Nome |
# |
Sustainability to wind actions of a new roofing structure in a green university campus, file c9c75f13-3c7d-4bc7-aa91-d11d044e5785
|
265
|
The Smart City Energy Infrastructures at the Savona Campus of the University of Genoa, file e268c4c7-3498-a6b7-e053-3a05fe0adea1
|
174
|
An equivalent electric circuit for the thermal network of the Savona Campus Smart Polygeneration Microgrid, file e268c4c7-33e3-a6b7-e053-3a05fe0adea1
|
142
|
Energy management in hybrid systems coupling PV and electrical storage, file e268c4c8-7bd4-a6b7-e053-3a05fe0adea1
|
120
|
A simple strategy to optimally design and manage a photovoltaic plant integrated with a storage system for different applications, file e268c4ca-4eac-a6b7-e053-3a05fe0adea1
|
116
|
A methodology to reduce the computational effort in the evaluation of the lightning performance of distribution networks, file e268c4c8-5529-a6b7-e053-3a05fe0adea1
|
111
|
Approximate characterization of large Photovoltaic power plants at the Point of Interconnection, file e268c4c8-70e8-a6b7-e053-3a05fe0adea1
|
104
|
Planning & Open-Air Demonstrating Smart City Sustainable Districts, file e268c4ca-02b6-a6b7-e053-3a05fe0adea1
|
85
|
Living Labs and Partnerships for Progress: How Universities can Drive the Process towards the Sustainable City, file e268c4ca-8a4b-a6b7-e053-3a05fe0adea1
|
84
|
Electric Vehicles and Storage Systems Integrated within a Sustainable Urban District Fed by Solar Energy, file e268c4cc-0e68-a6b7-e053-3a05fe0adea1
|
72
|
Design of a sustainable polygeneration microgrid for the retrofitting of an industrial site: Ansaldo Energia case study, file e268c4cb-4e1a-a6b7-e053-3a05fe0adea1
|
70
|
Evaluating LCOE in sustainable microgrids for smart city applications, file e268c4cb-2481-a6b7-e053-3a05fe0adea1
|
69
|
Controllo e gestione di microreti: il Living Lab Microgrid, file e268c4ca-4cc2-a6b7-e053-3a05fe0adea1
|
24
|
Definition and experimental validation of a simplified model for a microgrid thermal network and its integration into energy management systems, file e268c4c7-a7ef-a6b7-e053-3a05fe0adea1
|
15
|
Key performance indicators for an energy community based on sustainable technologies, file e268c4ce-7b62-a6b7-e053-3a05fe0adea1
|
15
|
Electromagnetic Transients on Power Plant Connection Caused by Lightning Event, file 08b1f747-50c4-4279-bdd3-fd3d460c7b0e
|
13
|
Evaluation of Power System Lightning Performance - Part II: Application to an Overhead Distribution Network, file e268c4c7-5af1-a6b7-e053-3a05fe0adea1
|
13
|
Evaluation of Power System Lightning Performance, Part I: Model and Numerical Solution Using the PSCAD-EMTDC Platform, file e268c4c7-5cf5-a6b7-e053-3a05fe0adea1
|
13
|
Short-term power forecasting framework for microgrids using combined baseline and regression models, file e268c4ce-7b60-a6b7-e053-3a05fe0adea1
|
12
|
Technique for computing the response of a line of finite length excited by high frequency electromagnetic fields, file e268c4c7-5f04-a6b7-e053-3a05fe0adea1
|
11
|
Evaluation of Power System Lightning Performance, Part I: Model and Numerical Solution Using the PSCAD-EMTDC Platform, file e268c4c7-6e14-a6b7-e053-3a05fe0adea1
|
11
|
On the computation of underground electromagnetic fields generated by lightning: A comparison between different approaches, file e268c4c7-5d95-a6b7-e053-3a05fe0adea1
|
9
|
Evaluation of forces in magnetic materials by means of energy and co-energy methods, file e268c4c7-5d98-a6b7-e053-3a05fe0adea1
|
9
|
Supply-side gaming on electricity markets with physical constrained transmission network, file e268c4c7-64b7-a6b7-e053-3a05fe0adea1
|
9
|
Stochastic Operation Optimization of the Smart Savona Campus as an Integrated Local Energy Community Considering Energy Costs and Carbon Emissions, file 42091ee8-6d11-4a70-b670-5de61d18e82f
|
8
|
