91 research outputs found
Simulation and Measurement Analysis of an Integrated Flow Battery Energy-Storage System with Hybrid Wind/Wave Power Generation
This study aims to evaluate the power-system stability and the mitigation of fluctuations in a hybrid wind/wave power-generation system (HWWPGS) under different operating and disturbance conditions. This evaluation is performed by employing a vanadium redox flow battery-based energy storage system (VRFB-ESS) as proposed. The measurement results obtained from a laboratory-scale HWWPGS platform integrated with the VRFB-ESS, operating under specific conditions, are used to develop the laboratory-scale simulation model. The capacity rating of this laboratory-scale simulation model is then enlarged to develop an MW-scale power-system model of the HWWPGS. Both operating characteristics and power-system stability of the MW-scale HWWPGS power system model are evaluated through frequency-domain analysis (based on eigenvalue) and time-domain analysis (based on nonlinear-model simulations) under various operating conditions and disturbance conditions. The simulation results demonstrate that the fluctuations and stability of the studied HWWPGS under different operating and disturbance conditions can be effectively smoothed and stabilized by the proposed VRFB-ESS
Analysis and Mitigation of Power Quality Issues in Distributed Generation Systems Using Custom Power Devices
This paper discusses the power quality issues for distributed generation systems based on renewable energy sources, such as solar and wind energy. A thorough discussion about the power quality issues is conducted here. This paper starts with the power quality issues, followed by discussions of basic standards. A comprehensive study of power quality in power systems, including the systems with dc and renewable sources is done in this paper. Power quality monitoring techniques and possible solutions of the power quality issues for the power systems are elaborately studied. Then, we analyze the methods of mitigation of these problems using custom power devices, such as D-STATCOM, UPQC, UPS, TVSS, DVR, etc., for micro grid systems. For renewable energy systems, STATCOM can be a potential choice due to its several advantages, whereas spinning reserve can enhance the power quality in traditional systems. At Last, we study the power quality in dc systems. Simpler arrangement and higher reliability are two main advantages of the dc systems though it faces other power quality issues, such as instability and poor detection of faults
Power electronics technologies for renewable energy sources
Over the last decades, power grids are facing significant improvements mainly due to the
integration of more and more technologies. In particular, renewable energy sources (RES) are
contributing to moving from centralized energy production to a new paradigm of distributed
energy production. Analyzing in more detail the requirements of the diverse technologies of
RES, it is possible to identify a common and key point: power electronics. In fact, power
electronics is the key technology to embrace the RES technologies towards controllability and
the success of sustainability of power grids. In this context, this book chapter is focused on the
analysis of diverse RES technologies from the point of view of power electronics, including
the introduction and explanation of the operating principle of the most relevant RES, both in
onshore and offshore scenarios. Additionally, are also presented the main topologies of power
electronics converters used in the interface of RES.(undefined
Study of Smart Grid Technology and Its Development in Indian Scenario
India is truculent to meet the electric power demands of a fast expanding economy. Restructuring of the power
industry has only increased several challenges for the power system engineers. The proposed vision of
introducing viable Smart Grid (SG) at various levels in the Indian power systems has recommended that an
advanced automation mechanism needs to be adapted. Smart Grids are introduced to make the grid operation
smarter and intelligent. Smart grid operations, upon appropriate deployment can open up new avenues and
opportunities with significant financial implications. This work presents various Smart grid initiatives and
implications in the context of power market evolution in India. Various examples of existing structures of
automation in India are employed to underscore some of the views presented in this report. It also reviews the
progress made in Smart grid technology research and development since its inception. Attempts are made to
highlight the current and future issues involved for the development of Smart Grid technology for future
demands in Indian perspective
BRIDGE TYPE FAULT CURRENT LIMITERS FOR FAULT RIDE THROUGH CAPABILITY ENHANCEMENT OF VSC-HVDC SYSTEMS
Modeling and analysis approaches for small‐signal stability assessment of power‐electronic‐dominated systems
The stability, operation, and control of power networks have been challenged due to the increased penetration of power electronic converters. New instability phenomena have appeared due to the interaction of the power converter controllers with other power network elements, including other power converters. Small‐signal tools have been proved effective to identify and mitigate stability issues but their development is still ongoing. This article presents the state of the art on small‐signal modeling and stability assessment of converter‐dominated networks. The modeling of converters and other power system components is reviewed, as well as the most common small‐signal analysis techniques employed in conventional and modern power systems with power electronics. Two case studies are introduced to exemplify the modeling and stability analysis, employing some of the techniques presented in the article
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A review of mechanical energy storage systems combined with wind and solar applications
Mechanical energy storage systems are among the most efficient and sustainable energy storage systems. There are three main types of mechanical energy storage systems; flywheel, pumped hydro and compressed air. This paper discusses the recent advances of mechanical energy storage systems coupled with wind and solar energies in terms of their utilization. It also discusses the advances and evolution in each type and compares them in terms of performance, capacity, response and utilizations. The reviewed studies exhibit all parameters that affect the performance of each storage type in which the configuration of the system has the major effective role. Choosing the suitable mechanical storage type depends on the requirements of each application such as using the flywheel for short duration applications. If long duration is needed, then it is preferred to use either pumped hydro or compressed air storage systems, knowing that the former has higher efficiency while the latter provides a faster start up. For the sake of the environment, it is recommended to use the adiabatic or isothermal compressed air storage. In all cases that combine MESSs with solar or wind energy, the series connection is preferred in order to provide stability and better control strategy
Control of fluctuating renewable energy sources: energy quality & energy filters
This doctoral study discusses how to control fluctuating renewable energy sources at converter, unit, and system layers to deliver smoothed power output to the grid. This is particularly relevant to renewable power generation since the output power of many kinds of renewable energy sources have huge fluctuations (e.g. solar, wind and wave) that needs to be properly treated for grid integration. In this research, the energy quality is developed to describe the friendliness and compatibility of power flows/waveforms to the grid, by contrast with the well-known concept of power quality which is used to assess the voltage and current waveforms.
In Chapter 1 & 2, a background introduction and a literature review of studied subjects are presented, respectively. In Chapter 3, the problem of determining the PI parameters in dq decoupling control of voltage source converter (VSC) is studied based on a state-space model. The problems of the conventional method when there is insufficient interface resistance are addressed. New methods are proposed to overcome these drawbacks. In Chapter 4 & 5, energy quality and the energy filters (EFs) are proposed as tools to assess and manage power fluctuations of renewable energy sources. The proposed EFs are energy storage control systems that could be implemented on a variety of energy storage hardware. EFs behave like low-pass filters to the power flows. Finally, in Chapter 6, as an application example of renewable power plant with energy filter control and smoothed power output, a master-slave wave farm system is proposed. The wave farm system uses enlarged rotor inertia of electric machines as self-energy storage devices
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