Javier Marcos scite author profile

The variable nature of the irradiance can produce significant fluctuations in the power generated by large grid-connected photovoltaic (PV) plants. Experimental 1 s data were collected throughout a year from six PV plants, 18MWp in total. Then, the dependence of short (below lOmin) power fluctuation on PV plant size has been investigated. The analysis focuses on the study of fluctuation frequency as well as the maximum fluctuation value registered. An analytic model able to describe the frequency of a given fluctuation for a certain day is proposed.

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From irradiance to output power fluctuations: the PV plant as a low pass filter

Marcos

Marroyo

Lorenzo³

et al. 2011

Progress in Photovoltaics

127

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The power generated by large grid-connected photovoltaic (PV) plants depends greatly on the solar irradiance. This paper studies the effects of the solar irradiance variability analyzing experimental 1-s data collected throughout a year at six PV plants, totaling 18 MWp. Each PV plant was modeled as a first order filter function based on an analysis in the frequency domain of the irradiance data and the output power signáis. An empiric expression which relates the filter parameters and the PV plant size has been proposed. This simple model has been successfuUy validated precisely determining the daily máximum output power fluctuation from incident irradiance measurements.

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Storage requirements for PV power ramp-rate control

et al. 2014

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Short-term variability in the power generated by large grid-connected photovoltaic (PV) plants can negatively affect power quality and the network reliability. New grid-codes require combining the PV generator with some form of energy storage technology in order to reduce short-term PV power fluctuation. This paper proposes an effective method in order to calculate, for any PV plant size and maximum allowable ramp-rate, the maximum power and the minimum energy storage requirements alike. The general validity of this method is corroborated with extensive simulation exercises performed with real 5-s one year data of 500 kW inverters at the 38.5 MW Amaraleja (Portugal) PV plant and two other PV plants located in Navarra (Spain), at a distance of more than 660 km from Amaraleja.

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Co‐producing management knowledge

Tranfield

Denyer

Marcos

et al. 2004

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The division between academic knowledge and its relevance for practice is an enduring problem across many fields. Nowhere is this division more pronounced, and resolution of its negative features more required, than in academic management research and its relationship to management practice, for the advent of the knowledge revolution requires that organizations capitalize on all available assets including knowledge assets when improving performance either by increasing efficiencies or ensuring mission delivery in the medium term. How companies might achieve this has become a key question. This paper reports the "co-production" model of knowledge creation and transfer through a novel case of this in practice. It outlines how academics and managers can work together using a "systematic review" of the science base to synthesize management knowledge and ensure its transfer. In doing so it offers management academics and practitioners a new model for the production and application of knowledge.

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Control Strategies to Smooth Short-Term Power Fluctuations in Large Photovoltaic Plants Using Battery Storage Systems

et al. 2014

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Abstract:The variations in irradiance produced by changes in cloud cover can cause rapid fluctuations in the power generated by large photovoltaic (PV) plants. As the PV power share in the grid increases, such fluctuations may adversely affect power quality and reliability. Thus, energy storage systems (ESS) are necessary in order to smooth power fluctuations below the maximum allowable. This article first proposes a new control strategy (step-control), to improve the results in relation to two state-of-the-art strategies, ramp-rate control and moving average. It also presents a method to quantify the storage capacity requirements according to the three different smoothing strategies and for different PV plant sizes. Finally, simulations shows that, although the moving-average (MA) strategy requires the smallest capacity, it presents more losses (2-3 times more) and produces a much higher number of cycles over the ESS (around 10 times more), making it unsuitable with storage technologies as lithium-ion. The step-control shown as a better option in scenery with exigent ramp restrictions (around 2%/min) and distributed generation against the ramp-rate control in all ESS key aspects: 20% less of capacity, up to 30% less of losses and a 40% less of ageing. All the simulations were based on real PV production data, taken every 5 s in the course of one year (2012) from a number of systems with power outputs ranging from 550 kW to 40 MW. OPEN ACCESSEnergies 2014, 7 6594

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Javier Marcos

Power output fluctuations in large scale pv plants: One year observations with one second resolution and a derived analytic model

From irradiance to output power fluctuations: the PV plant as a low pass filter

Storage requirements for PV power ramp-rate control

Co‐producing management knowledge

Control Strategies to Smooth Short-Term Power Fluctuations in Large Photovoltaic Plants Using Battery Storage Systems

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