Hydrogen as an energy vector to optimize the energy exploitation of a self-consumption solar photovoltaic facility in a dwelling house, file e268c4cc-e8a2-a6b7-e053-3a05fe0adea1
|
8
|
The Lightning Power Electromagnetic Simulator for Transient Overvoltages (LIGHT-PESTO) Code: A User-Friendly Interface With the MATLAB-Simulink Environment, file e268c4ce-6ef0-a6b7-e053-3a05fe0adea1
|
8
|
A Mathematical Model for the Optimal Operation of the University of Genoa Smart Polygeneration Microgrid: Evaluation of Technical, Economic and Environmental Performance Indicators, file e268c4c6-c86e-a6b7-e053-3a05fe0adea1
|
7
|
Microgrid Design and Operation-Toward Smart Energy in Cities, file e268c4ca-5c38-a6b7-e053-3a05fe0adea1
|
7
|
A platform for demand response and intentional islanding in distribution grids: The LIVING GRID demonstration project, file 3ba5c440-e1ba-4cc2-8cbf-ddada308d691
|
6
|
A pilot facility for analysis and simulation of smart microgrids feeding smart buildings, file e268c4c6-f055-a6b7-e053-3a05fe0adea1
|
6
|
A regularization approach for high-frequency electromagnetic field-to-line coupling analysis, file e268c4c7-5c02-a6b7-e053-3a05fe0adea1
|
6
|
An equivalent two-port model for a transmission line of finite length accounting for high-frequency effects, file e268c4c7-6120-a6b7-e053-3a05fe0adea1
|
6
|
An approximate methodology to verify the compliance of large photovoltaic power plants to system operator steady-state requirements, file e268c4c7-64aa-a6b7-e053-3a05fe0adea1
|
6
|
A mathematical model for the dynamic simulation of low size cogeneration gas turbines within smart microgrids, file e268c4c7-f4c5-a6b7-e053-3a05fe0adea1
|
6
|
A building energy management system based on an equivalent electric circuit model, file e268c4ce-5b1d-a6b7-e053-3a05fe0adea1
|
6
|
A model predictive control approach for the optimization of polygeneration microgrids and demand response strategies, file e268c4c7-20d6-a6b7-e053-3a05fe0adea1
|
5
|
Sustainable microgrids interacting with sustainable buildings: the case of the Savona Campus, file e268c4c7-2d77-a6b7-e053-3a05fe0adea1
|
5
|
A dynamic optimization-based architecture for polygeneration microgrids with tri-generation, renewables, storage systems and electrical vehicles, file e268c4c7-30f5-a6b7-e053-3a05fe0adea1
|
5
|
Sustainable electric mobility analysis in the Savona Campus of the University of Genoa, file e268c4c7-3853-a6b7-e053-3a05fe0adea1
|
5
|
A control algorithm for the maximum power point tracking and the reactive power injection from grid-connected PV systems, file e268c4c7-5d8e-a6b7-e053-3a05fe0adea1
|
5
|
Lightning return stroke current identification via field measurements, file e268c4c7-61ab-a6b7-e053-3a05fe0adea1
|
5
|
Evaluation of the field coupling to a line of finite length - A comparison between the dual integral equation approach and the moment method, file e268c4c7-6519-a6b7-e053-3a05fe0adea1
|
5
|
An Energy Management System for the Savona Campus Smart Polygeneration Microgrid, file e268c4c8-396a-a6b7-e053-3a05fe0adea1
|
5
|
Design Criteria for the Optimal Sizing of Integrated Photovoltaic-Storage Systems, file e268c4c8-6efd-a6b7-e053-3a05fe0adea1
|
5
|
Energy planning of sustainable districts: Towards the exploitation of small size intermittent renewables in urban areas, file e268c4c9-0b65-a6b7-e053-3a05fe0adea1
|
5
|
Electrical storage systems based on Sodium/Nickel chloride batteries: A mathematical model for the cell electrical parameter evaluation validated on a real smart microgrid application, file e268c4ca-6a47-a6b7-e053-3a05fe0adea1
|
5
|
An Energy Management Platform for the Optimal Control of Active and Reactive Powers in Sustainable Microgrids, file e268c4cc-2ff2-a6b7-e053-3a05fe0adea1
|
5
|
Flexibility Services Based on OpenADR Protocol for DSO Level, file e268c4cd-4cad-a6b7-e053-3a05fe0adea1
