Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm
The emerging and booming of electric vehicles (EVs) and energy storages (ESs) endow power systems extra flexibility thanks to their ES capability. The charging and discharging activities of these facilities can be dispersed to perform demand response and benefit power grid operations. However, synch...
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sg-ntu-dr.10356-1465832021-03-02T03:44:37Z Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm Mao, Tian Zhou, Baorong Zhang, Xin School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Charging Demand Response The emerging and booming of electric vehicles (EVs) and energy storages (ESs) endow power systems extra flexibility thanks to their ES capability. The charging and discharging activities of these facilities can be dispersed to perform demand response and benefit power grid operations. However, synchronous discharging from massive EVs and ESs may impose a huge power supply impact to potentially reshape the existing power markets. Unfortunately, this impact is always ignored by traditional research. To address the above-mentioned issues, discharging power from EVs and ESs is regarded as a kind of commodity in this paper. On such a basis, a pricing policy, where prices for discharging power poured into the power market and the user-side loads are regulated, is applied. The regulation strategy simultaneously incorporates the considerations of the system load condition, maximum power limit, aggregated discharging power from both the EVs and the ESs, as well as the user-side load in a fair manner. Besides, the battery degradation of EVs and EVs has also been considered. Furthermore, the price regulation obeys a hierarchical optimization procedure in which the operator acts as the leader to maximize its revenue, while the end appliances act as followers individually balancing their cost bill and comfort level. Also, the pricing policy is tested on a two-stage hierarchical market with a Genetic Algorithm-based hybrid algorithm. The outcome demonstrates that a prominent performance can be achieved in load shaping and economic benefit via the policy. Published version 2021-03-02T03:44:37Z 2021-03-02T03:44:37Z 2019 Journal Article Mao, T., Zhou, B., & Zhang, X. (2019). Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm. IEEE Access, 7, 134804-134814. doi:10.1109/access.2019.2893773 2169-3536 0000-0001-9313-4427 0000-0001-5647-2777 https://hdl.handle.net/10356/146583 10.1109/ACCESS.2019.2893773 2-s2.0-85077968364 7 134804 134814 en IEEE Access © 2019 IEEE. This journal is 100% open access, which means that all content is freely available without charge to users or their institutions. Articles accepted before 12 June 2019 were published under a CC BY 3.0 or the IEEE Open Access Publishing Agreement license. Questions about copyright policies or reuse rights may be directed to the IEEE Intellectual Property Rights Office at +1-732-562-3966 or copyrights@ieee.org. application/pdf |
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Engineering::Electrical and electronic engineering Charging Demand Response Mao, Tian Zhou, Baorong Zhang, Xin Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| description |
The emerging and booming of electric vehicles (EVs) and energy storages (ESs) endow power systems extra flexibility thanks to their ES capability. The charging and discharging activities of these facilities can be dispersed to perform demand response and benefit power grid operations. However, synchronous discharging from massive EVs and ESs may impose a huge power supply impact to potentially reshape the existing power markets. Unfortunately, this impact is always ignored by traditional research. To address the above-mentioned issues, discharging power from EVs and ESs is regarded as a kind of commodity in this paper. On such a basis, a pricing policy, where prices for discharging power poured into the power market and the user-side loads are regulated, is applied. The regulation strategy simultaneously incorporates the considerations of the system load condition, maximum power limit, aggregated discharging power from both the EVs and the ESs, as well as the user-side load in a fair manner. Besides, the battery degradation of EVs and EVs has also been considered. Furthermore, the price regulation obeys a hierarchical optimization procedure in which the operator acts as the leader to maximize its revenue, while the end appliances act as followers individually balancing their cost bill and comfort level. Also, the pricing policy is tested on a two-stage hierarchical market with a Genetic Algorithm-based hybrid algorithm. The outcome demonstrates that a prominent performance can be achieved in load shaping and economic benefit via the policy. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Mao, Tian Zhou, Baorong Zhang, Xin |
| format |
Article |
| author |
Mao, Tian Zhou, Baorong Zhang, Xin |
| author_sort |
Mao, Tian |
| title |
Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| title_short |
Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| title_full |
Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| title_fullStr |
Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| title_full_unstemmed |
Accommodating discharging power with consideration of both EVs and ESs as commodity based on a two-level genetic algorithm |
| title_sort |
accommodating discharging power with consideration of both evs and ess as commodity based on a two-level genetic algorithm |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146583 |
| _version_ |
1695706197579005952 |