Your search keyword '"Yu Iwatani"' showing total 2 results

1. The state of the art of the development of SMES for bridging instantaneous voltage dips in Japan

Author

Shigeo Nagaya, Toshio Katagiri, Naoki Hirano, Y. Ishii, Yu Iwatani, Fusao Saito, Tsutomu Tamada, and Koji Shikimachi

Subjects

Bridging (networking), business.industry, Computer science, Electrical engineering, General Physics and Astronomy, High voltage, Superconducting magnet, Superconducting magnetic energy storage, Computer Science::Computers and Society, Computer Science::Other, Condensed Matter::Superconductivity, General Materials Science, business, Superconducting Coils, Voltage

Abstract

Development of apparatuses for protecting industrial facilities such as semiconductor plants or information industries from instantaneous voltage dips, which requires very large output power, has been expected. A Superconducting magnetic energy storage system (SMES), one of such apparatus, consists of superconducting magnets that must withstand high voltage during operation and require high reliability. We have already development of SMES using conventional superconducting coils and done the field test of the SMES for bridging instantaneous voltage dips. After field test, the commercial SMES for instantaneous voltage dips is working there. Since field test has started, we have confirmed nearly 40 operations, and all have succeeded. In 2011, three commercial SMES units for bridging instantaneous voltage dips are operating in Japan.

Published

2012

2. Large Capacity SMES for Voltage Dip Compensation

Author

Fusao Saito, Yu Iwatani, Mamoru Shimada, Satoshi Ishida, Yoshio Shimanuki, and T. Ito

Subjects

Production line, Engineering, business.industry, Electrical engineering, Energy Engineering and Power Technology, Superconducting magnetic energy storage, Voltage optimisation, Compensation (engineering), Power (physics), Electric power, Electrical and Electronic Engineering, business, Uninterruptible power supply, Voltage

Abstract

Voltage dips of power grids due to thunderbolts, snow damage, and so on, cause serious damage to production lines of precision instruments, for example, semiconductors. In recent years, in order to solve this problem, uninterruptible power supply systems (UPS) are used. UPS, however, has small capacity, so a great number of UPS are needed in large factories. Therefore, we have manufactured the superconducting magnetic energy storage (SMES) system for voltage dip compensation able to protect loads with large capacity collectively. SMES has advantages such as space conservation, long lifetime and others. In field tests, cooperating with CHUBU Electric Power Co., Inc. we proved that SMES is valuable for compensating voltage dips. Since 2007, 10MVA SMES improved from field test machines has been running in a domestic liquid crystal display plant, and in 2008, it protected plant loads from a number of voltage dips. In this paper, we report the action principle and components of the improved SMES for voltage dip compensation, and examples of waveforms when 10MVA SMES compensated voltage dips.

Published

2009