Jiale Wu scite author profile

Jiale Wu

4Publications

1Citation Statement Received

27Citation Statements Given

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Sichuan University

Publications

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Kinetic modeling the survival of Escherichia coli in pickled radish fermentation with different salt concentrations

et al. 2022

J Food Process Engineering

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The survival of Escherichia coli in pickled radish fermentation with salt concentrations from 2% to 10% was studied kinetically. The results showed that mostly E. coli first underwent 1–2 days of growth, followed by a decline and finally died off after 4–5 days of fermentation. A kinetic model was developed to reveal how the growth and survival of E. coli were affected by acid content, pH value and salt concentration during the pickle fermentation. Model‐based simulations suggested that moderate salt concentration (4%–9%) resulted in shorter survival period of E. coli. Sensitivity analysis showed that the lowest pH value for E. coli growth played the most important role in determining the peak amount and the survival period of E. coli. This study provides a reference for risk assessment and safe production of pickles and other similar fermented vegetables. Practical Applications This study provides an appropriate salt concentration range for safer production of pickles. The model developed can be a reference for the kinetic analyses and risk assessments of pickle making and other similar fermentation processes.

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Reliability Optimization Method for Gas–Electric Integrated Energy Systems Considering Cyber–Physical Interactions

et al. 2023

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With the development in the field of energy and the growing demand for sustainable energy, gas–electric integrated energy systems are attracting attention as an emerging energy supply method. At the same time, with the deep application of information technology, the cyber–physical interactions of gas–electric integrated energy systems are increasingly enhanced. To this end, first, the reliability assessment indices of a gas–electric integrated energy system, which comprehensively considers the interactions between cyber–physical and different energy sources, are established in this paper to quantitatively assess the reliability level of the system under different fault and failure conditions. Second, to solve the reliability optimization problem, a comprehensive reliability enhancement optimization model is constructed in this paper, which targets the sum of the total penalties of the failure rate and average repair time modification. The impact of the cyber systems on the gas–electric integrated energy systems is transformed into a modification of the failure rate and the average repair time, and the model is solved by an adaptive Gaussian particle swarm optimization algorithm. Finally, the applicability and superiority of the adaptive Gaussian particle swarm optimization algorithm to the reliability optimization of the gas–electricity integrated energy system are verified by conducting simulation tests on the gas–electricity integrated energy system coupled with an 8-node distribution system and the 11-node natural gas system in Belgium. Furthermore, the effects of cyber systems and cyber-attacks on system reliability optimization are also analyzed to verify the effectiveness of the proposed method and the rationality of the newly defined reliability indices.

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Reliability Assessment of Cyber–Physical Distribution Systems Considering Cyber Disturbances

et al. 2023

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With the development of communication technology, traditional distribution networks have gradually developed into cyber–physical systems (CPSs), from which the cyber system provides more protection for the grid and brings new security threat–cyber disturbances. Current research cannot scientifically measure the impact of cyber disturbances on the system and lacks reliability indices for a comprehensive quantitative assessment of CPS reliability from the perspective of cyber–physical fusion. If the impact of information disturbances on system reliability is not assessed accurately, it will not be possible to provide a scientific and reasonable decision basis for system planning and operation. Therefore, a set of reliability assessment methods and indices for distribution network CPSs considering cyber disturbances is proposed. Firstly, a reliability modeling method combining fault tree and Petri net is proposed to model the reliability of a distribution network CPS, which can improve the efficiency and accuracy of the modeling. Secondly, the system state is divided into two categories: normal operation state and cyberattack state. Then, generalized reliability indices considering cyber disturbances for distribution network CPSs are defined. Finally, through the tests on the modified IEEE RBTS BUS2 distribution network CPS, an analysis of the effects of information component failures, cyberattacks, and access network structures on system reliability is conducted in this paper to verify the efficiency of the proposed method and the rationality of the newly defined reliability indices.

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Emergency Dispatch Approach for Power Systems with Hybrid Energy Considering Thermal Power Unit Ramping

Zhou

Zang

et al. 2023

Energies

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Future power systems will face more extreme operating condition scenarios, and system emergency dispatch will face more severe challenges. The use of distributed control is a well-designed way to handle this. It enables multi-energy complementation by means of autonomous communication, which greatly improves the flexibility of the grid. First, in the context of global energy conservation and emission reduction, this paper adopts the energy usage method of “renewable energy is the main source of energy, supplemented by thermal power and energy storage” to reduce the system abandoned wind (light) rate while supplementing the energy storage capacity. Second, a consensus algorithm is added to the system while considering the coordination between thermal units and energy storage. An “interface” for autonomous communication between thermal units and energy storage is created using the incremental cost of each agent. To address the recurring issue of power imbalance during emergency dispatch of the system, the consensus algorithm is enhanced so that the communication interval varies with the unit rate. This is based on the climbing characteristics of each thermal power unit. Finally, the effectiveness of the proposed method is verified in an IEEE-30 bus system.

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Jiale Wu

Kinetic modeling the survival of Escherichia coli in pickled radish fermentation with different salt concentrations

Reliability Optimization Method for Gas–Electric Integrated Energy Systems Considering Cyber–Physical Interactions

Reliability Assessment of Cyber–Physical Distribution Systems Considering Cyber Disturbances

Emergency Dispatch Approach for Power Systems with Hybrid Energy Considering Thermal Power Unit Ramping

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