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Novel incentive mechanism for end-users enrolled in DLC-based demand response programs within stochastic planning context
In this paper, a novel direct load control (DLC) planning based on providing free energy credits to residential end-users for their heating, ventilation, and air conditioning load during demand response (DR) events is proposed. The obtained credit can then be used by the end-users during relatively higher price periods free-of-cost to enable them lowering their energy procurement costs. Furthermore, the resulting reduction in the total household energy consumption considerably decreases the critical load demands in power systems, which is of vital importance for load-serving entities in maintaining the balance between supply and demand during peak load periods. In this regard, the aforementioned energy credits-based incentive mechanism is proposed for end-users enrolled in the DLC-based DR program, as a new contribution to the existing literature, testing it in a stochastic day-ahead planning context.
Novel incentive mechanism for end-users enrolled in DLC-based demand response programs within stochastic planning context
In this paper, a novel direct load control (DLC) planning based on providing free energy credits to residential end-users for their heating, ventilation, and air conditioning load during demand response (DR) events is proposed. The obtained credit can then be used by the end-users during relatively higher price periods free-of-cost to enable them lowering their energy procurement costs. Furthermore, the resulting reduction in the total household energy consumption considerably decreases the critical load demands in power systems, which is of vital importance for load-serving entities in maintaining the balance between supply and demand during peak load periods. In this regard, the aforementioned energy credits-based incentive mechanism is proposed for end-users enrolled in the DLC-based DR program, as a new contribution to the existing literature, testing it in a stochastic day-ahead planning context.
Novel incentive mechanism for end-users enrolled in DLC-based demand response programs within stochastic planning context
Erdinc, O. (author) / Tascikaraoglu, Akin (author) / Paterakis, Nikolaos (author) / Catalao, J.P.S. (author)
2019-02-01
Erdinc , O , Tascikaraoglu , A , Paterakis , N & Catalao , J P S 2019 , ' Novel incentive mechanism for end-users enrolled in DLC-based demand response programs within stochastic planning context ' , IEEE Transactions on Industrial Electronics , vol. 66 , no. 2 , 8305654 , pp. 1476-1487 . https://doi.org/10.1109/TIE.2018.2811403
Article (Journal)
Electronic Resource
English
energy credit , /dk/atira/pure/sustainabledevelopmentgoals/affordable_and_clean_energy , direct load control (DLC) , Demand response (DR) , Ventilation , Power systems , Refrigerators , ventilation and air conditioning (HVAC) , SDG 7 - Affordable and Clean Energy , and air conditioning (HVAC) , smart household , thermostatically controllable loads (TCLs) , Planning , heating , Load management , Load modeling , Load flow control
DDC:
690
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