Title :
Demand side energy management with PSO and regulated electric vehicles behaviours
Author :
Yimin Zhou ; Guoqing Xu
Author_Institution :
Shenzhen Inst. of Adv. Techno logy, Shenzhen, China
Abstract :
A real-time optimal appliance usage strategy based on binary particle swarm algorithm is presented in the paper with the participation of both energy suppliers and end-users. Under the multi end-users and time-of-use electricity prices incentive circumstances, the total electricity bills of end-users can be generated with different appliance usage patterns: random or optimized modes, resulting in different load curves. Moreover, the function of electric vehicles to the grid (V2G) is investigated and analyzed considering its characteristics as both energy consumption load and energy resource. Matlab simulation tool is used to perform the experiments to prove that the load shifting, energy saving and energy supply efficiency enhancement can be achieved with particle swarm optimization.
Keywords :
demand side management; electric vehicles; energy conservation; energy consumption; particle swarm optimisation; power system economics; Matlab simulation tool; PSO; binary particle swarm algorithm; demand side energy management; electric vehicles to grid; energy consumption; energy resource; energy saving; energy suppliers; energy supply efficiency enhancement; load shifting; real-time optimal appliance usage strategy; regulated electric vehicles behaviours; Batteries; Electric vehicles; Electricity; Energy management; Home appliances; Particle swarm optimization; System-on-chip; Electric vehicles; Home energy management; Particle swarm optimization; Residential appliances;
Conference_Titel :
Power and Energy Engineering Conference (APPEEC), 2014 IEEE PES Asia-Pacific
DOI :
10.1109/APPEEC.2014.7066103
