Recent and future situation of Japan’s T&amp;D system

Uehara, K.; Ikeda, Hisatoshi

doi:10.1080/22348972.2015.1129086

Cited by 3 publications

(2 citation statements)

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“…Tohoku Power Electric, a Japanese power utility, installed 40 MW/20 MWh BESS at Sendai-Nishi substation in 2015 as a part of a demonstration project funded by the Ministry of Economy, Trade, and Industry [180]. The project aims to be an actual demonstration of a frequency regulation control [181] where the BESS compensates short-term fluctuations, and thermal power plants compensate for mid-term and longterm fluctuations. In Oki Islands in Japan, where electricity is mainly produced by renewables and hydropower plants, supply/demand flexibility has been improved using a BESS consisting of Li-ion (2 MW/ 0.7 MWh) and sodium-sulfur batteries (4.2 MW/ 25.2 MWh) [182].…”

Section: Global Battery Energy Storage Projectsmentioning

confidence: 99%

A Review of Modeling, Management, and Applications of Grid-Connected Li-Ion Battery Storage Systems

Rouholamini

Wang

Nehrir

et al. 2022

IEEE Trans. Smart Grid

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Section: Global Battery Energy Storage Projectsmentioning

confidence: 99%

A Review of Modeling, Management, and Applications of Grid-Connected Li-Ion Battery Storage Systems

Rouholamini

Wang

Nehrir

et al. 2022

IEEE Trans. Smart Grid

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“…Some ideas and converter designs with interesting fault-blocking capabilities are already emerging in literature [78,196]. More importantly, International institutes such as IEEE and CIGRE are establishing the process of developing the required standards [197,198]. Although these are non-binding standards, they serve as an incentive to Transmission System Operators (TSOs) and regulatory bodies to take similar steps.…”

Section: Network Technical Standardizationmentioning

confidence: 99%

HVDC Transmission: Technology Review, Market Trends and Future Outlook

Alassi

Bañales

Ellabban

et al. 2019

Renewable and Sustainable Energy Reviews

279

104

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HVDC systems are playing an increasingly significant role in energy transmission due to their technical and economic superiority over HVAC systems for long distance transmission. HVDC is preferable beyond 300-800 km for overhead point-to-point transmission projects and for the cable based interconnection or the grid integration of remote offshore wind farms beyond 50-100 km. Several HVDC review papers exist in literature but often focus on specific geographic locations or system components. In contrast, this paper presents a detailed, up-to-date, analysis and assessment of HVDC transmission systems on a global scale, targeting expert and general audience alike. The paper covers the following aspects: technical and economic comparison of HVAC and HVDC systems; investigation of international HVDC market size, conditions, geographic sparsity of the technology adoption, as well as the main suppliers landscape; and high-level comparisons and analysis of HVDC system components such as Voltage Source Converters (VSCs) and Line Commutated Converters (LCCs), etc. The presented analysis are supported by practical case studies from existing projects in an effort to reveal the complex technical and economic considerations, factors and rationale involved in the evaluation and selection of transmission system technology for a given project. The contemporary operational challenges such as the ownership of Multi-Terminal DC (MTDC) networks are also discussed. Subsequently, the required development factors, both technically and regulatory, for proper MTDC networks operation are highlighted, including a future outlook of different HVDC system components. Collectively, the role of HVDC transmission in achieving national renewable energy targets in light of the Paris agreement commitments is highlighted with relevant examples of potential HVDC corridors.

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