Your search keyword '"Alekhya Datta"' showing total 4 results

1. A Review on Integration of Electric Vehicles into a Smart Power Grid and Vehicle-to-Grid Impacts

Author

Shashank Vyas, Mukesh Kumar, and Alekhya Datta

Subjects

Load management, Smart grid, business.industry, Computer science, Distributed generation, Load balancing (electrical power), Vehicle-to-grid, business, Energy source, Grid, Automotive engineering, Renewable energy

Abstract

The number of Electric vehicles (EVs) in the transportation fleet of many countries is increasing rapidly to tackle rising air pollution levels. In terms of running costs and ability to support the utility power grid, electric mobility clearly standsout amongst the non-fossil fuel based transportation alternatives. Electric vehicles are distributed energy storage units that can act as energy sources to the local distribution network. Therefore, EVs can work in two modes that support bidirectional power flow: charging or discharging known as Grid to Vehicle (G2V) and Vehicle to Grid (V2G) modes respectively. In the V2G mode, EVs can help the grid by providing reactive power support and also mainly by discharging during peak load times to improve efficiency & reliability, provide V/f regulation, manage renewable energy intermittency and provide load balancing with Demand Side Management (DSM) as a set of possible ancillary services. The challenges associated with V2G system include life cycles lost and battery degradation, changes required in the grid infrastructure/equipment, energy losses and the huge investment cost involved. This paper gives an account of the advantages and disadvantages of V2G system for EV owners and grid operators.

Published

2019

2. Accelerated deployment of Smart Grid technologies in India - Present scenario, challenges and way forward

Author

Parimita Mohanty, Mukesh Gujar, and Alekhya Datta

Subjects

Engineering, business.industry, Interoperability, Computer security, computer.software_genre, Engineering management, Capability Maturity Model, Smart grid, Software deployment, Management system, Performance indicator, Business case, business, Implementation, computer

Abstract

The idea behind ‘Smart Grid Vision for India’ is to transform the Indian power sector into a secure, adaptive, sustainable, and digitally enabled ecosystem that provides reliable and quality energy for all with active participation of stakeholders. Realizing the growing importance of Smart Grid technologies in the Indian power sector, very recently Ministry of Power, Government of India on the recommendation of India Smart Grid Task Force (ISGTF) has shortlisted fourteen (14 Nos.) Smart Grid pilot projects that are planned to be executed in power distribution sector in India. As per the ‘Smart Grid Roadmap for India’, these pilot projects are expected to help technology section guides, develop business cases, policy and regulatory recommendations for larger projects in the next phase, while showcasing the relevance of Smart Grid on different aspects such as, Advanced Metering Infrastructure (AMI), Outage Management System (OMS), Peak Load Management System (PLMS), Renewable Energy (RE) Integration etc. The average estimated cost of each pilot project would be US$ 10 million (approx.) out of which 50% is grant will be provided by Government of India through (budgeted INR 2 Lakh Crores for Smart Grid projects across India under 13th Five-Year Plan) Restructured Accelerated Power Development and Reforms Program (R-APDRP) and rest to be borne either fully by the utility or, shared between the utility and the technology providers, and targeted to be completed by the end of 2014. The main objective of this technical paper is to underline the present scenario of those selected Smart Grid pilots in India, including proposed state-of-the-art Technology Integration, Consumer Coverage (Base), and Key Performance Indicators (KPIs). This study will also capture the Carnegie Mellon's Software Engineering Institute (SEI) Smart Grid Maturity Model (SGMM), developed by the Global Intelligent Utility Network Coalition (GIUNC) as a management tool, towards the Smart Grid transformation to assess the performance (including, current status) of those utilities responsible for pilot demonstrations and provide necessary recommendations to use this framework for establishing future strategies and work plans as pertain to Smart Grid implementations in the country. The purpose of this research will further emphasize on the progress of applicable Smart Grid interoperability and standards relevant to the Indian context, development of indigenous low-cost smart solutions, gap analysis and appropriate changes conducive to the deployment of Smart Grid pilot projects, and discussion on National Smart Grid Mission (NSGM) in India.

