Smart micro grids for Nearly Zero Energy Buildings

The paper presents a feasible model of architecture for the technical building systems (TBS) particularly suitable for Nearly Zero Energy Buildings (NZEBs). NZEBs are buildings where the energetic consumption are optimized by means of solutions that drastically reduce both electric and thermal demand, while residual required energy has to be provided by local renewable generation. The suggested model aggregates the users around an electric node in a common microgrid in order to reach up the threshold value of electric power and to get a more virtuous and flexible cumulative load profile. The building (or a group of buildings) represents the natural limit of the aggregation of the electric systems, like in the heating systems. Present proposal is a full electric smart micro grid with heating and domestic hot water generated by a centralized electric heat pump system. The renewable energy is provided by a photovoltaic field. The authors suggest to control the whole electric demand of the building by exploiting its thermal inertia as an energy storage by forcing both local and central set points of heating and air conditioning systems and time shifting opportunities of smart appliances. A case study is presented.

[1]  G. Chicco,et al.  Net metering benefits for residential buildings: A case study in Italy , 2015, 2015 IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC).

[2]  Luigi Martirano,et al.  Ecodesign of Ever Net-Load Microgrids , 2012, IEEE Transactions on Industry Applications.

[3]  João Figueiredo,et al.  A SCADA system for energy management in intelligent buildings , 2012 .

[4]  Pierluigi Siano,et al.  Innovative control logics for a rational utilization of electric loads and air-conditioning systems in a residential building , 2015 .

[5]  Luigi Martirano,et al.  Efficient Energy Management in Smart Micro-Grids: ZERO Grid Impact Buildings , 2015, IEEE Transactions on Smart Grid.

[6]  Eike Musall,et al.  Zero Energy Building A review of definitions and calculation methodologies , 2011 .

[7]  Gabrial Anandarajah,et al.  Pathways to a Low-Carbon Economy , 2009 .

[8]  Luigi Martirano,et al.  KNX protocol compliant load shifting and storage control in residential buildings , 2015, 2015 IEEE Industry Applications Society Annual Meeting.

[9]  Gaetano Zizzo,et al.  Impact of building automation control systems and technical building management systems on the energy performance class of residential buildings: An Italian case study , 2014 .

[10]  Regina Lamedica,et al.  A bottom-up approach to residential load modeling , 1994 .

[11]  L. Martirano,et al.  A case study of a commercial/residential microgrid integrating cogeneration and electrical local users , 2013, 2013 12th International Conference on Environment and Electrical Engineering.

[12]  Jaume Salom,et al.  Understanding net zero energy buildings: Evaluation of load matching and grid interaction indicators , 2011 .