage of solar power. Solar power output
varies with the weather conditions and under shading conditions. With the
increasing concerns of the impacts of the high penetration of Photovoltaic
(PV) systems, a technical study about their effects on the power quality of
the utility grid is required. This paper investigates the functioning of a gridtied
PV system along with maximum power point tracking (MPPT)
algorithm. The effects of varying atmospheric conditions like solar irradiance
and temperature are also taken into account. It is proposed in this work that
an Electric Vehicle (EV) can be used as an energy storage to stabilize the
power supplied to the grid from the photovoltaic resources. A coordinated
control is necessary for the EV to obtain desired outcome. The modeling of
the PV and EV system is carried out in PSCAD and the proposed idea is
verified through simulation results utilizing real field data for solar irradiance
and temperature.
Development and Analysis of Fuzzy Control for MPPT Based Photovoltaic SystemIJERD Editor
In PV system control of Power electronics converters are very essential for the efficient utilization
of the solar System. This paper proposes modified Perturb & Observe Maximum power point tracking (MPPT)
with a fuzzy controller for DC-DC boost converter control in Photovoltaic system under shading and varying
atmospheric conditions. This paper proposes a different approach for MPPT of PV system so as to obtain
maximum power from PV system. In conventional methods, tracking power contains oscillation in the output
power. The Simulation and modeling of Photovoltaic system along with proposed algorithm are done using
MATLAB/SIMLINK software. Form Simulation results shows that P & O based fuzzy controller algorithm is
transient state is fast, less fluctuations and smooth in signal of generated power.
Hybrid Green Energy Systems for Uninterrupted ElectrificationDr.NAGARAJAN. S
In this paper, a new multiport, hybrid green-fed DC-DC bidirectional converter is designed and fed into the standalone system. This model is developed and integrated to study the concept of generating systems. In this model, a PV panel of 300 watts is designed and integrated to a bidirectional converter with a battery backup to extract power, while the wind power is harnessed with a transformer coupled a dual-half-bridge converter. The model proposed is designed with a meritorious objective of sustainable, cost-effective, less component count reduced losses, and good efficiency with a good relia- bility. The system works day and night to produce output with good efficiency. The simulation results are obtained using MATLAB software 2014a, and hence, the performance is analyzed.
Fuzzy based Modular Cascaded H-Bridge Multilevel PV Inverter with Distributed...IJMTST Journal
The inverters are categorized according to the configuration of the PV system, the configuration of the conversion stages within the inverter and whether they use transformers. After the introduction of the state of the art of inverters for PV systems with and without transformers, the paper focuses on some known problems and challenges for transformer less inverters. Topologies without transformers have big advantages like low weight, volume and cost. In addition they often reach higher efficiencies than topologies with transformers. Eliminating the leakage current is one of the most important issues for transformer less inverters in grid-connected photovoltaic system applications, where the technical challenge is how to keep the system common-mode voltage constant to reduce the leakage current. To realize better utilization of PV modules and maximize the solar energy extraction, a distributed maximum power point tracking control scheme is applied to both single- and three-phase multilevel inverters, which allows independent control of each dc-link voltage. For three-phase grid-connected applications, PV mismatches may introduce unbalanced supplied power, leading to unbalanced grid current.
This paper presents the analysis, modeling and control of a grid connected photovoltaic generation system. The model contains a detailed representation of the solar array, grid side multilevel neutral point clamped voltage source inverter. Fuzzy logic controller for the maximum power point tracking of a photovoltaic system under variable temperature and insulation conditions is discussed. The PQ control approach has been presented for the multilevel inverter. One of the most common control strategies structures applied to decentralized power generator is based on power direct control employing a controller for the dc link voltage and a controller to regulate the injected current to the utility network. The proposed models were implemented in Matlab/Simulink.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Nowadays tremendous increase in renewable energy technologies available in abounding nature energy extracted from sun, wind etc. This Proposed topology gathered maximum power using multi input ky boost converters for hybrid energy. This hybrid topology operates mainly delivered the power from renewable energy sources solar/wind to dc bus. In the absence of any one source, wind or solar supplies power to the dc bus. Without any renewable energy sources battery deliver the power to dc bus.An inverter type module convert the power from dc bus to ac grid. In this paper effectiveness of hybrid renewable energy is simulated through MATLAB/SIMULINK.
The battery energy storage systems are very essential for maintaining constant power supply when using solar photovoltaic systems for power generation. The viability and ability of battery energy storage systems are assessed based on battery usage in Solar Photovoltaic utility grid-connected systems. The power supply quality and reliability are improved by utilizing battery energy storage technologies in conjunction with solar photovoltaic systems. This paper presents a comparative analysis of Lead-Acid Storage battery and Lithium-ion battery banks connected to a utility grid. The battery mathematical model simulation study gives their performance characteristics of these batteries under grid-connected loads. Cost-benefit analysis of battery usage for determining the best battery suitable for solar photovoltaic system applications is also presented in this paper.
A Wind driven PV- FC Hybrid System and its Power Management Strategies in a GridIJERA Editor
This paper shows the work done on the method to operate a Wind driven grid connected hybrid system which is composed of a Photovoltaic (PV) array and a Proton exchange membrane fuel cell . A wind system provides with an opportunity to harness the abundantly available renewable resource. With the proton exchange membrane the hybrid system output power becomes controllable. Here the system uses two operation modes, the unit-power control (UPC) mode and the feeder-flow control (FFC) mode. This papers discusses the coordination of two control modes, the coordination of the PV array and the proton exchange membrane fuel cell in hybrid system and the way in which the reference parameters are determined.
International Journal of Engineering Research and Applications (IJERA) aims to cover the latest outstanding developments in the field of all Engineering Technologies & science.
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
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International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
PV Hybrid System with DSTATCOM for Residential ApplicationsIDES Editor
Now a days PV based energy systems are playing a
vital role among all the renewable energy sourcesin our day
to day life.Proper control should be required to meet the exact
load conditions such that it should satisfy the non-linear
nature of both the solar irradiance and load. In this paper, a
battery is also incorporated along with the PV system to meet
the necessary drop due to change in weather conditions. Here,
a proper control is achieved by using DSTATCOM to
compensate the reactive power. This paper proposes an
advanced technique of PWM to generate the gating pulses
and applied to a Cascaded H-Bridge multilevel inverter to
improve the voltage quality. Here, the entire system is designed
to meet the load of Mogulthur (W.G.Dt. Andhra Pradesh).
