2021
DOI: 10.1109/access.2021.3094317
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Effect of the Digital Transformation of Power System on Renewable Energy Utilization in China

Abstract: Power system based on renewable energy is the development direction of power system of China. To further boost the development of China's power industry, the digital transformation of power industry is underway. This study examined the panorama of digital transformation of power industry of China. Through an analysis of digital transformation's effect on renewable energy utilization, three business applications that affect renewable energy utilization were identified: short-term prediction of renewable energy … Show more

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Cited by 36 publications
(7 citation statements)
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“…AI techniques have been employed for modeling, prediction, and forecasting of wind farming data, contributing to the reliable operation of renewable energy systems (Asif, 2020). Moreover, the digital transformation of power systems has been identified as a means to enhance data accuracy and strengthen the application of algorithms and computational models, thereby improving the utilization of renewable energy in various contexts, including China (Zhao et al, 2021). Furthermore, the development of end-state visions to implement digital monitoring in nuclear plants has highlighted the shift from labor-intensive preventative maintenance to cost-effective predictive maintenance, emphasizing the potential advantages of predictive maintenance 4.0, such as increased productivity and reduced downtime (Walker et al, 2022).…”
Section: Predictive Maintenance and Performance Optimizationmentioning
confidence: 99%
“…AI techniques have been employed for modeling, prediction, and forecasting of wind farming data, contributing to the reliable operation of renewable energy systems (Asif, 2020). Moreover, the digital transformation of power systems has been identified as a means to enhance data accuracy and strengthen the application of algorithms and computational models, thereby improving the utilization of renewable energy in various contexts, including China (Zhao et al, 2021). Furthermore, the development of end-state visions to implement digital monitoring in nuclear plants has highlighted the shift from labor-intensive preventative maintenance to cost-effective predictive maintenance, emphasizing the potential advantages of predictive maintenance 4.0, such as increased productivity and reduced downtime (Walker et al, 2022).…”
Section: Predictive Maintenance and Performance Optimizationmentioning
confidence: 99%
“…From a macro perspective, China's urban digital transformation can improve cities' resilience to COVID-19 by promoting social communication, collaborative governance, and resilience [11], and the development of the digital economy has improved the investment efficiency of green finance in China's provinces [12], promoted rapid economic growth, improved people's living standards, improved the effective use of resources, and enhanced environmental protection [13]. Digital transformation in China's power system can improve the utilization efficiency of renewable energy [14] and bring energy-saving effects to various cities in China through technological optimization and industrial upgrading [15].…”
Section: Economic Effects Of Enterprise Digital Transformationmentioning
confidence: 99%
“…Data measurement and equipment maintenance problems will be better solved by the digital transformation of power. Thus, improving the utilization rate of wind power energy in China [6].…”
Section: Historical Development Of Wind Power In Chinamentioning
confidence: 99%