The Evolution of AI Applications in the Energy System Transition: A Bibliometric Analysis of Research Development, the Current State and Future Challenges

Energies, Journal Year: 2025, Volume and Issue: 18(6), P. 1523 - 1523

Published: March 19, 2025

The transformation of energy markets is at a crossroads in the search for how they must evolve to become ecologically friendly systems and meet growing demand. Currently, methodologies based on bibliographic data analysis are supported by information communication technologies have necessary. More sophisticated processes being used systems, including new digitalization models, particularly driven artificial intelligence (AI) technology. In present review, 342 documents indexed Scopus been identified that promote synergies between AI transition (ET), considering time range from 1990 2024. methodology includes an evaluation keywords related areas ET. analyses extend review authorship, co-authorship, AI’s influence system subareas. integration resources, supply demand, which renewable sources play leading role end-customer level, now conceived as both producer consumer, intensively studied. results has experienced notable growth last five years will undoubtedly future achieving decarbonization goals. Among applications it enable be design up execution start-up power plants with control optimization. This study aims baseline allows researchers, legislators, government decision-makers compare their benefits, ambitions, strategies, novel formulating policies field. developments scope sector were explored relation domain parts chain. While these involve complex analysis, techniques provide powerful solutions designing managing high penetration. represents fundamental shift market design, enabling more efficient sustainable transitions. Future lines research could focus demand forecasting, dynamic adjustments distribution different generation sources, storage, usage

Language: Английский

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Power Quality Improvement with Three-Phase Shunt Active Power Filter Prototype Based on Harmonic Component Separation Method with Low-Pass Filter

Energies, Journal Year: 2025, Volume and Issue: 18(3), P. 556 - 556

Published: Jan. 24, 2025

This work contributes to both Romania’s and the European Union’s energy policies by highlighting research results obtained within Dunarea de Jos University of Galati, but also through technological transfer this knowledge industry. In order improve power quality nonlinear loads connected electrical grid, a three-phase shunt active filter prototype based on Harmonic Component Separation Method with Low-Pass Filter was used. The is at Point Common Coupling compensate for individual or even all them simultaneously. Therefore, filters can be used factor reduce harmonic distortion supplies, processes subsequently additional loads, thus improving efficiency. composed side (three-phase insulated gate bipolar transistor bridge, DC link capacitor precharge system, inductive filter) control (gate drive circuits, subsystems, signal acquisition system). strategy principle separating components low-pass filter, implemented authors industrial prototype. paper, main technical features are specified. paper involved three cascaded loops: voltage loop, current loop phase-locked loop. Both simulation experimental shunt-type were obtained. By analyzing waveforms supply source in two cases (with without an filter), decrease total demonstrated, THDu THDi case connection. using Field-Programmed Gate Array processing platform, powerful computational speed exploited implement test bench. Conducting harmonics mitigation increased efficiency system decreasing respective Joule losses. energy-saving feature led added value parallel filter. Through performed laboratory tests, demonstrated feasibility proposed solution accordance Research Technological Development Policy, development innovation ecosystem taken into consideration. unified efficient integration specific actors (enterprises, institutes, universities entrepreneurs) achieved.

Language: Английский

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Maximization of Solar Potential Use for Industrial Applications

Energy, Journal Year: 2025, Volume and Issue: unknown, P. 136074 - 136074

Published: April 1, 2025

Language: Английский

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Biomethane as a Fuel for Energy Transition in South America: Review, Challenges, Opportunities, and Perspectives

Energies, Journal Year: 2025, Volume and Issue: 18(11), P. 2967 - 2967

Published: June 4, 2025

This review examines the current status of biomethane development in South America through a comprehensive comparative analysis national legislation, scientific literature, and institutional data across all American countries. The methodology consisted systematic technical regulatory documents to assess production, commercialization, utilization throughout region. findings indicate that remains largely underdeveloped most countries, primarily due fragmented data, inadequate infrastructure, lack targeted public policies. Brazil emerges as regional leader, backed by robust legal frameworks such RenovaBio program, Future Fuel Law, specific regulations governing landfill waste treatment quality standards. In contrast, other countries hold considerable biogas potential but financial incentives required expand production. principal contribution this study is its assessment America, providing country-level alongside direct comparisons with global leaders both production policy. By mapping infrastructure conditions, energy strategies continent, offers strategic reference support future research, investment, policy development.

Language: Английский

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