Simulation results are presented through Matlab/Simulink
by taking different cases into consideration.
Comparison of upqc and dvr in wind turbine fed fsig under asymmetric faultselelijjournal
This paper presents the mitigation of faults in wind turbine connected fixed speed induction generator using unified power quality conditioner and static compensator. The UPQC consists of shunt and series converters connected back-to-back through a dc-to-dc step up converter. The presence of the dc-to-dc step converter permits the UPQC to compensate faults for long duration. The series converter is connected to the supply side whereas the shunt converter is connected to the load side. The control system of the proposed UPQC is based on Id-Iq theory. The DVR consists of shunt and series converters connected back-to-back through a dc-to-dc step up converter. The presence of the dc-to-dc step converter permits the DVR to compensate faults for long duration. The series converter is connected to the supply side whereas the shunt converter is connected to the load side. The control system of the proposed DVR is based on
hysteresis voltage controlThe proposed wind turbine fed fixed speed induction generator is evaluated and simulated using MATLAB/SIMULINK environment with UPQC and DVR under asymmetric faults
Advance Technology in Application of Four Leg Inverters to UPQCIJPEDS-IAES
This article presents a novel application of four leg inverter with
conventional Sinusoidal Pulse Width Modulation (SPWM) Scheme to
Unified Power Quality Conditioner (UPQC). The Power Quality problem
became burning issues since the starting of high voltage AC transmission
system. Hence, in this article it has been discussed to mitigate the PQ issues
in high voltage AC systems through a three phase Unified Power Quality
Conditioner (UPQC) under various conditions, such as harmonic mitigation
scheme, non linear loads, sag and swell conditions as well. Also, it proposes
to control harmoincs with various artificial intelligent techniques. Thus
application of these control technique such as Neural Networks (ANN)
Fuzzy Logic makes the system performance in par with the standards
and also compared with existing system. The simulation results based on
MATLAB/Simulink are discussed in detail to support the concept developed
in the paper.
Power Quality Improvement Using Custom Power Devices in Squirrel Cage Inducti...IJPEDS-IAES
Wind farm is connected to the grid directly.The wind is not constant voltage fluctuations occur at point of common coupling (PCC) and WF terminal. To overcome this problem a new compensation strategy is used. By using Custom power devices (UPQC).It injects reactive power at PCC. The advantages of UPQC are it consists of both DVR and D-STATCOM. DVR is connected in series to the line and it injects in phase voltage into the line .D- STATCOM is connected shunt to the line .The internal control strategy is based on management of active and reactive power in series and shunt converters of UPQC. The power exchainge is done by using DC-link.
This work includes the establishment of a Photovoltaic system connected to the grid by means of an inverter. The fundamental goal of the work is to incorporate an advanced active power flow management scheme in order to adopt load at any weather condition along with the advantage of maximum active power flow and zero harmonics from PV inverter to the grid. The outcome of analysis and control design of grid connected PV inverter using a Proportional-Integral (PI) control technique is based on synchronous dq rotating reference frame so as to achieve maximum output voltage and record the active power. It has been observed that the model provides a better rate of stability as compared to the existing topology.
A fault-tolerant photovoltaic integrated shunt active power filter with a 27-...IJECEIAES
This paper introduces a fault-tolerant shunt active power filter (SAPF). The novility in of this work is that it poposes a solutions to increase the reliability of shunt active power filter to maintain its operation under a single-phase open-circuit fault in the SAPF. This will increase the reliability of the whole power system. The SAPF is composed of a 4-leg 27-level inverter based on asymmetric cascaded H-bridge topology. If an open-circuit fault is introduced to the operation of the SAPF, a special control technique will be implemented and the redundant leg of the SAPF will be activated. The faulttolerant SAPF can do many tasks under healthy operating conditions and post and open circuit fault depending on the state of charge (SOC) of the batteries. It can mitigate harmonics in the power system, improve power factor in the system by injecting reactive power, and inject real power to the system. The proposed SAPF is tested and simulated in MATLAB/Simulink and the results have shown a significant improvement in total harmonics distortion (THD) of the source current from 13.9% to 3.9% under the normal operating condition and from 42% to 8.4% post and open circuit fault.
Power quality improvement of distribution systems asymmetry caused by power d...nooriasukmaningtyas
With an increase of non-linear load in today’s electrical power systems, the rate of power quality drops and the voltage source and frequency deteriorate if not properly compensated with an appropriate device. Filters are most common techniques that employed to overcome this problem and improving power quality. In this paper an improved optimization technique of filter applies to the power system is based on a particle swarm optimization with using artificial neural network technique applied to the unified power flow quality conditioner (PSO-ANN UPQC). Design particle swarm optimization and artificial neural network together result in a very high performance of flexible AC transmission lines (FACTs) controller and it implements to the system to compensate all types of power quality disturbances. This technique is very powerful for minimization of total harmonic distortion of source voltages and currents as a limit permitted by IEEE-519. The work creates a power system model in MATLAB/Simulink program to investigate our proposed optimization technique for improving control circuit of filters. The work also has measured all power quality disturbances of the electrical arc furnace of steel factory and suggests this technique of filter to improve the power quality.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
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Power Quality Enhancement in Wind Connected Grid System Interface Based On St...IJERA Editor
Wind energy has become one of the significant alternative renewable energy resources because of its abundance
and the strong drive for its commercialization. Dynamic electric load variations and wind velocity excursions
cause excessive changes in the prime mover kinetic energy and the corresponding electrical power injected into
the AC grid utility system. In this paper, a scheme based on the low cost static switched filter compensator
(SSFC) is presented for voltage sag/swell compensation, power factor improvement in distribution grid
networks with the dispersed wind energy interface. The SSFC scheme is based on an intermittent switching
process between two shunt capacitor banks to be one of them in parallel with the capacitor of a tuned arm filter.
