Giuseppe Parise scite author profile

Giuseppe Parise

3Publications

78Citation Statements Received

0Citation Statements Given

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234

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Affiliations

Chamber of Deputies, Sapienza University of Rome, Engineering (Italy)

Publications

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Demand Side Management in Microgrids for Load Control in Nearly Zero Energy Buildings

Martirano

Habib

Greco

et al. 2017

IEEE Trans. on Ind. Applicat.

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The energy policy approach is carrying out a long-time renewal process of the electric and in general energy framework. The energy spent in commercial, residential, and institutional buildings is a great amount (in EU is estimated about 40% of total energy consumption and about 90% in high-density urban areas) [1]. The general encouragement of the rational use of energy, also for residential users, introduced the new approach of the nearly zero-energy buildings (NZEBs) by the European energy performance of buildings directive (EPBD) [3]. NZEB means a building that has a very high energy performance, as determined in accordance with Annex I of Directive [3]. The nearly zero or very low amount of energy required should be covered to a very significant extent by energy from renewable sources, favoring energy from renewable sources produced on-site or nearby. Let us note that the major appliances (both white and brown goods) and other electric loads not fixed (equipment supplied by plugs) are not taken into account in the NZEB qualification. The EPBD requires all new buildings to be NZEBs by the end of 2020 (public buildings must be NZEBs by 2018). A building may reach the NZEB qualification through a complex of efficient technical building systems (TBSs), building automation control system (BACS), and renewable sources, besides a very high energy performance given by envelope insulation and other passive measures [4] . The TBSs that must be provided vary with the type of building, but will generally include a building electric service and power distribution system to serve the loads, a heating, ventilation, and air conditioning (HVAC) system, a domestic hot water (DHW) system, electronic safety and security systems, and a communication system (ICT). The extremely low amount of energy that NZEBs require (energy spent ES2) comes mostly from renewable local sources (energy generated ERES) like: photovoltaic (PV), ground-source heat pumps (GSHP) or thermal solar systems

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Comprehensive Peak-Shaving Solutions for Port Cranes

Parise

Malerba

Pepe

et al. 2017

IEEE Trans. on Ind. Applicat.

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Wise Port and Business Energy Management: Port Facilities, Electrical Power Distribution

Parise

Martirano

Chavdarian

et al. 2016

IEEE Trans. on Ind. Applicat.

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This paper deals with the relevance of analyzing the necessary development and of proposing a plan for research and remodeling the electrical infrastructures of port facilities. Good energy management principles, as well as electrical distribution architecture have a vital impact on performance of the installed system throughout its life cycle. The ports are the interface of maritime transport and are integrated in the surrounding land. They are required to arrange their electrical power distribution system, possibly in microgrids, that is, as a “utility” system, appropriate and adequate even to power the ship from shore. Harbors must have an energy master plan and their areas have to be considered as a unique customer. The energy management of a port area may be a great business opportunity for the port authority, which until now was not, involving different stakeholders who may benefit from service, including the same power utility company that benefits from the optimization and control of the energy flows

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Giuseppe Parise

Demand Side Management in Microgrids for Load Control in Nearly Zero Energy Buildings

Comprehensive Peak-Shaving Solutions for Port Cranes

Wise Port and Business Energy Management: Port Facilities, Electrical Power Distribution

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