Hi am Mohamed i would like to get details on hts transformer ppt ..My friend Justin said hts transformer ppt will be available here and now i am living at ......... and i last studied in the college/school ......... and now am doing ....i need help on ......etc
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With the improvement of high temperature superconductor (HTS) practical performance, research and development with regard to practical applications of HTS transformers have been progressed actively in the world. The current focus on the applied superconducting technology for HTS transformers has been moving to the industrial preparations from the laboratory research stage, and the technology has been well verified for practical applications from small to large scales. This paper provides a comprehensive and analytic summary on the development of HTS transformers with regard to various HTS power transformers, HTS traction transformers, fault current limiting transformers and the associated HTS transformer techniques.
HTS Transformer offer numerous benefits:
Greater efficiency – HTS transformers help reduce the amount of energy lost in the transmission of power over long distances to more than pay for initial capital cost of the device over its lifetime. This benefits the electricity consumer through lower costs from the reduction in losses due to the inefficiencies of conventional power transformers
Smaller, lighter and quieter – HTS transformers occupy a smaller footprint than conventional transformers, enabling existing substations to increase distribution capability without expanding into limited or expensive real estate
Ability to run above rated power without affecting transformer life - HTS-based transformers with operation at cryogenic temperatures completely avoid the thermal aging processes that ultimately destroy conventional transformers
Liquid nitrogen cooling – HTS transformers do not require cooling oil like conventional transformers, thereby eliminating the possibility of oil fires and related environmental hazards and enable placement in an enclosed building or even a multi-story building in densely populated areas
Flexibility in siting – smaller size and weight, and the capability to operate at over-capacity result in greater siting flexibility and potential lower transformer cost per unit power delivered, and more power per unit area in existing substations
Economic advantages for utilities - Lower installation and total owning cost for each transformer