Two regulators based on a tri- loop dynamic error driven inter-coupled weighted modified proportional-integralderivative
(PID) controller which is used to modulate the PWM.
The Static Switched Filter Compensation (SSFC) compensation scheme which enhances the system
power quality has been fully validated using MATLAB–Simulink. The effectiveness of this compensation
scheme approach is demonstrated using a study case of 3 bus system. Simulation results show that there is
improvement in harmonics reduction, voltage sag/swell compensation, power factor improvement at generator
bus, load bus, and infinite bus respectively
Intelligent controller based power quality improvement of microgrid integrati...IJECEIAES
Now a day the power demand has a major problem for developing countries due to the growth of population, industries, IT companies and other needs. In this present situation the fossil fuel-based power generation alone does not support the consumer needs, poor power quality due to nonlinear function and very harmful for environment. The main objective of this paper is improving the power quality of grid connected photovoltaic power system through a new cascade H-bridge multilevel inverter. The proposed research work has been modelled and controlled by ANFIS intelligence in MATLAB simulation environment. The simulation results are analysed under various operating conditions for improve the performance of proposed system. Finally, the proposed system THD value of simulation results is compared with IEEE 1547 standard for prove the effectiveness of proposed research work.
Human population of the world and its Electrical
power demand is increasing day by day. The available fossil
fuel energy resources are being depleted day by day. So it is a
wise decision to absorb the natural renewable energy
resources. Among the other natural resources, solar energy is
also a precious available energy source. In Pakistan abundance
solar energy can be easily extracted.
In this research work, impacts of solar generation system are
analyzed while integrated with 11kV radial distribution feeder.
PV system is integrated with feeder in three different ways by
using SINCAL software and its impacts in terms of the power
loss, voltage profile and short circuit level are analyzed. When
PV system is integrated with HT side it results negligible
increment in voltage, no change in LT losses, negligible
decrement in HT losses and no change in short circuit level.
When PV system is connected with LT bus-bar of each
transformer, there is significant increment in voltage, small
decrement in LT losses, significant decrement in HT losses and
smaller increment in short circuit level. When PV system is
connected with each load, there is significant increment in
voltage, large decrement in LT losses, significant decrement in
HT losses and smaller increment in short circuit level.
Enhancement in Power Quality With Grid Interconnection of Renewable Energy So...IJERA Editor
At present the Renewable energy resources (RES) are being increasingly connected in distribution systems utilizing power electronic converters. This paper presents a novel control strategy for achieving maximum benefits from these grid-interfacing inverters when installed in 3-phase 4-wire distribution systems. The inverter is controlled to perform as a multi-function device by incorporating active power filter functionality. The inverter can thus be utilized as power converter to inject power generated from RES to the grid and shunt APF to compensate current unbalance, load current harmonics, load reactive power demand and load neutral current. All of these functions may be accomplished either individually or simultaneously. With such a control, the combination of grid-interfacing inverter and the 3-phase 4-wire linear/non-linear unbalanced load at point of common coupling appears as balanced linear load to the grid. This new control concept is demonstrated with extensive MATLAB/Simulink simulation studies and validated through digital signal processor-based laboratory experimental results.
This paper describes the Grid connected solar photovoltaique system using DC-DC boost converter and the DC/AC inverter (VSC) to supplies electric power to the utility grid. The model contains a representation of the main components of the system that are two solar arrays of 100 kW, boost converter and the grid side inverter. The paper starts with a system description, in this part we have given a definition and a short overview of every component used in this system and they are taken separately. The PV cell model is easy, accurate, and takes external temperature and solar radiation into consideration. It also proposes a maximum power point tracking (MPPT) algorithm. The algorithm incorporated in a DC/DC converter is used to track the maximum power of PV cell. Finally, the DC/AC inverter (VSC) of three- level is used to regulate the ouput voltage of DC/DC converter and connects the PV cell to the grid. Simulation results show how a solar radiation’s change can affect the power output of any PV system, also they show the control performance and dynamic behavior of the grid connected photovoltaic system.
Development of Load Control Algorithm for PV Microgrid IJECEIAES
The variability of solar irradiance caused by weather conditions could result in the mismatch between the solar PV generation and demand, particularly in the microgrid context. This may lead to detrimental effects of over/under voltage or over/under frequency. In this regard, this paper presents the laboratory setup of a grid-connected PV inverter operating in islanding condition. To achieve this, a load control algorithm is proposed to provide autonomous real time demand control that follows the PV generation to maintain generation-demand equilibrium requirement. Laboratory results show that the proposed load control algorithm is capable to address the voltage and the frequency violation in islanding condition, regardless of the variation of irradiance and power generated by the PV sources.
Similar to Harmonic AnalysisofDistribution System Due to Embedded Generation Injection (20)
Injection Analysis of Hera And Betano New Power Plants At the Interconnection...IJRESJOURNAL
ABSTRACT: Electricity system in Timor Leste is supplied from small scale Diesel Power Plants (DPP) which are distributed at each district that not interconnected, as the consequences, electric continuity at some districts are disturbed so caused power outage. To overcome the matters, the steps taken by Timor Leste government by establishing 2 units of centered DPP with total capacity of 250 MW at Dili District of 120 MW and at BetanoDistrict of 130 MW. The new power plant will be injected at the electricity system of Timor Leste through transmission line of 150 kV. The new power plant injection will cause the power flow and system stability of Timor Leste entirely. Steady state analysis done including the power flow analysis before and after injection of DPP of Hera and Betano so can be seen the voltage profile change and the decrease of electric power losses. Beside the steady state analysis, also done the power system stability analysis to know whether the system can operate normally after short circuit disturbance of three phases before and after new DPP injection. The steady state analysis showed that the system voltage condition before injection of DPP of Hera and Betano experience decrease of -13% from the sending voltage, and the active power losses of 6.8%. After DPP of Hera and Betano injection the decrease only -6% and active power losses can be minimized become 5.3%. The results of power system stability showed the rotor angle stability, frequency and voltage stability during disturbance occurrence become more stable after injection with recovery time faster if compared with before injection of new power plant.