|
5
|
Analytical expressions for lightning electromagnetic fields with arbitrary channel-base current. Part II: Validation and computational performance, file e268c4cd-650e-a6b7-e053-3a05fe0adea1
|
5
|
A Semi-Analytical Approach to Calculate Lightning EM Fields Considering Channel Tortuosity, file 5c2cefdf-2800-46cb-97d8-64fb927cfad6
|
4
|
An Optimization Algorithm for the Operation Planning of the University of Genoa Smart Polygeneration Microgrid, file e268c4c7-3493-a6b7-e053-3a05fe0adea1
|
4
|
Smart microgrid monitoring: Evaluation of key performance indicators for a PV plant connected to a LV microgrid, file e268c4c8-cf77-a6b7-e053-3a05fe0adea1
|
4
|
A flexible test-bed pilot facility for the analysis and simulation of Smart Microgrids, file e268c4cb-5a6f-a6b7-e053-3a05fe0adea1
|
4
|
Introduction, file e268c4cf-1338-a6b7-e053-3a05fe0adea1
|
4
|
Flexibility Services Based on OpenADR Protocol for DSO Level, file a218cb40-1748-42e3-82d4-6b309923fcb2
|
3
|
Real-Time Power System Laboratories at the University of Genoa, file b4e1948c-1113-4518-9bee-a26892d0dccf
|
3
|
The University of Genoa Smart Polygeneration Microgrid Test-bed Facility: the Overall System, the Technologies and the Research Challenges, file e268c4c6-d0a3-a6b7-e053-3a05fe0adea1
|
3
|
Key Performance Indicators in Assessing New Technology for Electricity Transmission and Distribution Networks, file e268c4c6-f0f0-a6b7-e053-3a05fe0adea1
|
3
|
Smart Grids, Energy Efficiency and Renewable Sources in Industrial Areas: Polygeneration Microgrid Example in Savona Campus, file e268c4c7-2b73-a6b7-e053-3a05fe0adea1
|
3
|
Planning and Management of Sustainable Microgrids: the test-bed facilities at the University of Genoa, file e268c4c7-2c01-a6b7-e053-3a05fe0adea1
|
3
|
The role of high efficiency trigeneration plants within sustainable smart microgrids: Performance analysis and experimental tests, file e268c4c7-2e58-a6b7-e053-3a05fe0adea1
|
3
|
Day ahead microgrid optimization: A comparison among different models, file e268c4c7-30f7-a6b7-e053-3a05fe0adea1
|
3
|
The smart microgrid pilot project of the University of Genoa: Power and communication architectures, file e268c4c7-3371-a6b7-e053-3a05fe0adea1
|
3
|
Optimal planning of the energy production mix in smart districts including renewable and cogeneration power plants, file e268c4c7-4885-a6b7-e053-3a05fe0adea1
|
3
|
Smart microgrids in smart campuses with electric vehicles and storage systems: Analysis of possible operating scenarios, file e268c4c7-531e-a6b7-e053-3a05fe0adea1
|
3
|
A multi-objective optimization tool for the daily management of sustainable smart microgrids: Case Study: the Savona Campus SPM and SEB facilities, file e268c4c7-5324-a6b7-e053-3a05fe0adea1
|
3
|
Distributed optimal power flow for islanded microgrids: an application to the Smart Polygeneration Microgrid of the Genoa University, file e268c4c7-5668-a6b7-e053-3a05fe0adea1
|
3
|
Modeling and maximum power point tracking control of wind generating units equipped with permanent magnet synchronous generators in presence of losses, file e268c4c7-a6c4-a6b7-e053-3a05fe0adea1
|
3
|
A Dynamic Market Mechanism for Combined Heat and Power Microgrid Energy Management, file e268c4c8-297a-a6b7-e053-3a05fe0adea1
|
3
|
Optimal thermal power production by means of an equivalent electric circuit for a thermal network: The Savona Campus Smart Polygeneration Microgrid case, file e268c4c8-552b-a6b7-e053-3a05fe0adea1
|
3
|
Preliminary Study on Electric Mobility Applied to a University Campus in North Italy, file e268c4c8-cf73-a6b7-e053-3a05fe0adea1
|
3
|
Electric Vehicle Use in Public Fleets: The Case of the Genoa University, file e268c4c8-cf7c-a6b7-e053-3a05fe0adea1
|
3
|
An architecture for the optimal control of tertiary and secondary levels in small-size islanded microgrids, file e268c4c8-ee44-a6b7-e053-3a05fe0adea1
