2018
DOI: 10.3390/en11082048
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Optimal Component Sizing for Peak Shaving in Battery Energy Storage System for Industrial Applications

Abstract: Recent attention to industrial peak shaving applications sparked an increased interest in battery energy storage. Batteries provide a fast and high power capability, making them an ideal solution for this task. This work proposes a general framework for sizing of battery energy storage system (BESS) in peak shaving applications. A cost-optimal sizing of the battery and power electronics is derived using linear programming based on local demand and billing scheme. A case study conducted with real-world industri… Show more

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Cited by 95 publications
(40 citation statements)
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References 30 publications
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“…The benefits of ESS on the demand side are generated through the sale of stored power, demand response, and electricity bill reduction [30]. Since December 2014 in Korea, consumers can sell less than 1000 kW of electric power from their behind-the-meter ESSs to the Korea Electric Power Corporation (KEPCO).…”
Section: Benefits Of Behind-the-meter Essmentioning
confidence: 99%
See 1 more Smart Citation
“…The benefits of ESS on the demand side are generated through the sale of stored power, demand response, and electricity bill reduction [30]. Since December 2014 in Korea, consumers can sell less than 1000 kW of electric power from their behind-the-meter ESSs to the Korea Electric Power Corporation (KEPCO).…”
Section: Benefits Of Behind-the-meter Essmentioning
confidence: 99%
“…In Babacan et al [29], the scheduling algorithm of the behind-the-meter ESS aiming to minimize each customer's electricity expenditure, as well as mitigate the fluctuation of net demand load with solar photovoltaic generation, is proposed and demonstrated. In addition, an optimization scheme for sizing the behind-the-meter ESS in peak shaving application for a base charge reduction of electricity bills is proposed and demonstrated in Martins et al [30].…”
Section: Introductionmentioning
confidence: 99%
“…Industrial and other commercial users with very high intermittent load peaks are required to not just pay for the amount of energy consumed, but also for the maximum power demand at their sites in their annual or monthly billing cycles. In order to avoid high power-related costs, peak shaving is a frequently implemented solution [20]. Mature fossil-based technologies such as diesel generators and gas turbines installed on-site (captive power plants) are being replaced by BESS, owing to their precise and accurate response to demand, low response times, suitable ramp rates and relatively high efficiencies [10], [12].…”
Section: A Application Scenariomentioning
confidence: 99%
“…A lithium-ion battery (LIB) is considered for the purpose of this research. Lithium-ion batteries have been widely used for large-scale grid applications and can discharge their full energy as fast as in 20 min [44]. To quantify the charge and discharge capability, C-rate is defined as the ratio of BESS nominal power to energy capacity.…”
Section: Battery Characteristicsmentioning
confidence: 99%
“…Battery aging model has been the subject of research for a few decades, and numerous models have been proposed in the literature [47][48][49]. Generally, battery aging can be decomposed into calendric and cyclic aging effects [44]. These components determine the battery state of health (SOH), i.e., the degradation in its nominal capacity.…”
Section: Battery Characteristicsmentioning
confidence: 99%