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Your search keyword '"Ramin Ahmadi Kordkheili"' showing total 7 results
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7 results on '"Ramin Ahmadi Kordkheili"'

1. Multi-Alternative Operation-Planning Problem of Wind Farms Participating in Gas and Electricity Markets

Author

Ramin Ahmadi Kordkheili, Mahdi Pourakbari-Kasmaei, Matti Lehtonen, Reza Ahmadi Kordkheili, and Edris Pouresmaeil

Subjects
Electricity market, electrical energy storage, gas storage, gas-to-power, gas market, operation and planning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

By taking subsidies out of the picture, wind farm operators (WFO) face new challenges to participate in electricity markets. While conventional producers benefit from dispatchable generation, wind farms with stochastic nature have a challenging job to compete with these players in the market and need to come up with alternative solutions. To this end, energy storage devices have a great potential in managing the volatile generation and thereby increasing the profit of WFOs. On the other hand, the gas market opens new opportunities to improve the flexibilities of WFOs in addressing the incurred penalties due to deviation between prediction and generation. For the sake of practicality, this paper proposes a joint operation-planning model. The WFO bids in both the day-ahead electricity market and gas market while also invests in alternative facilities, including electrical energy storage, gas storage, power-to-gas, and gas-to-power. The proposed framework is formulated as a mixed-integer nonlinear programming (MINLP) model. To guarantee to find the global solution, the original MINLP model is recast into a mixed-integer linear programming (MILP) model. Several case studies are defined to capture the potential of the proposed framework on the profit of the WFO, scrutinizing the performance of different facilities and interactions with the aforementioned markets. The modeling provides a tool for the WFOs for considering different alternative approaches to deal with uncertainty of generation. This includes storing the surplus generation of wind farm in the form of electricity through electrical energy storage or by converting this surplus into gas via power-to-gas technology and either store it in a gas storage or sell it in the gas market. Moreover, under the lack of generation condition, the electrical energy storage can provide electricity, or the gas from gas market and gas storage can turn to electricity through gas-to-power facility to assist WFOs. Results show the effectiveness of the proposed framework in enhancing the profitability of wind farms via different alternatives while highlighting the role of the gas market as a promising solution.

Published
2021
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6. Optimal Bidding Strategy for Offshore Wind Farms Equipped with Energy Storage in the Electricity Markets

Author

Mahdi Pourakbari-Kasmaei, Ramin Ahmadi Kordkheili, Edris Pouresmaeil, Matti Lehtonen, Renewable Energies for Power Systems, Power Systems and High Voltage Engineering, Department of Electrical Engineering and Automation, Aalto-yliopisto, and Aalto University

Subjects
business.industry, 020209 energy, Subsidy, Balancing market, 02 engineering and technology, Environmental economics, Bidding, Day-ahead market, Stochastic programming, Energy storage, Profit (economics), Offshore wind farm, Offshore wind power, 0202 electrical engineering, electronic engineering, information engineering, Electricity market, Business, Electricity, Energy storage device
Abstract

This paper tackles the challenges of offshore wind farm owners participating in the electricity market, aiming at maximizing their profit. Decreasing the subsidies, which used to support the wind farm owners in increasing the penetration of wind-based generation, resulted in new challenges. The owners need to compete not only with each other but also with the existing conventional producers in the electricity market. In this work, in order to have a more practical model, the day-ahead and balancing markets are considered. Moreover, the impact of energy storage devices on the profit of wind farm owners is also investigated. The stochastic programming approach is used to handle the existing uncertainties in the output power of the wind farm, and the day-ahead and balancing market prices. Four different case studies are conducted to analyze the potential of the proposed model. Results show the effectiveness of considering the day-ahead and balancing markets jointly by increasing the profit of windfarms owners. Moreover, the storage device highly increases the degree of freedom in participating in different electricity markets.

Published
2020

7. Smart scheduling and economic analysis of electric vehicles for peak load shaving considering renewable energy resources

Author

Mohammad Mohammadi and Ramin Ahmadi Kordkheili

Subjects
Engineering, Electric power system, State of charge, Wind power, business.industry, Scheduling (production processes), business, Grid, Simulation, Automotive engineering, Renewable energy, Power (physics), Voltage
Abstract

This paper reflects the outcome of an investigation on economic benefits of scheduling electric vehicles charging and discharging for the purpose of peak load shaving in a distribution system. In this study, a number of wind turbines as a favourite type of renewable energy resources are placed in the power system under study. Two different cases are define with time of use and real time price to find related costs. Grid constraints like voltage profile and lines thermal limits beside customers comfort level are considered as the mandatory conditions to be met through the study. Genetic algorithm is utilized to find optimum value of charging and discharging power on an hourly based for individual vehicles corresponding to pricing signals. Monte Carlo simulation method is used to model uncertainties for the study. Simulation results verify electric vehicles capabilities in shaving peak load of the system. Intelligent scheduled charging also shows a substantial drop in cost of customers compared to the case of unplanned charging.

Published
2015
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