Decision Support System Implementation for Candidate Selection of the Head of...IJRESJOURNAL
ABSTRACT: One of agency under the subdivision of The Indonesian National Army is Bintaldam V Brawijaya, acts as the mental founding agency. The head of affairs position replacement is often occurred in this agency, but the positions currently have a large number of incompetence person in charge. Subjection inthe election process leads to the inaccurate placement, resulting in poor leadership. The process of head of affairs assignment starts from candidates dispatching from each head of administrative section. Those candidates must then meet the three elements of assessment, i.e. the personality element, qualification element, and potential element. The candidates will be selected by head of agency as the top leader in the agency. The head of agency, however, poses difficulties to determine which candidate to put into position, frequently because of no proportional system exists to provide assistance in decision making process. A method is needed tomake more accurate placement for better leadership result.This research utilizegroup technology as the assessment elements hierarchical data structure and decision table as the rule evaluation engine to form a decision support system for making the replacement process of the heads of affairs easier and more accurate.
Yield Forecasting to Sustain the Agricultural Transportation UnderStochastic ...IJRESJOURNAL
ABSTRACT: Agricultural transportation is a major part of the United States’ transportation systems. This system follows a complex multimodal network consisting of highway, railway, and waterways which are mostly based on the yield of the agricultural commodities and their market values. The yield of agricultural commodities is dependent on stochastic environment such as weather conditions, rainfall, soil type and natural disasters. Different techniques such as leaf growth index, Normalized Difference Vegetation Index (NDVI), and regression analysis are used to forecast the yield for the end of harvest season. The yield forecasting techniques are used to predict the agricultural transportation needs and improve the cost minimization. This study provides a model for yield forecasting using NDVI data, Geographical Information System (GIS), and statistical analysis. A case study is presented to demonstrate this model with a novel tool for collecting NDVI data.
Injection Analysis of 5 Mwp Photovoltaic Power Plant on 20 Kv Distribution Ne...IJRESJOURNAL
ABSTRACT : A new 5 MWp PLTS or PV has been built in Oelpuah Village, Kupang Tengah. According to PT. PLN NTT,the amount of injected power to the distribution network cannot reach its maximum capability. At the moment, the average value of injected active power is 2 MWp. In this paper, a solution to achieve maximum injected power will be discussed. As a result of the study, the main problem is absence of energy storage. It cause the output power of the PV strongly affected by the weather. Hence a fluctuation of generated power cannot be avoided. The frequency in the distribution network system can be easily increased or decreased. Sudden drop in frequency due to 5 MWp lost, will cause the frequency to decrease beyond the standard value. The under frequency relay trips because it takes a long time to return to the originalvalue. A 5% of droop setting value is not suitable with those conditions. The droop characteristic setting should be reduced to 1% as a proposed solution. So that the response to frequency changes is more sensitive
Developing A Prediction Model for Tensile Elastic Modulus of Steel Fiber – Ce...IJRESJOURNAL
ABSTRACT: This paper attempts to develop a prediction model that can be used in line with prescribed laboratory experiments for indirect tensile test such that tensile elastic modulus can be predicted for cement stabilized lateritic soil reinforced with steel fiber using measured properties of the material. The results of the tensile elastic modulus obtained from the Derived Prediction Model almost nearly replicates that obtained from calculations from laboratory experimentation. Results obtained revealed that both the predicted values and calculated values have a linear correlation with an R2 of 96.4%. On this basis the Derived Prediction Model can be said to be valid within the limits of the study.
Effect of Liquid Viscosity on Sloshing in A Rectangular TankIJRESJOURNAL
ABSTRACT : Liquid sloshing was investigated for a moving partially filled rectangular tank with/without vertical baffles. A set of experiments was conducted using two types of liquids: water and sunflower oil. For these liquids, the effects of varying the external excitation amplitude and the number of vertical baffles on sloshing are discussed. It was found that the mechanical dissipation due to the liquid viscosity has a remarkable influence on the sloshing characteristics
Design and Implementation Decision Support System using MADM Methode for Bank...IJRESJOURNAL
ABSTRACT: The function of banking process can be broadly defined as an institution functioning as a capital receiver and lender, as well as support for trading and payment transactions. In order to maintain the stability of the economy through lending, Bank Indonesia issued a form letter on March 15, 2012 on the application of risk management for the bank conducting credit. In an effort to minimize these problems, Bank Indonesia recommends the precautionary principle in arranging the loan terms and choose the prospective customer in the credit granting institutions, both banks and cooperatives to take into account the risk on lending. A method is needed to select bank for credit applications to the public, i.e. the customer. This research uses the comparison of MADM (Multiple Attribute Decision Making) between TOPSIS (Technique for Order Preference by Similarity to Ideal Solution) method and ELECTRE (ELimination Et Choix TRaduisant la realitE) method for the loan provisions to the customers. With the hope of getting the quickest and the most accurate solutions, the hesitancy in determining customers for lending can then be minimized.
Investigations on The Effects of Different Heat Transfer Coefficients in The ...IJRESJOURNAL
ABSTRACT: In the metal machining, the cutting fluid has become a tough problem in term of the health of works and environmental protection. The heat transfer coefficients of the water-based fluid, mineral oil and plant oil are distinct. An investigation focused on the effects of different heat transfer coefficients (h) on the cutting thickness compression ratio, chip formation, stress distribution and specific cutting energy is presented and discussed. In this study, three heat transfer coefficients have been simulated by Third WaveAdvantedge in machining AISI 1045 steel during different cutting speeds.It has been shown that the Mises stress and temperature are both affected by the heat transfer coefficient. When the h reaches higher, the Mises stress increases and the temperature shows the opposite trend. Also, the results can be found that the chip compression ratio decreases and shear angle increases when hrises. The relationship between specific cutting energy and heat transfer coefficients can be found in this paper.
