International Journal of Power Electronics and Drive Systems (IJPEDS)
Nowadays, renewable energy sources turned into a choice to fulfill the expanding load need since ... more Nowadays, renewable energy sources turned into a choice to fulfill the expanding load need since they are ecological inviting and furthermore accessible bountiful in nature. Due to the easy availability of solar-powered vitality, the photovoltaic (PV) system is gaining popularity as a renewable energy option. Most of the energy from a PV array may be dissipated by using the maximum power point tracking (MPPT) method. The force quality problems, the real and responsive force stream problems, are a major concern when transferring a mass measure of intensity from a PV array to the power grid. This research proposes a unique control technique for regulating the power flow and resolving power quality concerns brought on by the integration of PV arrays into an existing power infrastructure. For effective management of real and receptive force stream in matrix related photovoltaic framework, it includes a PI-GA, fuzzy-GA based flowed regulator dealt with adaptable AC transmission framework...
This paper presents a device that uses the evolving IoT technology to design and implement an int... more This paper presents a device that uses the evolving IoT technology to design and implement an internet-based energy meter. This meter, being cheap and easy-to-implement solution, enables consumers to monitor the daily usage of electric power easily. This work primarily concerns the energy-monitoring aspect of IoT, along with discussing other advantages of this meter, such as its ability to overcome human errors and reducing dependency on manual labor, besides reducing costs in energy consumption. The proposed design, which comprises a low-cost wireless network and protocol for smart energy along with a web application capable of automatically reading the unit and then sending the data automatically provides great advantages to users by allowing them to keep a track of their meter reading. This system will help users by allowing them to not only take steps to reduce power wastage but also bring down costs of consumption, along with minimizing the threat of power theft, which is incur...
An adaptive neuro-fuzzy inference system (ANFIS) based supplementary Unified Power Flow controlle... more An adaptive neuro-fuzzy inference system (ANFIS) based supplementary Unified Power Flow controller (UPFC) is considered to enhance damping of low frequency osciliations. The advantages of the proposed method are their feasibilty and simplicity. On the basis of linearized Philips-Heffron model of power system installed with UPFC, the damping function of the UPFC with various alternative UPFC control signals are investigated. ln the simulations under widely varying operating conditions and system parameters, proposed ANFIS based controller yields improved performance when compared with constant gain controller based on phase compensation technique. To validate the robustness of the proposed control scheme, the approach is integrated to a multi-machine power system and simulation results are presented. The proposed control scheme is not only robust, but also simple and easy to be realized in power system
Page 1. International Journal of Research and Reviews in Applied Sciences ISSN: 2076-734X, EISSN:... more Page 1. International Journal of Research and Reviews in Applied Sciences ISSN: 2076-734X, EISSN: 2076-7366 Volume 1, Issue 2(November 2009) 196 DAMPING OF OSCILLATIONS IN MULTI-MACHINE INTEGRATED POWER SYSTEMS USING ...
Low frequency electromechanical oscillations are inevitable characteristics of power system which... more Low frequency electromechanical oscillations are inevitable characteristics of power system which affect the transmission line transfer capability and the system stability. In this work, a new POD controller with DC-voltage regulator based on genetic algorithm is proposed for the UPFC for damping low frequency oscillations. The construction and implementation of this controller is fairly easy, which can be useful in real world power system. The effectiveness of the proposed controller has been tested on a SMIB power system in comparison with conventional UPFC controllers, GAMSF DC-voltage regulator and PSOMSF DC-voltage regulator under different operating conditions.
International Journal of Power Electronics and Drive Systems (IJPEDS)
Nowadays, renewable energy sources turned into a choice to fulfill the expanding load need since ... more Nowadays, renewable energy sources turned into a choice to fulfill the expanding load need since they are ecological inviting and furthermore accessible bountiful in nature. Due to the easy availability of solar-powered vitality, the photovoltaic (PV) system is gaining popularity as a renewable energy option. Most of the energy from a PV array may be dissipated by using the maximum power point tracking (MPPT) method. The force quality problems, the real and responsive force stream problems, are a major concern when transferring a mass measure of intensity from a PV array to the power grid. This research proposes a unique control technique for regulating the power flow and resolving power quality concerns brought on by the integration of PV arrays into an existing power infrastructure. For effective management of real and receptive force stream in matrix related photovoltaic framework, it includes a PI-GA, fuzzy-GA based flowed regulator dealt with adaptable AC transmission framework...
This paper presents a device that uses the evolving IoT technology to design and implement an int... more This paper presents a device that uses the evolving IoT technology to design and implement an internet-based energy meter. This meter, being cheap and easy-to-implement solution, enables consumers to monitor the daily usage of electric power easily. This work primarily concerns the energy-monitoring aspect of IoT, along with discussing other advantages of this meter, such as its ability to overcome human errors and reducing dependency on manual labor, besides reducing costs in energy consumption. The proposed design, which comprises a low-cost wireless network and protocol for smart energy along with a web application capable of automatically reading the unit and then sending the data automatically provides great advantages to users by allowing them to keep a track of their meter reading. This system will help users by allowing them to not only take steps to reduce power wastage but also bring down costs of consumption, along with minimizing the threat of power theft, which is incur...
An adaptive neuro-fuzzy inference system (ANFIS) based supplementary Unified Power Flow controlle... more An adaptive neuro-fuzzy inference system (ANFIS) based supplementary Unified Power Flow controller (UPFC) is considered to enhance damping of low frequency osciliations. The advantages of the proposed method are their feasibilty and simplicity. On the basis of linearized Philips-Heffron model of power system installed with UPFC, the damping function of the UPFC with various alternative UPFC control signals are investigated. ln the simulations under widely varying operating conditions and system parameters, proposed ANFIS based controller yields improved performance when compared with constant gain controller based on phase compensation technique. To validate the robustness of the proposed control scheme, the approach is integrated to a multi-machine power system and simulation results are presented. The proposed control scheme is not only robust, but also simple and easy to be realized in power system
Page 1. International Journal of Research and Reviews in Applied Sciences ISSN: 2076-734X, EISSN:... more Page 1. International Journal of Research and Reviews in Applied Sciences ISSN: 2076-734X, EISSN: 2076-7366 Volume 1, Issue 2(November 2009) 196 DAMPING OF OSCILLATIONS IN MULTI-MACHINE INTEGRATED POWER SYSTEMS USING ...
Low frequency electromechanical oscillations are inevitable characteristics of power system which... more Low frequency electromechanical oscillations are inevitable characteristics of power system which affect the transmission line transfer capability and the system stability. In this work, a new POD controller with DC-voltage regulator based on genetic algorithm is proposed for the UPFC for damping low frequency oscillations. The construction and implementation of this controller is fairly easy, which can be useful in real world power system. The effectiveness of the proposed controller has been tested on a SMIB power system in comparison with conventional UPFC controllers, GAMSF DC-voltage regulator and PSOMSF DC-voltage regulator under different operating conditions.
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