To Topic-Graph

7.552 Topics available

To Map

748 Locations available

230.548 People

PeopleLocationsStatistics
Aksjonov, AndreiEspoo
  • 9
  • 26
  • 47
  • 2022
Wei, Wei
  • 10
  • 50
  • 182
  • 2022
Boussauw, Kobe
  • 8
  • 17
  • 55
  • 2022
Correia, G Homem De Almeida RodriguezDelft
  • 74
  • 203
  • 1k
  • 2022
Liu, YongfengLinköping, Villeurbanne
  • 126
  • 541
  • 2k
  • 2022
Marconi, Edoardo
  • 4
  • 6
  • 6
  • 2022
Šarkan, Branislav
  • 6
  • 15
  • 11
  • 2022
Ruponen, PekkaEspoo
  • 8
  • 21
  • 63
  • 2022
Sorniotti, AldoGuildford
  • 71
  • 295
  • 1k
  • 2022
Orlovska, JuliaGothenburg
  • 3
  • 7
  • 13
  • 2022
Costescu, Dorinela
  • 8
  • 28
  • 13
  • 2022
Bonander, Carl
  • 3
  • 8
  • 27
  • 2022
Kim, Sunghwan
  • 2
  • 6
  • 0
  • 2022
Kluge, M.
  • 13
  • 81
  • 272
  • 2022
Van Vuuren, Detlef PeterBerlin
  • 12
  • 129
  • 1k
  • 2022
Maternini, Giulio
  • 9
  • 32
  • 69
  • 2022
Kouwenhoven, Marco
  • 11
  • 39
  • 288
  • 2022
Zwick, Thomas
  • 51
  • 167
  • 990
  • 2022
Haddad, HediLyon
  • 4
  • 12
  • 10
  • 2022
SHARMA, SANJEEV
  • 1
  • 1
  • 0
  • 2022
Rakhmangulov, Aleksandr Nelevich
  • 6
  • 46
  • 22
  • 2022
Rusca, Aura
  • 5
  • 21
  • 2
  • 2022
Osintsev, Nikita Anatolyevich
  • 6
  • 46
  • 22
  • 2022
Rosca, Mircea Augustin
  • 6
  • 25
  • 15
  • 2022
Yang, BinAalborg
  • 44
  • 247
  • 1k
  • 2022

Ortenzi, Fernando

in Cooperation with on an Cooperation-Score of 37%

Places of action

Chart of shared publication
Locorotondo, E. - 7 publications, 1 shared
Genovese, Andrea - 17 publications, 5 shared
ALESSANDRINI, Adriano - 21 publications, 9 shared
Pierini, Maurizio - 34 publications, 2 shared
Barbieri, R. - 4 publications, 1 shared
CIGNINI, FABIO - 8 publications, 4 shared
Pugi, Luca - 37 publications, 2 shared
Berzi, Lorenzo - 15 publications, 2 shared
Lidozzi, Alessandro - 13 publications, 1 shared
Orchi, S. - 1 publications, 1 shared
Valentini, Maria Pia - 3 publications, 1 shared
Andrenacci, Natascia - 2 publications, 1 shared
Anatone, M. - 1 publications, 1 shared
De Vita, A. - 3 publications, 1 shared
Ursitti, E. M. - 1 publications, 1 shared
Villante, Carlo - 9 publications, 1 shared
Genovese, Antonino - 1 publications, 1 shared
Locorotondo, Edoardo - 1 publications, 1 shared
Barbieri, Riccardo - 1 publications, 1 shared
Orecchini, Fabio - 9 publications, 6 shared
ZUCCARI, Fabrizio - 2 publications, 1 shared
Spazzafumo, G. - 1 publications, 1 shared
Nardone, L. - 1 publications, 1 shared
SANTIANGELI, Adriano - 3 publications, 1 shared
PEDE, GIOVANNI - 9 publications, 2 shared
Stam, D. - 2 publications, 1 shared
Martini, Gianmaria - 15 publications, 2 shared
Manfredi, U. - 2 publications, 2 shared
Vianelli, S. - 2 publications, 2 shared
De Gennaro, M. - 4 publications, 2 shared
Paffumi, E. - 2 publications, 2 shared
Antonini, P. - 1 publications, 1 shared
Virginio, Stefano - 1 publications, 1 shared
Capata, Robrerto - 1 publications, 1 shared
Rossi, Ennio - 1 publications, 1 shared
Cattivera, Alessio - 2 publications, 1 shared
Filippi, Francesco - 14 publications, 5 shared
Cazzola, V. - 1 publications, 1 shared
Contrisciani, N. - 1 publications, 1 shared
Villatico Campbell, Federico - 1 publications, 1 shared
Chart of publication period
2019
2018
2017
2015
2012
2011
2010
2009

conferencepaper

Design of a Hybrid Storage for Road Public Transportation Systems

  • Genovese, Antonino
  • Ortenzi, Fernando
  • ALESSANDRINI, Adriano
  • Pierini, Maurizio
  • CIGNINI, FABIO
  • Locorotondo, Edoardo
  • Pugi, Luca
  • Berzi, Lorenzo
  • Barbieri, Riccardo
Abstract

Cost and reliability of energy storage systems are key factors for the electrification of road vehicles such as buses. In this work, authors propose a hybrid storage system in which a relatively small electrochemical battery is coupled with an array of super-capacitors. Super-capacitors are sized in order to store the energy needed to perform the travel between two bus stops. Each bus stop is equipped with a fast recharge system able to completely recharge super-capacitors in about thirty-sixty seconds. In this way on board batteries are used only as a backup source to compensate some unavoidable tolerances in the design of the system and to assure a residual autonomy that should allow a robust behaviour of the system respect to real perturbed mission profiles. In this work, proposed storage technology is applied to an existing electric bus as an advanced retro-fit kit. The aim of this activity is to demonstrate the feasibility of the proposed solution on a small cost prototype, using a technology that should be massively introduced also on existing vehicles with sustainable conversion costs. This work is mainly focused on the design of the system that have to be installed on the chosen prototype for future experimental activities.

Topics
  • public transit
  • reliability
  • road
  • behavior
  • prototype
  • travel
  • accumulator
  • warehousing
  • capacitor
  • energy storage system
  • electric bus
  • electrification
  • costs
  • shopping facility
  • green logistics
  • mechatronics
  • bus stop