Strategy of Adaptation of Traditional House Architecture Bali AgaIJRESJOURNAL
ABSTRACT : Adaptation is defined as a change to adapt to the environment or change the environment to fit the need to achieve balance. The Bali Aga community in Pengotan village has a tradition of building a house that refers to the concept of Tri Angga based on the Tri Hita Karana philosophy which is an expression of harmony with God, with human beings, and with the natural surroundings. Each element and layout of the building represents the alignment. In line with the development of the era, the pattern of community life changed resulting in traditional buildings are very regular and uniforms individually undergo a process of change without leaving the concept of Tri Angga and the philosophy of Tri Hita Karana.This paper is the result of field research that examines building changes by taking the example of traditional homes that undergo many changes to be able to conclude how traditional value changes occur in the original house.The results indicate that the change occurred partly due to the personal tastes of its inhabitants without the loss of fundamental changes in their philosophical value.Changes are found in non-structural building components and are strongly influenced by the ease of implementation of construction aspects. The building facade is striking with the appearance of ornaments on traditional buildings previously unknown in Pengotan
Design of Universal Measuring Equipment for Bogie FrameIJRESJOURNAL
ABSTRACT: The performance parameters of the bogie which directly affect the quality and safety of train operation should be detected during maintenance, especially the structure parameters of bogie frame after many operation years. Based on the related research of the bogie frame measuring requirement, a universal measuring equipment is designed for metro overhaul. The function, basic principle, structure and software design of the universal measuring equipment for bogie frame parameters are described, and the summary meanwhile prospect are given.
A Design Of Omni-Directional Mobile Robot Based On Mecanum WheelsIJRESJOURNAL
ABSTRACT:As one of the important branch of mobile robotics, wheel mobile robot has long been paid atten tion to by the research people at home and abroad for its high load ability, positioning accuracy, high efficiency, simple control, etc. Mobile robot has close relation to many technologies suc-h as control theory, computer tech nology, sensor technology, etc. Therefore, research on the mobile robot has important significance
An Investigation Into The Prevalence of Code Switching in the Teaching of Nat...IJRESJOURNAL
ABSTRACT: This study examines the functions of code-switching in primary schools by science teachers. In Namibia,English is the official language of instruction for science at primary school. At lower primary, Silozi is the language of instruction. Classroom interaction data was obtained from two science lessons. Analysis of the teachers' code-switching shows that code-switching in the two lessons was vastly different, with little codeswitching in the teacher-facilitated lesson.Evident in other lessons, in which science was taught as a content subjectbut with abstract names that had no corresponding local names in Silozi, there was frequent use of codeswitching for reiteration and message qualification. The direction of the language switch from Silozi to English as well as the proportion of teachersspeaking in English suggests that the official language for teaching is English at upper primary, grade 4 to 7. The science lesson and code-switching is a necessary tool for teachers to achieve teaching goals in content-based lessons involving students who lack proficiency in the instructional language. The study was conducted in five government primary schools in Katima Mulilo, the capital of the Zambezi region in Namibia.The national language is English language, with no exception inscience, mathematics, and language subjects.All Schools are located in a Katima Mulilo-urban. The students are from mixed classes, lower, middle and upper class families with their parents typically working as unemployed single mothers, domestic workers, clerks, nurses, teachers, and accountants. Some of the students could understand English because of their parents‟ educational background or in instances where English is spoken at home.
The Filling Up of Yogyakarta Governor Position in Social Harmony PerspectiveIJRESJOURNAL
ABSTRACT: This paper aims to provide an overview in filling up the position of Governor of Yogyakarta, Distinctive Region, Indonesia, that considering social harmony perspective. Discussion conducts using social harmony perspectives, because the Sultan as the King was suspected to devise making her daughter the Queen who will be automatically the Governor succeeding him. This paper based on sociology legal research, this study approached the legal issues in accordance with the fact in social life, to provide an overview existing condition rules and public perseptions in filling position of Governor of Yogyakarta, especially about gender (female) position. Dataas are collected by interviewed and distributed questionnaires to various groups. Considering the result of research, that the Sultan’s way generated a sufficiently deep polemics in the Palace environment, government and society, so that this even kept away from the customary values of Javanese custom and Islam religion emphasizing on social harmony.
Quality Function Deployment And Proactive Quality Techniques Applied to Unive...IJRESJOURNAL
ABSTRACT: Lecturing and instruction to students at university has traditionally been based on qualifications, experience and position of academics within ones department or college. The higher the level and more advanced the subject then the most experienced lecturers are traditionally selected for that task. Visiting lecturers are never asked to teach basic mathematics or science, they are to share their experience and enlighten the students from a vast knowledge and history. This paper reviews and discusses Kano’s model with Quality Function Deployment related to customer satisfaction and compares if the traditional approach is in keeping with university practice. Furthermore, it argues that industry has concepts and ideas that can be more proactive if applied to an educational environment where students’ demands are ever increasing and their expectations are becoming higher. If universities are to improve student-learning experiences then novel and successful techniques are needed. One such approach is discussed in this research paper to find better ways to improve student satisfaction.
The Analysis And Perspective on Development of Chinese Automotive Heavy-Duty ...IJRESJOURNAL
ABSTRACT: In recent years, under the influence of both China's domestic market demand and emissions standard improvement, Chinese manufacturers put great effort on the research and design of automotive heavy-duty diesel engine. This paper analyzes the technical parameters of heavy duty diesel engine in 11 / 13L displacement section and introduces its performance. At the same time, combined with the development of foreign heavy-duty diesel engine, the future development direction of Chinese heavy-duty diesel engine is forecasted.
Research on the Bottom Software of Electronic Control System in Automobile El...IJRESJOURNAL
ABSTRACT: With the development of science and technology, car replacement faster and faster. The development of the automotive industry has a contradiction, on the one hand, the speed of upgrading the car technology can not keep up with the speed of the performance requirements of the car, on the other hand, the country's automobile exhaust emission standards become more stringent. In addition, the depletion of oil resources led to the rise in gasoline prices, the traditional car is facing a crisis. Considering the situation of gas fuel resource structure and supply situation in China, it is feasible to promote gas fuel engine[1].However, the pollution caused by the car has become one of the major pollution sources in the urban environment and the atmospheric environment, and this trend continues to deteriorate[2].Therefore, alternative energy vehicles and hybrid cars is the main direction of development, and any improvement in the car will be car electronics and software replacement for the premise. On the one hand, natural gas as an alternative to gasoline, with its low prices, excellent combustion emissions, the relative sustainable development and other characteristics of more and more car manufacturers favor;On the other hand, the mainstream of the automotive electronic control unit ECU software development to AUTOSAR structure, low power consumption, functional safety for the development direction. Based on the actual development of natural gas engine control unit, the structure and function of ECU software are studied with reference to AUTOSAR software design standard. This paper studies the structure of the application of the software layer of the electronic control system and the main control strategy under the various conditions of the structure, and puts forward the underlying software resources needed by the application layer software. This paper analyzes the internal and peripheral resources of Infineon XC2785x microcontroller and designs hardware abstraction layer software and ECU abstraction layer software. The current characteristics of the jet valve driven by the natural gas multi-point injection engine were investigated. Automotive electronics technology has been widely used in modern vehicles which, and gradually become the development of new models, improve the performance of the key technical factors[3] .
