با سلام خدمت کاربران در صورتی که با خطای سیستم پرداخت بانکی مواجه شدید از طریق کارت به کارت (6037997535328901 بانک ملی ناصر خنجری ) مقاله خود را دریافت کنید (تا مشکل رفع گردد).
دسته بندی:
مدیریت انرژی - Energy Management
سال انتشار:
2020
عنوان انگلیسی مقاله:
Cooperative energy management of a community of smart-buildings: A Blockchain approach
ترجمه فارسی عنوان مقاله:
مدیریت انرژی تعاونی جامعه از ساختمانهای هوشمند: رویکرد بلاکچین
منبع:
Sciencedirect - Elsevier - Electrical Power and Energy Systems, 117 (2020) 105643. doi:10.1016/j.ijepes.2019.105643
نویسنده:
Olivier Van Cutsem, David Ho Dac, Pol Boudou, Maher Kayal
چکیده انگلیسی:
Demand Response (DR) is progressively moving from a centralized, unidirectional structure to a set of advanced
decentralized mechanisms that better balance distributed supply and demand. This paper presents a decentralized
cooperative DR framework to manage the daily energy exchanges within a community of Smart-
Buildings, in the presence of local Renewable Energy Sources (RES). The proposed algorithm taps into the
flexibility of the participants to let them decide of a day-ahead community power profile, and subsequently
ensures the forecast tracking during the next day. In practice, the algorithm is fully decentralized by the
Blockchain technology, that enables a trusted communication medium among the participants and enforces
autonomous monitoring and billing via Smart-Contracts. With such an energy management framework, participating
Smart-Buildings can together aim at a common objective, such as carbon-free resources usage or aggregated
grid services, without depending on a centralized aggregator/utility. Simulations on realistic Swiss
building models demonstrate that nearly all the renewable production resources could be harnessed locally
through the presented framework, compared to selfish individual optimization. Under a quadratic cost of grid
electricity, the considered community profile could dramatically be flattened, hence avoiding costly peaks at the
grid interface. A scalability analysis shows that, considering the current public Ethereum Blockchain, the framework
could handle a community size of up to 100 Smart-Building.
Keywords: Cooperative energy management | Smart-buildings | Smart-community | Blockchain | Demand response | Smart-contract | Linear optimization | Decentralized algorithm
قیمت: رایگان
توضیحات اضافی:
تعداد نظرات : 0