A MILP model for optimising multi-service portfolios of distributed energy storage

Moreno, Rodrigo; Moreira, Roberto; Štrbac, Goran

doi:10.1016/j.apenergy.2014.08.080

Cited by 166 publications

(128 citation statements)

References 19 publications

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“…This is achieved in the steady state regime where Π(() changes slowly, so that D ( ≈ C(() (see (6)). The limits on slow power signals are thus directly coupled to limits on D. Our sufficient model must therefore satisfy…”

Section: ) Long-term Power Consumptionmentioning

confidence: 99%

Leaky storage model for optimal multi‐service allocation of thermostatic loads

Trovato

Tindemans

Štrbac

2016

IET Generation, Transmission & Distribution

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Section: ) Long-term Power Consumptionmentioning

confidence: 99%

Leaky storage model for optimal multi‐service allocation of thermostatic loads

Trovato

Tindemans

Štrbac

2016

IET Generation, Transmission & Distribution

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“…The authors in [14] propose a novel business model for ES to simultaneously participate in week-ahead, day-ahead and hour-ahead auctions. While the study in [15] quantify the value of distributed ES in providing energy arbitrage, reserve, response and DNO service. Both of these studies demonstrate the enhanced value proposition of ES when optimally allocating ES among multiple functions.…”

Section: Introductionmentioning

confidence: 99%

Business cases for energy storage with multiple service provision

Teng

Štrbac

2016

J. Mod. Power Syst. Clean Energy

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Energy storage (ES) has been considered as the key source of flexibility to support the integration of renewable energy. Previous studies have demonstrated the substantial system cost savings by the deployment of ES, including both investment and operation of generation, transmission and distribution infrastructure. However, this societal benefit may not be realized if industry actors do not have a viable business case to appropriately capture these multiple value streams. In this context, this paper investigates the value that ES may deliver to its owner over two specific business cases in a 2030 UK system. Firstly, the application of large-scale ES in the wholesale market is analysed. It is demonstrated that the optimal allocation of ES to provide multiple services is the key element for ES to become competitive in the electricity market. In the second business case, this paper analyses the value of kilowattscale ES combined with roof photovoltaic (PV) system in the household and community level. The study shows that multiple service provision of ES through advanced pricing schemes, for example time-of-use (ToU) tariff and dynamic distribution use of system (DUoS), lead to higher value and the coordination in the community level could further justify the application of domestic ES.

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“…Since these series of consumption and generation of electricity are not stationary, regression models can give a serious error [2,9,10]. Therefore, when solving problem of this type, a rather promising method for solving prediction problems is the use of a structure of artificial neural networks, in particular adaptive neural-fuzzy structures.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Development of an intelligent system for the prognostication of energy produced by photovoltaic cells in smart grid systems

Kupin

Vdovychenko

Muzyka

et al. 2017

EEJET

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watts can operate currently in a common power net. Also, the use of different types of energy sources in one power net can result in power dispersal. This combination of different energy sources makes it possible to instantly respond to load changes at individual sites on the one hand and poses problems in its management on the other hand.The Energorynok State Enterprise is responsible for support of the system ensuring functioning of the wholesale energy market in Ukraine [3,4]. The task of this enterprise is to perform hourly and round-the-clock planning of the operating regime of the entire combined system on the basis of optimization of operating regimes of power plants. In order to prevent peak loads, hourly and round-the-clock electricity generation planning is carried out for optimal work of energy producers. And therefore, the more accurate the forecast, the less likely is occurrence of overloads and error conditions.Intelligent power systems with an active-adaptive SMART GRID network are increasingly widely used in the European Union member-countries [5,6]. One of the tasks of such systems is planning of load distribution throughout the country, in particular, based on an analysis of all energy producers, both industrial and private.

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A MILP model for optimising multi-service portfolios of distributed energy storage

Cited by 166 publications

References 19 publications

Leaky storage model for optimal multi‐service allocation of thermostatic loads

Leaky storage model for optimal multi‐service allocation of thermostatic loads

Business cases for energy storage with multiple service provision

Development of an intelligent system for the prognostication of energy produced by photovoltaic cells in smart grid systems

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