Pierluigi Mancarella
University of Melbourne
325 Papers
1.6K Citations
Pierluigi Mancarella is an academic researcher from University of Melbourne. The author has contributed to research in topics: Demand response & Distributed generation. The author has an hindex of 51, co-authored 303 publications. Previous affiliations of Pierluigi Mancarella include University of Manchester & Polytechnic University of Turin.
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Papers
A stochastic approach to size EV charging stations with support of second life battery storage systems
Giuseppe Graber,Vincenzo Galdi,Vito Calderaro,Pierluigi Mancarella +3 more
- 01 Jun 2017
TL;DR: In this article, a stochastic approach to determine the number of different types of charging stations for electric vehicles in urban parking lots is proposed to minimize annual cost of energy (ACOE) while ensuring a good satisfaction level for EV users.
Low-carbon LV networks: Challenges for planning and operation
Luis F. Ochoa,Pierluigi Mancarella +1 more
- 22 Jul 2012
TL;DR: In this paper, the authors discuss the technical impacts of these low-carbon technologies on urban LV networks, the potential solutions, and how the corresponding planning and operation aspects should be looked at in the future.
Quantifying the Impacts of Modelling Assumptions on Accuracy and Computational Efficiency for Integrated Water-Energy System Simulations Under Uncertain Climate
Eduardo Alejandro Martinez Cesena,Yutian Zhou,Jose Nicolas Melchor Gutierrez,Wen-xin Zhu,Mathaios Panteli,Joseph Mutale,Pierluigi Mancarella,James E. Tomlinson,Rasheed Baisie,Emmanuel Obuobie,Julien J. Harou +10 more
TL;DR: In this article , a Mixed Integer Linear Programming (MILP) integrated water-energy system simulation methodology is proposed to adapt and quantify different modelling assumptions under various weather-related conditions (e.g., water scarcity and high temperatures).
Cosimulating Integrated Energy Systems With Heterogeneous Digital Twins: Matching a Connected World
Peter Palensky,Pierluigi Mancarella,Trevor Hardy,Milos Cvetkovic +3 more
TL;DR: Hydrolyzers, heat pumps, distributed renewable generation, smart buildings, and the digital grid edge are all currently the subject of integration with the power system and the energy sector at large.
Integrated electricity-heat-gas modelling and assessment, with applications to the Great Britain system. Part I: High-resolution spatial and temporal heat demand modelling
TL;DR: In this paper, a high-resolution spatial and temporal integrated electricity-heat-gas model has been developed to assess the impact of low-carbon heating options on electricity and gas transmission networks with the consideration of heat demands requirements.