Risk Based Underwater Inspection (RBUI) For Existing Fixed Platforms In Indon...IJRESJOURNAL
Abstract For existing fixed platforms in Indonesian waters, a method to determine underwater inspection basedon the risk level is needed as an alternative for the conventional time-based underwater inspection. This paper discusses the development of Risk Based Underwater Inspection (RBUI) for Indonesian fixed offshore platforms by adopting the inspection scope from API RP 2A-WSD and API RP 2SIM. The risk will be determined based on the calculated Consequence of Failure (CoF) and Probability of Failure (PoF), and then it will be converted into a relevant inspection interval according to the references. In addition, it had also been discovered that the minimum fatigue of a platform that is shorter than the intended design life appeared to be the major problem of the Indonesian existing platforms. Therefore, this condition would be taken into consideration as a factor to override the preliminary inspection interval plan. Sample of 10 platform data located in Indonesian waters were used for RBUI analysis in this paper.
ABSTRACT: In order to achieve the precise control of the four rotorcraft, we must first obtain the accurate mathematical model of the four rotorcraft.This study analyzes the mechanical structure of the four rotorcraft and ignores the effects of the corresponding air resistance and the associated external secondary factors.The actual environment of the four rotorcraft is simplified, and the main factors of the four rotorcraft in motion are seized to establish a more accurate mathematical model.In the modeling process four-rotor aircraft, using the most current hot research field research methods.Mode using the angular velocity and the linear velocity of the separated solver and attitude by the coordinate transformation, and motion Newton Euler's formula to solve.Thereby establishing a nonlinear dynamic model four-rotor aircraft.Finally, a simplified mathematical model of four rotorcraft is obtained by comprehensive analysis of the relevant constraints of mathematical model of four rotorcraft.This makes the accuracy of the model aircraft system higher, more convenient control four rotorcraft.Which has certain reference value and guiding significance for the study of future stability of aircraft system.
A New Approach on Proportional Fuzzy Likelihood Ratio orderings of Triangular...IJRESJOURNAL
ABSTRACT: In this chapter, we introduce a new approach on the concept of proportional fuzzy likelihood ratio orderings, increasing and decreasing proportional fuzzy likelihood ratio orderings of triangular fuzzy random variables are presented. Based on these orderings, some theorems are also established.
Implementation of Fan6982 Single Phase Apfc with Analog ControllerIJRESJOURNAL
ABSTRACT:Active power factor orrection technique can improve the input power factor and reduce the harmonic component of the input current. In small power applications, the single-phase active power factor correction circuit of high frequency switching (APFC), reduction of the boost inductance decreases the boost inductor and filter capacitor volume, reducing the net side current ripple, improve efficiency. On the basis of describing the principle of single-phase single-stage boost APFC double closed loop control, a new duty cycle compensation method is proposed, which is based on the FAN6982 simulation and the single phase APFC of the rated output power 500W is achieved. The results show that the effect of current ripple rejection is obvious, and the input current is consistent with the input voltage phase.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
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Harmonic AnalysisofDistribution System Due to Embedded Generation Injection
1. International Journal of Research in Engineering and Science (IJRES)
ISSN (Online): 2320-9364, ISSN (Print): 2320-9356
www.ijres.org Volume 5 Issue 8 ǁ August. 2017 ǁ PP. 68-73
www.ijres.org 68 | Page
Harmonic AnalysisofDistribution System Due to Embedded
Generation Injection
*
Achadiyah A.N.1
,Suyono H.2
,Hasanah R. N.3
(Department Of Electrical Engineering, Faculty OfEngineering, Brawijaya University, Malang, Indonesia)
Corresponding author
*
Achadiyah A.N.
ABSTRACT:The increased demand for electricity and the depletion of fossil energy sources are a challenge
to exploit new and renewable energy sources. Relatively cheap renewable energy sources are Wind Power Plant
(WPP) and Photovoltaic System (PV). Currently, many small scale generating plants are being evolved into
conventional systems known as Embedded Generation (EG). EG as a source of electricity in the distribution
system will affect the flow of system power, system reliability, voltage profile and others. Besides, with the
placement of converter technology in WPP and PV system will give contribution of harmonic enhancement to
the system. This paper presents the harmonic analysis of WPP and PV designs that are injected into
conventional distribution system in one bus at Pujon feeder station Malang, Indonesia. The bus is chosen
because in this area the need for electric power in the area is very high and the existing system has a harmonic
value of 11%. Hybrid Active Filter (HAF) is designed to lower the voltage harmonics due to EG injection into
existing systems without affecting harmonics in other buses. To analyze the harmonics in this study there are 4
scenarios offered: Scenario 1 starts with analysis on existing system, scenario 2 existing in WPP 2 MVA
injection, scenario 3, injection1.3 MVA PV, scenario 4 injected EG (WPP and PV). The simulation result using
PSCAD 4.5 shows in scenario 4 to generate harmonic voltage of 18.6% and after added with HAF, the harmonic
value of the voltage becomes 2.434%.
Keywords: Embedded Generation, Harmonic, Photovoltaic System, Wind Power Plant.
I. INTRODUCTION
As 87.8% of electrical power requirement in Indonesia still utilizes fossil fuel, while the renewable
energy usage is only in a level of 12.2%, i.e. water potential power (9.1%), biomass power (2.66%), wind power
(0.002%), and solar power (0.16%) [1]. The renewable energy source utilizes natural resources by using small-
scale power plant which is known as EG. Hakim [2] creates a feasibility study of hybrid power plant with
maximum capacity of WPP for 2 MVA and of PV for 1.3 MVA located in Mount Banyak, Batu City. Jenkins
[3][4] conducted a research about distributed small-scale power plant which is injected to the distribution system
called the Embedded Generation (EG), which in turn helps electric power requirement.
