Integration of IDVR with DSTATCOM for Voltage Sag Compensation

Problem Definition

Problem Description: The distribution system is facing significant challenges due to poor power quality issues such as voltage sag and swell. These fluctuations in voltage can lead to equipment damage, production loss, and overall inefficient power delivery. Traditional solutions like DSTATCOM have been effective to some extent but are not able to fully address the issue of voltage sag. Therefore, there is a need to develop a modified FACT Device model that integrates IDVR system to effectively compensate for voltage sag and swell in the distribution system. This project aims to address this problem by providing a novel technique that can enhance power quality and provide reliable distribution power output by combining the capabilities of DSTATCOM and IDVR systems.

Proposed Work

The proposed work titled "A modified FACT Device model for Compensating Voltage SAG SWELL using IDVR system" addresses the current issues in the distribution system related to poor power quality. With advancements in automation and deregulations, maintaining power quality has become crucial. The project focuses on mitigating voltage sag using a novel approach of integrating IDVR with DSTATCOM. By introducing a voltage-boosting system with a parallel solid-state switch, the network's voltage dips can be compensated for. The objective is to replace the traditional DVR with IDVR, which is capable of handling sensitive loads due to its multiple DVRs.

The study utilizes Basic Matlab for simulation and falls under the categories of Electrical Power Systems, Latest Projects, M.Tech | PhD Thesis Research Work, and MATLAB Based Projects in the subcategories of Latest Projects and MATLAB Projects Software. This research aims to improve the power quality in distribution systems through innovative techniques like IDVR integration.

Application Area for Industry

The project on developing a modified FACT Device model for compensating voltage sag and swell using the IDVR system can be applied across various industrial sectors where power quality is critical. Industries such as manufacturing, mining, healthcare, and data centers heavily rely on a stable and reliable power supply to sustain operations. The proposed solution can be particularly beneficial in industries where sensitive equipment is involved, as voltage fluctuations can lead to equipment damage and production downtime. By integrating IDVR with DSTATCOM, the project aims to provide a comprehensive solution to address voltage sag issues and ensure a more stable power supply for industrial applications. Implementing the proposed solutions in different industrial domains can result in several benefits.

Industries can experience reduced equipment damage, increased operational efficiency, and minimized production losses due to power quality issues. The integration of IDVR with DSTATCOM can provide a more reliable and sustainable power delivery system, ultimately leading to improved overall performance and cost savings. By effectively compensating for voltage sag and swell, industrial sectors can enhance their operations and ensure seamless production processes.

Application Area for Academics

The proposed project on "A modified FACT Device model for Compensating Voltage SAG SWELL using IDVR system" offers a valuable opportunity for MTech and PHD students to conduct research in the field of Electrical Power Systems. By focusing on the pressing issue of voltage sag and swell in distribution systems, the project addresses a critical challenge that hampers power quality and efficiency. As MTech and PHD students delve into this research, they can explore innovative methods and simulations using Basic Matlab software to analyze data and develop solutions to enhance power distribution. The integration of IDVR with DSTATCOM presents a unique approach to compensating for voltage fluctuations, offering a new perspective for addressing power quality issues in distribution networks. Students can leverage the code and literature of this project to conduct their own research, simulations, and analysis for their dissertation, thesis, or research papers in the domains of Electrical Power Systems and MATLAB-based projects.

This project's relevance lies in its potential to revolutionize power distribution systems and improve overall power quality, making it a promising avenue for aspiring researchers and scholars. As future scope, further research can explore the scalability and effectiveness of the proposed model in real-world distribution systems, paving the way for practical implementation and industry adoption.

Keywords

SEO-optimized Keywords: distribution system, power quality, voltage sag, voltage swell, equipment damage, production loss, inefficient power delivery, DSTATCOM, FACT Device model, IDVR system, voltage-boosting, solid-state switch, network voltage dips, sensitive loads, Basic Matlab, simulation, Electrical Power Systems, Latest Projects, M.Tech, PhD Thesis Research Work, MATLAB Based Projects, innovative techniques, IDVR integration, power output, voltage fluctuations, automation, deregulations, reliable distribution power, novel approach, voltage compensation