INTELLIGENT ENVIRONMENTAL ENERGY MANAGEMENT SYSTEM FOR THE ACHIEVEMENT OF ENERGY OPTIMIZED AREAS IN THE SMART CITIES
DOI:
https://doi.org/10.24310/wps.vi5.14270Keywords:
Energy monitoring and telemanagement, Energy balance, Energetically smart cityAbstract
The aim of Project called ‘Energy-environment smart management System’ is to improve the energy and environmental state of inhabited areas city because of a correct its infrastructure and its resources management. So, the main achievement is to reduce energy consumption of city and less greenhouse gas. The goal is create a Smart and sustainable energy city oriented to the citizen, which can offer services and advantages to improve their quality life and at the same time it allows to increase its economic capacity. This system has an energy module, which controls and monitors the energy to optimize the energy uses, consumption and generation in every point of consumption (houses, buildings, infrastructure and electrical network). It includes energetic balancing strategies, which tend the balance to zero and the active management demand. This module will be employed by energetic managers to promote the tools of improvement of state energy of cities. Moreover, it has a maintenance module which detects malfunctions and it manages these failures. In addition, it integrates services and infrastructures TIC, which gives useful information to the citizen about his proactive participation respect to improving energetic and environmental environment.
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-DE JAEGERE, N., DEFRAEYE, M., VAN NIEUWENHUYSE, I., (2014), The Vehicle Routing Problem: State of the Art Classification and Review.
-LEYGUE, C., FERGUSON E., SKATOVA, A., SPENCE, A., (2014) Energy sharing and energy feedback: affective and behavioural reactions to communal energy displays.
-NADERI, B., AND RUIZ, R., (2010). The distributed permutation flowshop scheduling problem. (Palensky, P., Dietrich, D., 2011) Demand Side Management: Demand Response, Intelligent Energy Systems, and Smart Loads.
-SIEMENS SWITZERLAND LTD., (2012) Building automation – impact on energy efficiency. Application per EN 15232:2012.
-VASSILEVA, I., DAHLQUIST, E., WALLIN, F., CAMPILLO, J., (2013). Energy consumption feedback devices’ impact evaluation on domestic energy use.
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