Superconducting storage systems: An overview

The last couple of years have seen an expansion on both applications and market development strategies for SMES (superconducting magnetic energy storage). Although originally envisioned as a large-scale load-leveling device, today's utility industry realities point to other applications of SMES. These applications: transmission line stabilization, spinning reserve, and voltage control, are likely to open the door to SMES commercialization in the utility sector. In the industrial sector, power quality concerns are already driving the development of a market for micro-SMES devices, and load-leveling at an industrial scale is fast becoming a potential application, Work recently completed as part of the U.S. SMES program, as well as ongoing design activities, point to self- (or cold-) supported SMES as the design option in the near-future. This Is a major departure from the earth-supported SMES systems first envisioned 25 years ago for utility load-leveling, The path to commercialize SMES is not likely to include a large 'demonstration' unit, or model, but rather follow an evolutionary process in which bigger and better units will be fielded in response to specific applications. This paper reviews the developments In the U.S. SMES program that have taken us to where we are today, briefly reviews SMES-related activities around the world, and points out trends in applications and development of SMES.