Published

2014

3. Smart Mini Grid: An innovative distributed generation based energy system

Author

Parimita Mohanty, Alekhya Datta, and Mukesh Gujar

Subjects

Pumped-storage hydroelectricity, Engineering, Stand-alone power system, Smart grid, Wind power, business.industry, Distributed generation, Distributed computing, Intermittent energy source, Electrical engineering, business, Energy source, Grid parity

Abstract

With the depleting energy resources, enhancing energy-security and energy-access, particularly in emerging economies is one of the major challenges that one has to deal with. In addition to managing the existing energy resources, generating power effectively and intelligently is an equally important agenda at the national level in India. Supplementing the establishment of large power plants from conventional energy sources, there is also a need to focus on distributed small scale generation of power particularly from renewable energy sources. Although Distributed Energy Resources (DERs) need additional infrastructure and investment to connect them to the grid, these technologies obviate the need for an expensive transmission system and reduce transmission and distribution (T&D) losses. A better way to realize the emerging potential of distributed generation is to take a system approach which views generation and associated loads as a subsystem or a `Micro-grid' [1]. During disturbances, the generation and corresponding loads can separate from the distribution system to isolate the Micro-grid's load from the disturbance without harming the transmission grid's integrity. To deal with these crucial issues of power and energy, the more appropriate solution is the Smart Mini Grid system which can optimally and intelligently manage the load and distributed generation resources so that maximum utilization of the renewable energy resources with a lower installed renewable energy capacity and smaller batteries can be ensured by coordinating the energy demands with the electricity production, fossil fuel generation can be minimized through the more efficient control of energy loads and power quality can be improved The paper presents the relevance of Smart Mini Grid as well as its existing challenges. It has also briefly pointed out the major initiatives taken by various institutions/industry in the smart mini/micro-grid sectors in India. The main purpose of this paper is to present the design of TERI's own Smart Mini Grid system which integrated various distributed energy sources such as Solar PV, small wind electric generator Biomass gassifier system, Diesel-Set (DG) and showcase how such implementation can be used in other similar applications for improving the efficiency, reliability and flexibility of the overall system.

Published

2013

4. Enterprise GIS and Smart Electric Grid for India's power sector

Author

Parimita Mohanty and Alekhya Datta

Subjects

Load management, Electric power system, Smart grid, Knowledge management, Geographic information system, Computer science, business.industry, Systems engineering, Enterprise GIS, Grid, business, Electrical grid, Efficient energy use

Abstract

Smart Electric Grid is an important as well as intelligent element towards the development of an energy independent and environmentally sustainable society. Although there is no universal definition for Smart Grid, it has various functionalities towards modernization of the electrical grid by using digital systems and addressing disturbances via automated prevention and various other novel ideas. But a smarter grid needs a real-time analysis of the network. Therefore to provide accurate scientific decisions, the idea of integrating enterprise Geographic Information System (GIS) with Smart Electric Grid presented in this paper so as to make the grid apt in advanced decision making. It also helps in modelling the workflow of a network by understanding the relationship between network and surroundings and by controlling all parts of the grid. With the increasing demand of electricity in almost every sector, power sector utilities of India need to perform more effectively and in efficient manner. For this purpose, a Smart Electric Grid along with enterprise GIS is one of the evolutionary idea which can facilitate a cleaner environment, efficient load management and fully automated systems. GIS enabled system also helps to establish a link between the surroundings, the consumers and the grid and thus making it proficient in automation and efficient energy consumption and customer awareness by maintaining a relational database including all the required spatial information. The main objective of this study is to showcase the integration of enterprise GIS with Smart Electric Grid to provide an end-to-end solution for the utilities to improve the efficiency of the electrical system, enable intelligent demand side management and enhance energy security through sustainable business model.

Published

2013