Simone Maggiore scite author profile

Simone Maggiore

5Publications

73Citation Statements Received

68Citation Statements Given

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Ricerca sul Sistema Energetico (Italy)

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Fostering Residential Demand Response through Dynamic Pricing Schemes: A Behavioural Review of Smart Grid Pilots in Europe

et al. 2016

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Abstract:Many smart grid projects make use of dynamic pricing schemes aimed to motivate consumers to shift and/or decrease energy use. Based upon existing literature and analyses of current smart grid projects, this survey paper presents key lessons on how to encourage households to adjust energy end use by means of dynamic tariffs. The paper identifies four key hypotheses related to fostering demand response through dynamic tariff schemes and examines whether these hypotheses can be accepted or rejected based on a review of published findings from a range of European pilot projects. We conclude that dynamic pricing schemes have the power to adjust energy consumption behavior within households. In order to work effectively, the dynamic tariff should be simple to understand for the end users, with timely notifications of price changes, a considerable effect on their energy bill and, if the tariff is more complex, the burden for the consumer could be eased by introducing automated control. Although sometimes the mere introduction of a dynamic tariff has proven to be effective, often the success of the pricing scheme depends also on other factors influencing the behavior of end users. An important condition to make dynamic tariffs work is that the end users should be engaged with them.

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Impact of the enforcement of a time-of-use tariff to residential customers in Italy

Maggiore¹,

Gallanti²,

Grattieri³

et al. 2013

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Flat tariff has always been the default condition for residential customers in Italy and only starting from July, 1st 2010, the Italian Authority for Electricity and Gas (AEEG) approved the entry into force of a mandatory time-of-use (ToU) tariff at two-part rate periods. In order to assess the impact of the tariff in the short and medium term among Italian customers, R.S.E. has started a research project on residential loads and demand, in collaboration and under the patronage of AEEG. The results of such analysis show that, even if there has been a limited shift of consumptions from peak hours to off-peak hours, the change in the behavior of the users is not negligible. Particular attention has been paid to the possible causes that have contributed to limit the amount of energy shifted from peak hours to off-peak hours and to analyse some possible solutions in order to make the tariff more effective.

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Energy efficiency in industry 4.0: assessing the potential of industry 4.0 to achieve 2030 decarbonisation targets

Maggiore¹,

Realini²,

Zagano³

et al. 2021

Int. J. EQ

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The energy transition for the industrial sector is not limited to a reduction in energy consumption: the real issue is to combine sustainability with growth, by mixing the two ingredients (the rational energy use and the industrial growth) which are not always compatible. The National Energy and Climate Plan (NECP) and the New Green Deal policies in Italy have the goal to promote an economic development as well as the environment sustainability and social inclusion. RSE 1 has investigated the role of the national incentive plan 'Impresa 4.0' in Italy (currently 'Transizione 4.0', equivalent to 'Industry 4.0') as a measure to promote the energy transition, analysing whether and how is it possible to combine economic development with energy efficiency. Originally, it was developed to increase the competitiveness of industrial sector, but, progressively, it was also used to promote energy efficiency and sustainability. A survey was carried out by RSE on about 300 companies that implemented innovation and digitalisation interventions, monitoring the effects and impacts that the '4.0 choice' has determined on energy consumption, on their environmental externalities and, in general, on other costs. Moreover, some case studies were collected, together with a database of 'Impresa 4.0' application, which supported technical and economic evaluations. The impact of these measures on energy performance of the companies was estimated from the analysis of actual projects and from interviews and discussions with the operators. In this paper, the results of the survey are presented and the outcomes are analysed in comparison with the Italian manufacturing sector performance, in order to establish the potential of 'Impresa 4.0' policies in supporting the decarbonisation process and reaching 2030 environmental targets.

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Sustainability and energy efficiency of the European industry

Maggiore¹,

Realini²,

Borgarello³

2017

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Estimating the Potential of Ride Sharing in Urban Areas: the Milan Metropolitan Area Case Study

Realini

Borgarello

Viani

et al. 2020

J. sustain. dev. energy water environ. syst.

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In the near future, cities will have to supply innovative and high value-added mobility services, that shall be sustainable in terms of environmental impact, traffic management and energy efficiency. This represents a great challenge: transportation accounts for 20% of the global energy consumption, with a large share in urban areas (around 40% of total transport consumption). One of the most promising solutions to reduce congestion, energy consumption and air pollutants in highly-populated areas is Ride Sharing. Ride Sharing systems aim to bring together travellers with similar itineraries and time schedules, thus providing significant societal and environmental benefits, such as reducing the number of cars used for personal travel and improving the utilization of available seat capacity (also defined "occupancy rate"). This paper examines the impact of Ride Sharing by developing an enhanced transport model in Visum, which takes into account the shareability of passengers mobility patterns. The model is applied to the Milan Metropolitan Area, which represents an interesting test case for two main reasons: first, its high population density and strong transport offer and second, the large amount of information and data available on passengers mobility. The paper assumes an optimal 20% participation rate to Ride Sharing and estimates its benefits in terms of congestion reduction, energy efficiency and environmental impact. The COPERT software is used to estimate Carbon Dioxide emissions and fuel consumption savings. The simulation results show that Ride Sharing brings a sort of rebound effect, since there is an increase in passengers traveling by car. However, the overall effect is a reduction in the number of vehicles used, with consequent reductions in vehicle kilometers travelled (-3,8%). This translates into 6% energy savings and 6% Carbon Dioxide emissions reduction. Some policy recommendations are provided to develop Ride Sharing in order to increase the effectiveness of this system while restraining side effects.

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Simone Maggiore

Fostering Residential Demand Response through Dynamic Pricing Schemes: A Behavioural Review of Smart Grid Pilots in Europe

Impact of the enforcement of a time-of-use tariff to residential customers in Italy

Energy efficiency in industry 4.0: assessing the potential of industry 4.0 to achieve 2030 decarbonisation targets

Sustainability and energy efficiency of the European industry

Estimating the Potential of Ride Sharing in Urban Areas: the Milan Metropolitan Area Case Study

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