TY - JOUR
T1 - Enhancing operation flexibility of distributed energy systems : a flexible multi-objective optimization planning method considering long-term and temporary objectives
AU - Li, Xiaoyuan
AU - Tian, Zhe
AU - Niu, Jide
AU - Yuan, Xiaolei
AU - Kosonen, Risto
AU - Niemi, Rami
AU - Yang, Bin
N1 - Conference code: 18
PY - 2023
Y1 - 2023
N2 - Flexibility is a crucial capability that distributed energy systems (DES) need to possess. Flexible DES can attain the objectives of daily economic operation for users, temporary demand response for the power grid, and low-carbon operation for environmental benefits. Among these objectives, economy and low-carbon objectives are long-term objectives that need to be met routinely, while grid-friendly interactions only occur temporarily but need to be met as a priority. Current multi-objective optimization planning models disregard the inherent differences in temporal property of these objectives, which may weaken the system’s flexibility. Here, a novel multi-objective optimization model is proposed to enhance the flexibility of DES. First, a new flexibility index is formulated, in which diverse objectives are evaluated synergistically across different scenarios. Second, a flexible mixed-integer multi-objective programming model is developed, which returns the most flexible system design and its operation strategies for each objective. The application in a real case in Tianjin, China revealed that, compared with the conventional multi-objective planning method, the proposed method could improve the system flexibility by 6%-10%. The universality of the proposed method was further verified by traversal analysis.
AB - Flexibility is a crucial capability that distributed energy systems (DES) need to possess. Flexible DES can attain the objectives of daily economic operation for users, temporary demand response for the power grid, and low-carbon operation for environmental benefits. Among these objectives, economy and low-carbon objectives are long-term objectives that need to be met routinely, while grid-friendly interactions only occur temporarily but need to be met as a priority. Current multi-objective optimization planning models disregard the inherent differences in temporal property of these objectives, which may weaken the system’s flexibility. Here, a novel multi-objective optimization model is proposed to enhance the flexibility of DES. First, a new flexibility index is formulated, in which diverse objectives are evaluated synergistically across different scenarios. Second, a flexible mixed-integer multi-objective programming model is developed, which returns the most flexible system design and its operation strategies for each objective. The application in a real case in Tianjin, China revealed that, compared with the conventional multi-objective planning method, the proposed method could improve the system flexibility by 6%-10%. The universality of the proposed method was further verified by traversal analysis.
UR - http://www.scopus.com/inward/record.url?scp=85179522855&partnerID=8YFLogxK
UR - https://publications.ibpsa.org/building-simulation-conference-proceedings/
U2 - 10.26868/25222708.2023.1598
DO - 10.26868/25222708.2023.1598
M3 - Conference article
AN - SCOPUS:85179522855
SN - 2522-2708
VL - 18
SP - 3099
EP - 3106
JO - Building Simulation Conference Proceedings
JF - Building Simulation Conference Proceedings
T2 - IBPSA Building Simulation Conference
Y2 - 4 September 2023 through 6 September 2023
ER -