Bi-level Coordinated Planning of Active Distribution Network Considering Demand Response Resources and Severely Restricted Scenarios

Huang, Yixin; Lin, Zhenzhi; Liu, Xinyi; Yang, Li; Dan, Yangqing; Zhu, Yanwei; Ding, Yi; Wang, Qin

doi:10.35833/mpce.2020.000335

Cited by 32 publications

(13 citation statements)

References 48 publications

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“…The authors of [13] formulated bi-level programming as a feasible solution methodology for the generation and distribution expansion planning problem, considering expansion planning in the upper level and decisions connected with the flexibility of the demand in the lower level. Similarly, in [14], the demand response resource is co-optimized with the configuration of lines and energy storage devices to achieve the economic trade-off between the investment cost and the operational cost. With feedback from planning problems, operational problems are resolved at a lower level to decrease daily operational costs.…”

Section: Lec Operatormentioning

confidence: 99%

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Economic Assessment of Integrating Fast-Charging Stations and Energy Communities in Grid Planning

Rana¹,

Sperstad²,

Torsæter³

et al. 2022

Preprint

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<p>Distribution grid companies and distribution system operators (DSOs) still mostly follow a traditional framework for grid planning. Such frameworks have so far served DSOs well in the economic assessment and cost-benefit analysis of passive measures, such as grid reinforcement. However, the development towards active distribution grids requires DSOs to also be able to assess an extended set of active measures. To this aim, this paper extends and implements a general planning framework for active distribution grids that builds upon the well-proven traditional framework. The methodology integrated in the framework includes: 1) decoupled models for i) operation with active measures and ii) optimal grid investment, and 2) methods for economic assessment considering active measures from both i) a DSO cost-benefit analysis perspective and ii) a willingness-to-pay perspective. In this paper, operational models are integrated for two examples of active measures, namely the use of fast-charging stations (FCS) and local energy communities (LEC). The methodology is demonstrated in a long-term grid planning case study for a realistic Norwegian medium voltage distribution system. For this case, grid planning with FCS as an active measure reduces the present value of grid investment costs by 70% compared with a passive grid planning strategy. The results also demonstrate how the methodology can be used in negotiating the price of active measures between the DSO and distribution system actors such as LEC and FCS operators.</p>

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Section: Lec Operatormentioning

confidence: 99%

“…With feedback from planning problems, operational problems are resolved at a lower level to decrease daily operational costs. The methodologies described in [13] and [14] are bi-level detailed operational and investment models, where the upper level problem is constrained by the lower level.…”

Section: Lec Operatormentioning

confidence: 99%

Economic Assessment of Integrating Fast-Charging Stations and Energy Communities in Grid Planning

Rana¹,

Sperstad²,

Torsæter³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…The planning target values of the above three indexes vary with the different power supply zones. Generally, the power supply enterprises formulate corresponding planning objectives according to the five types of power supply zones [15], which can be selected according to the actual situation in specific application.…”

Section: Comprehensive Evaluation Index Of Distribution Network Plann...mentioning

confidence: 99%

Research on optimization strategy of urban medium voltage direct current distribution network construction considering application scenarios

Ouyang

Wang

et al. 2022

IET Generation Trans & Dist

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In the distribution network planning work, taking into account the constraints of funds and construction annual plan, there is always the prioritization problem of multiple MVDC distribution networks. Aiming at the problem, this paper proposes a method for the optimization analysis of MVDC distribution network planning objects. Firstly, a comprehensive evaluation index system of urban MVDC distribution network planning and optimization is established from three aspects of improving power supply reliability and the quality of voltage, MVDC distribution network scenario types and distribution network social benefits. Then, the qualitative indexes are quantified based on the cloud model, and the comprehensive evaluation values of each distribution network are calculated and sorted by the hierarchical additive weighting of Delphi entropy weight method. Taking the maximum comprehensive evaluation value of the scheme as objective function and the annual total investment as constraint, the construction priority of multiple MVDC distribution networks is determined. Finally, taking several distribution networks in Guangzhou, Guangdong Province, China as examples, the simulation results show that the optimal objects of distribution network based on the urban scenario demands are X 4 , X 8 and X 1 , with the lowest total investment cost of 19,180 yuan, thus verifying the effectiveness of the proposed method.

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“…By signing the demand response contract, the incentive DR can impel users to interrupt part of electricity load during peak load periods to achieve the discharge effect of virtual energy storage. The cost of incentive demand response includes contracted capacity fee and electricity fee (Huang et al, 2021). When signing the demand response contract, the integrated energy system pays the user the contracted capacity fee for the demand-side response, which can be expressed by…”

Section: Incentive Demand Responsementioning

confidence: 99%

Multi-Scenario Physical Energy Storage Planning of Integrated Energy Systems Considering Dynamic Characteristics of Heating Network and Demand Response

et al. 2021

Self Cite

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The configuration of energy storage in the integrated energy system (IES) can effectively improve the consumption rate of renewable energy and the flexibility of system operation. Due to the high cost and long cycle of the physical energy storage construction, the configuration of energy storage is limited. The dynamic characteristics of the heating network and the demand-side response (DR) can realize the space-time transfer of energy. Although there is no actual energy storage equipment construction, it plays a similar role to physical energy storage and can be considered as virtual energy storage in IES planning. In this paper, a multi-scenario physical energy storage planning model of IES considering the dynamic characteristics of the heating network and DR is proposed. To make full use of the energy storage potential of the proposed model, the virtual energy storage features of the dynamic heating characteristics of the heating network and DR are analyzed at first. Next, aiming at the uncertainty of wind turbine (WT) and photovoltaic (PV) output, the scenario analysis method is used to describe the wind and photovoltaic power output with different probabilities. Finally, an electrothermal IES with an IEEE 33-node network and a 26-node heating network serves as an example to verify the effectiveness of the proposed model. The case study shows that the proposed model effectively reduces the physical energy storage configuration and achieves the economic trade-off between the investment cost and the operation cost.

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Bi-level Coordinated Planning of Active Distribution Network Considering Demand Response Resources and Severely Restricted Scenarios

Cited by 32 publications

References 48 publications

Economic Assessment of Integrating Fast-Charging Stations and Energy Communities in Grid Planning

Economic Assessment of Integrating Fast-Charging Stations and Energy Communities in Grid Planning

Research on optimization strategy of urban medium voltage direct current distribution network construction considering application scenarios

Multi-Scenario Physical Energy Storage Planning of Integrated Energy Systems Considering Dynamic Characteristics of Heating Network and Demand Response

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