Corrections to “A Cost-Efficient Approach to EV Charging Station Integrated Community Microgrid: A Case Study of Indian Power Market”

The environmental crisis has prompted the development of electric vehicles as a green and environmentally friendly mode of travel. Since a reasonable layout of electric vehicle (EV) charging stations is the prerequisite for developing the EV industry, obtaining an optimal and efficient EV charging station planning scheme is a key issue. Although the Chinese government has carried out a plan to build EV charging piles in residential and working places, it cannot properly fulfill the task of matching the charging needs for public transportation vehicles such as electric taxis (ETs). How to evaluate the performance of fast charging stations (FCSs) and how to help find the optimal ET charging station planning scheme are new challenges. In this paper, an improved destination selection model is proposed to simulate the ET operation system and to help find the optimal ET charging station size with statistical analysis based on the charging need prediction. A numerical case study shows that the proposed method can address ET charging behavior well and can help to statistically determine the size of each ET charging station, which should satisfy the constraints on the preset proportion of the ET charging service requests.

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The Architecture Design of Electrical Vehicle Infrastructure Using Viable System Model Approach

Systems ◽

10.3390/systems9010019 ◽

2021 ◽

Vol 9 (1) ◽

pp. 19

Author(s):

Mahdi Boucetta ◽

Niamat Ullah Ibne Hossain ◽

Raed Jaradat ◽

Charles Keating ◽

Siham Tazzit ◽

...

Keyword(s):

Urban Space ◽

Electric Vehicles ◽

Reference Model ◽

System Model ◽

Ecosystem Structure ◽

Viable System Model ◽

Charging Station ◽

Viable System ◽

Station Location ◽

Ev Charging

Exponential technological-based growth in industrialization and urbanization, and the ease of mobility that modern motorization offers have significantly transformed social structures and living standards. As a result, electric vehicles (EVs) have gained widespread popularity as a mode of sustainable transport. The increasing demand for of electric vehicles (EVs) has reduced the some of the environmental issues and urban space requirements for parking and road usage. The current body of EV literature is replete with different optimization and empirical approaches pertaining to the design and analysis of the EV ecosystem; however, probing the EV ecosystem from a management perspective has not been analyzed. To address this gap, this paper develops a systems-based framework to offer rigorous design and analysis of the EV ecosystem, with a focus on charging station location problems. The study framework includes: (1) examination of the EV charging station location problem through the lens of a systems perspective; (2) a systems view of EV ecosystem structure; and (3) development of a reference model for EV charging stations by adopting the viable system model. The paper concludes with the methodological implications and utility of the reference model to offer managerial insights for practitioners and stakeholders.

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A case study of the maximization of daily revenue of hydroelectric power-plant in Brazilian Power Market

2020 Workshop on Communication Networks and Power Systems (WCNPS) ◽

10.1109/wcnps50723.2020.9263708 ◽

2020 ◽

Author(s):

Jonas Pesente ◽

Manuel Leonardo Sosa-Rios

Keyword(s):

Power Plant ◽

Hydroelectric Power Plant ◽

Power Market ◽

Hydroelectric Power

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Multi-Criteria, Co-Evolutionary Charging Behavior: An Agent-Based Simulation of Urban Electromobility

World Electric Vehicle Journal ◽

10.3390/wevj12010018 ◽

2021 ◽

Vol 12 (1) ◽

pp. 18

Author(s):

Lennart Adenaw ◽

Markus Lienkamp

Keyword(s):

Urban Areas ◽

City Planning ◽

User Behavior ◽

Transport Sector ◽

Simulation Framework ◽

Agent Based Simulation ◽

Agent Based ◽

Charging Station ◽

Spatio Temporal

In order to electrify the transport sector, scores of charging stations are needed to incentivize people to buy electric vehicles. In urban areas with a high charging demand and little space, decision-makers are in need of planning tools that enable them to efficiently allocate financial and organizational resources to the promotion of electromobility. As with many other city planning tasks, simulations foster successful decision-making. This article presents a novel agent-based simulation framework for urban electromobility aimed at the analysis of charging station utilization and user behavior. The approach presented here employs a novel co-evolutionary learning model for adaptive charging behavior. The simulation framework is tested and verified by means of a case study conducted in the city of Munich. The case study shows that the presented approach realistically reproduces charging behavior and spatio-temporal charger utilization.

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