Suyono [5] shows that injection from EG influences the power system reliability. It consists of voltage
profile, power flow, losses on system, e.g. harmonic. Hasan [6] reduces harmonic value inside WPP using
hybrid filter, i.e. serial connected active filter with shunt passive filter. Kalbat [7] analyzes total harmonic in PV
system design and simulated with PSCAD software.This paper analyzes harmonic voltage from EG design with
hybridized from 2 MVA WPP and 1.3 MVA PV. The design was simulated with PSCAD and the EG was
injected into Pujon Feeder Distribution System.Leopold [8] uses hybrid active power filter for filtering the
harmonic current in EG system by connecting active filter in series circuit with passive filter. Sushare [9] uses
passive filter to eliminate load harmonic and active filter for improving the performance of passive filter. Tzung-
Ling [10] designs Hybrid Active Filter Unit (HAFU) to supress harmonic resonance and to decrease hasrmonic
distortion. The design of EG is then simulated by injecting hybrid system with bus in Pujon Feeder Station with
20 kV medium voltage. The design is expected to give solution to the lack of power supply and the high
harmonic in Pujon Feeder Station.
According to the PT. PLN Gardu Induk Sengkaling, the Pujon Feeder Station still has power shortage
and voltage harmonic as high as 11%, exceeding IEEE 519-1992 standard. Generally, the power shortage in
Pujon is caused by the settlement located in hilly region, while the harmonic high value is mostly caused by tour
sites operating many electric motors. Such problems lead this research into designing EG-injected grid system
and adding HAF in order to decrease harmonic value, which in turn would resulting a reliable electrical power.
II. WIND POWER PLANT (WPP)
According to Ana [11], WPP is consisting of one or more wind turbine. The turbine selection will
determine the quality of power produced. Patel [12] says that wind turbine in WPP system are arranged in
parallel to produce electricity. The choice of turbine type is then based on wind speed, tower structure, count of
rotor blades, the shaft, the generator, the fan, and the control system. Controlling the stability of power
2. Harmonic Analysis of Distribution System Due To Embedded Generation Injection
www.ijres.org 69 | Page
produced, it also requires anemometer, sensors, stall controllers, power electronics, battery, and mechanical
transmission. Power electronic has a purpose to convert the electrical energy as needed. However, the
components inside power electronics tend to rise the harmonic in WPP system.
Fig.1.Working principle of WPP
Once the wind turns the blades of the turbine, the rotation is then transmitted to the generator rotor
located behind the wind turbine. The generator converts this mechanical rotation energy into electricity, which
generated by the alteration of magnetic flux in the stator and produces AC voltage and current. Prior to the
distribution, it is usually first stored in the batteries, hence it needs rectifier for converting from AC into DC.
The work of this rectifier plays a major role in harmonic generation in WPP system.Generally, the electrical
system of the WPP is divided in two, i.e. fixed speed and variable speed. Considering the wind source in Mount
Banyak, Batu as high as 12 m/s and located on hilly location, the design uses fixed speed turbine and 3-blade
horizontal axis. With this conversion from AC to DC, further analysis about voltage harmonic caused by the
conversion is required.
III. PV SYSTEM
Patel [12] says that the PV system main components are PV cell module, solar radiation, and the
module surface temperature. P System possesses an ability to convert photon from solar radiation into DC
power. The amount of voltage and current depends on the intensity of photon hit the PV cell surface. With the
intensity of the solar rays on the earth surface of 1000 watts with 25 °C, the PV is designed to have 1.3 MVA
capacity. The electricity generated by the PV is then charged into battery, and then converted into AC by
inverter to the transformer and injected directly into Pujon Feeder Station distribution grid.
The presence of inverter, however, leads to harmonic voltage increasing in the system. It can be
reduced by filter. The main purpose of the filter is to reduce the amplitude of specific frequencies of a current or
voltage. On the other side, installation of harmonic filters in the power system makes suppression in harmonic
current spreading to the entire grid.
IV. SIMULATION RESULT
4.1 Existing
The existing data used is originated from Sengkaling Relay Station, which has 2 150/20 kV
transformers with 30 MVA and 60 MVA capacities, respectively. The Pujon Feeder Station is a feeder in
Sengkaling Relay Station which is supplied from transformer of 150/20 kV 300 MVA with 300 A nominal load
capacity. The feeder station installs distribution relay as many as 71 units with each capacity ranged from 25
kVA to 250 kVA.
The Pujon Feeder Station currently operates in average load on 67th
bus with voltage harmonic value as
high as 11%. It exceeds the IEEE 519-1992 standard, which is 5% on 20 kV. By using data from Pujon Feeder
Station, simulation provides 10.853% harmonic voltage and 27.5% total harmonic distortion (THD). Visually,
simulated harmonic voltage and THD is shown in Figure 2. The primary side of 67th
bus experienced voltage
drop from 20 kV to 17 kV, as shown in Figure 3.
3. Harmonic Analysis of Distribution System Due To Embedded Generation Injection
www.ijres.org 70 | Page
Fig.2.Harmonic voltage graphical representation (existing)
Fig.3.The 67th
bus voltage in graphical representation (existing)
4.2 Existing + WPP 2 MVA
The second scenario is to design 2 MVA WPP and connect it with the existing 20 kV. WPP is then
connected to the existing without both battery and control system. The 2 MVA WPP is designed with output
voltage 690 V and then connected to the step down transformer 0.69/0.38 kV. The WPP system is then injected
directly to the 67th
bus in the secondary side on 0.38 kV. And the simulation results in voltage harmonic less
than 1%, 0.3753 kV voltages and 1.2 MW power. The harmonic value in this scenario is small because of no
control system connected to the system. The graphical representation of the voltage and the harmonic is shown
in Figure 4.
