Electricity‐heat‐gas integrated demand response dependency assessment based on BOXCOX‐Pair Copula model

Tian, Shuxin; Huang, Wen-Tao; Yan, Tingyu; Yang, Xijun; Fu, Yang

doi:10.1049/esi2.12053

Cited by 5 publications

(2 citation statements)

References 25 publications

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“…Nowadays, many governments are trying to promote and build the integrated multienergy system (IMS) experimental projects, which can realise the comprehensive utilisation of renewable energy sources (RES) and clean energy. IMSs can be divided into crossregional systems and regional systems [1][2][3]. Similar to power systems, these systems structures can be centralised or distributed.…”

Section: Introductionmentioning

confidence: 99%

An online dispatch approach for distributed integrated multi‐energy system considering non‐ideal communication conditions

Wang

et al. 2022

IET Energy Syst Integration

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The distributed integrated multi-energy system (DIMS) has many advantages in terms of the utilisation of renewable energy sources and clean energy. Operation strategies for the DIMS based on a real-time profile have been extensively studied. In a DIMS online optimisation problem, besides fluctuations in the renewable energy output and load, inconsistent time scales of the transport dynamics of different energy flows and non-ideal communication (involving communication uncertainty and latency) result in suboptimal operation in dispatch scheduling. An online multi-time-scale optimal operation strategy is proposed for the DIMS to respond to the above challenges, using a hybrid algorithm comprising a model predictive control method and distributed collaborative consensus algorithm (CCA). The approach is based on a hierarchy, comprising rolling optimisation and adjustment. A rolling optimisation is established to schedule operations according to the latest forecast and status information. The rolling dispatch is then adjusted according to the ultrashort-term adjustment using the CCA. Meanwhile, the effect of the information transmission environment on real-time scheduling is considered, and the robust CCA is improved for the implementation of strategies under non-ideal communication conditions. Case studies and results are presented and discussed to show the effectiveness of the proposed approach with the better matching between demand and supply. K E Y W O R D S distributed integrated multi-energy system, model predictive control, multi-time-scale, non-ideal communication, robust collaborative consensus algorithm This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Introductionmentioning

confidence: 99%

An online dispatch approach for distributed integrated multi‐energy system considering non‐ideal communication conditions

Wang

et al. 2022

IET Energy Syst Integration

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“…Reference [23] evaluated peak electricity demand using Gaussian mixture models and copula functions and provided a time-correlated statistical model. For additional references on the application of copula functions, see [24][25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

Probabilistic Peak Demand Estimation Using Members of the Clayton Generalized Gamma Copula Family

2022

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Climate change impacts many aspects of life and requires innovative thinking on various issues. The electricity sector is affected in several ways, including changes in the production components and consumption patterns. One of the most important issues for Independent System Operators, a state-controlled organization responsible for ensuring the reliability, availability, and quality of electricity delivery in the country, is the response to climate change. This is reflected in the appropriate design of production units to cope with the increase in demand due to extreme heat and cold events and the development of models aimed at predicting the probability of such events. In our work, we address this challenge by proposing a novel probability model for peak demand as a function of wet temperature (henceforth simply temperature), which is a weighting of temperature and humidity. We study the relationship between peak demand and temperature using a new Archimedean copula family, shown to be effective for this purpose. This family, the Clayton generalized Gamma, is a multi-parameter copula function that comprises several members. Two new measures of fit, an economic measure and a conditional coverage measure, were introduced to select the most appropriate family member based on the empirical data of daily peak demand and minimum temperature in the winter. The Clayton Gamma copula showed the lowest cost measure and the best conditional coverage and was, therefore, proven to be the most appropriate member of the family.

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Hybrid data-driven operation method for demand response of community integrated energy systems utilizing virtual and physical energy storage

Bu,

Yu,

et al. 2024

Applied Energy

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Electricity‐heat‐gas integrated demand response dependency assessment based on BOXCOX‐Pair Copula model

Cited by 5 publications

References 25 publications

An online dispatch approach for distributed integrated multi‐energy system considering non‐ideal communication conditions

An online dispatch approach for distributed integrated multi‐energy system considering non‐ideal communication conditions

Probabilistic Peak Demand Estimation Using Members of the Clayton Generalized Gamma Copula Family

Hybrid data-driven operation method for demand response of community integrated energy systems utilizing virtual and physical energy storage

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