|
3
|
OPTIMAL PLANNING OF THE ENERGY PRODUCTION MIX IN SMART CITIES CONSIDERING THE UNCERTAINTIES OF THE RENEWABLE SOURCES, file e268c4c9-b321-a6b7-e053-3a05fe0adea1
|
3
|
Identification and optimal control of an electrical storage system for microgrids with renewables, file e268c4ca-4251-a6b7-e053-3a05fe0adea1
|
3
|
An optimization based architecture for local systems managed by PLC devices, file e268c4ca-5543-a6b7-e053-3a05fe0adea1
|
3
|
Il Progetto Pilota "Smart Polygeneration Microgrid", file e268c4ca-8696-a6b7-e053-3a05fe0adea1
|
3
|
A Review of Lightning Location Systems: Part I-Methodologies and Techniques, file e268c4cd-635e-a6b7-e053-3a05fe0adea1
|
3
|
Optimal planning and operation of a small size Microgrid within a Positive Energy District, file f146f809-1912-4a83-a683-748b1b2d2975
|
3
|
An Energy Management System for microgrids including costs, exergy, and stress indexes, file 09cdb193-f75f-4ec7-b31c-62d8b03115b0
|
2
|
Conclusions, file 5620fc92-ff20-4ad6-8a41-5829ec561fe9
|
2
|
An efficient Energy Management System for long term planning and real time scheduling of flexible polygeneration systems, file 70c30b8a-dda0-4726-8a38-63768206da3b
|
2
|
An Efficient Method for the Computation of Electromagnetic Fields Associated With Tortuous Lightning Channels, file bb36678e-2171-4233-80a2-bd289bfa29ab
|
2
|
A Simplified Method for the Evaluation of Lightning-Induced Overvoltage Peaks with Frequency-Dependent Soil Parameters, file c0e1faf6-0908-4ab4-b69c-edc13e0864ef
|
2
|
A Simulator for Long Term Planning and Real Time Scheduling of Polygenerative Microgrids, file ca99498b-86a5-4fba-8f1f-2b619ad2d8c2
|
2
|
A P-Q capability chart approach to characterise grid connected PV-units, file e268c4c6-12ab-a6b7-e053-3a05fe0adea1
|
2
|
Optimal control of active power flows in Smart Microgrids, file e268c4c7-2ae3-a6b7-e053-3a05fe0adea1
|
2
|
A system of systems model for the control of the University of Genoa Smart Polygeneration Microgrid, file e268c4c7-2b71-a6b7-e053-3a05fe0adea1
|
2
|
Economic and environmental performances quantification of the University of Genoa Smart Polygeneration Microgrid, file e268c4c7-2bf4-a6b7-e053-3a05fe0adea1
|
2
|
La Palazzina "Energia Sostenibile" presso il Campus Universitario di Savona: impiego di fonti rinnovabili e tecnologie per l’efficienza energetica, file e268c4c7-2d73-a6b7-e053-3a05fe0adea1
|
2
|
A Receding-Horizon Approach for Active and Reactive Power Flows Optimization in Microgrids, file e268c4c7-2f8e-a6b7-e053-3a05fe0adea1
|
2
|
Influence of frequency-dependent soil electrical parameters on the evaluation of lightning electromagnetic fields in air and underground, file e268c4c7-582c-a6b7-e053-3a05fe0adea1
|
2
|
A real-time Energy Management System for the integration of economical aspects and system operator requirements: Definition and validation, file e268c4c7-9004-a6b7-e053-3a05fe0adea1
|
2
|
A methodological approach to assess the impact of smarting action on electricity transmission and distribution networks related to Europe 2020 targets, file e268c4c7-a839-a6b7-e053-3a05fe0adea1
|
2
|
Steady-state assessments of PMSGs in wind generating units, file e268c4c7-c58c-a6b7-e053-3a05fe0adea1
|
2
|
Decentralized generation in urban districts: Optimal planning considering uncertainties, file e268c4c8-cd9d-a6b7-e053-3a05fe0adea1
|
2
|
Data-Driven Photovoltaic Power Production Nowcasting and Forecasting for Polygeneration Microgrids, file e268c4c9-d3df-a6b7-e053-3a05fe0adea1
|
2
|
An Optimization Model for Polygeneration Microgrids with Renewables, Electrical and Thermal Storage: Application to the Savona Campus, file e268c4ca-2ab2-a6b7-e053-3a05fe0adea1
|
2
|
The University of Genoa Smart City Demo Site, file e268c4ca-30cd-a6b7-e053-3a05fe0adea1
|
2
|
Totale |
1.851 |