(a) (b)
Fig.4.(a) Graphicalvoltageon bus 67th
, (b) Harmonic on bus 67th
4.3Existing + PV 1.3 MVA
The third scenario is to connect between Pujon existing feeder and PV system. It joins 1.3 MVA PV
system into 67th
bus on Pujon Feeder Station. This bus is selected since it is located in tourist area which has
high power demand and high harmonic. The output of the PV system will be 0.83 kV DC and 1.3 MVA and
then stored in the battery. The battery power drain is then converted into AC 380 V, and converted again into
HarmonikIndividual
100.0
0.0
[3] 10.5832
THDTegangan
100.0
0.0
[1] 27.5086
Harmonic (%)
100.0
0.0
[3] 0.0788124
4. Harmonic Analysis of Distribution System Due To Embedded Generation Injection
www.ijres.org 71 | Page
0.295/16.53 kV with 0.9 MW power as displayed in Figure 5. This system produces voltage harmonic 8.62%
and total THD of 22.622% as shown in Figure 6.
(a) (b)
Fig.5.(a) Primary Voltage , (b) Secondaryvoltage on bus 67th
(a) (b)
Fig.6 (a) THD Voltage, (b) Harmonic on bus 67th
4.4 Embedded Generation (Existing + WPP + PV)
The fourth scenario is to join WPP and PV design into existing. Prior to existing injection, WPP and
PV are joined together, and the WPP system has the output converted into DC by using rectifier. The output
voltage from WPP is then combined with PV output and DC link 1.76 F. The DC current is then stored in
battery with output voltage of0.453 kV. Just beforeinjection to the existing, the DC is supplied to the inverter
and passive filter to generate AC power of 0.3781 kV. Figure 7 displays the voltage before and after filtering.
Fig.7 Hybrid output voltage of the system
THDVoltage (%)
100.0
0.0
[1] 22.622
Harmonic (%)
100.0
0.0
[3] 8.62858
5. Harmonic Analysis of Distribution System Due To Embedded Generation Injection
www.ijres.org 72 | Page
The hybrid of WPP and PV is then connected to the 0.38/20 kV step up transformer, and injected to the
67th
bus. As shown by the simulation, the injection of the hybrid system produce 18.6% voltage harmonic and
63.54% THD, and visually can be obtained from Figure 8. Generally, the EG system generates voltage of
0.3115/17 kV with voltage dropping more than 10% and 3.08 MW power. Figure 9(a) shows the graph of
voltage before injection of hybrid system, and Figure 9(b) shows the voltage after.
(a) (b)
Fig.8 (a) THD Voltage, (b) Harmonic on bus 67th
(a) (b)
Fig.9 (a) Voltage before injection, (b) Voltage after injection
The simulation result suggests that the hybrid injection produce distorted voltage, so it requires appropriate filter
to obtain sinusoidal voltage, as shown in Figure 8 and Figure 9. The installation of filter offered is using Hybrid
Active Filter (HAF) from the secondary side of 67th bus.
4.5 Embedded Generation (Existing + WPP + PV)by HAF
The final scenario is to join EG to HAF system. HAF is a combination of active and passive filter.
Akagi [13] stated that active filter works to improve the passive filter performance. HAF is connected to the
primary side of 67th
bus and it’s shown in Figure 10. Once the existing injected by EG, then the entire system is
then connected to the HAF. Simulation result before HAF showed 17.82/0.3374 kV voltage, 18.6% voltage
harmonic, and 63.54% THD. After HAF, simulation produces 17.82/0.3373 kV voltage, 2.43441% voltage
harmonic, and 23.4316% voltage THD. Table 1 shows distinction between the five different simulation.
Fig.10 Design Hybrid Active Filter (HAF)
THD Voltage (%)
100.0
0.0
[1] 63.5429
Voltage Harmonic (%)
100.0
0.0
[3] 18.6078
A
B
C
RLC
RLC
RLC
A
B
C
A
B
C
0.38 [kV]
#2#1
20 [kV]
100 [kVA]
5000[uF]
IdcLinkR
SIGA SIGB
5
SIGC
4
SIGAP
6
SIGBP
2
SIGCP
1 3
VdcLink
0.0001 [ohm]
0.1[uF]
V
V
A
V
A
V
A
Series
Active
Filter
N1 N2
BRK
Harmonic Series Active Filter
0.0009204303211[H]
0.0005692342284[H]252.517293[uF]
0.0005791819032[H]150.1337074[uF]
0.0004059864414[H]142.7955081[uF]
0.000407082963[H]102.3784571[uF]
0.0005877247729[H]53.26251836[uF]
306.0886924[uF]
Harmonic ShuntPassive Filter
Order5,7,9,11,13,15
V
A
V
A
V
A
Power
A
B
P
Iabc
P_in
Power
A
B
P
P_out
Idef
A
C
IM
B
W
S
T
2_PC_440
0.0
0.0
0.0
6. Harmonic Analysis of Distribution System Due To Embedded Generation Injection
www.ijres.org 73 | Page
Table 1.Embedded Generation (EG) Injection System Scenario
Scenario Existing
bus 67
WPP
2 MVA
PV
1.3 MVA
Harmonic Harmonic (%)
(%) Passive Active
1 √ - - 10.583 4.7 -
2 √ √ - 0.078 - -
3 √ - √ 11.0066 5.9 -
4 √ √ √ 18.6 6.72 2.43
V. CONCLUSION
The results of the analysis and simulation with 4 scenarios can be summarized as follows:
1. The harmonic analysis is performed to find the voltage profile, harmonic voltage and THD voltage.
2. In scenario 1, has a harmonics voltage of 10.583% and after the connect the passive filter down to 4.7%
3. Scenario 3, has a harmonic voltage of 11.0066% and after connected the passive filter drops to 5.9%.
4. Simulation in scenario 4 is generated HAF installation on EG system hence it will decrease harmonic
voltage value from 18.6% to 6.72% if only passive filter function. When the active filter is run as well then
the harmonic voltage becomes 2.43%.
5. The use of HAF generally improves the harmonic value of voltage on the system.
References
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*Achadiyah A.N. "Harmonic Analysis of distribution System Due to Embedded Generation Injection."
International Journal of Research in Engineering and Science (IJRES) 05.08 (2017): 68-73.