superconducting technology 中文意思是什麼

superconducting technology 解釋
超導技術
  1. Since high tc superconducting ( hts ) tapes for practical applications became commercially available over the past few years, the development of superconducting power technology has achieved significant progress. it is foreseen that superconducting technology will be the prevailing high technology of the 21st century, and that superconducting power equipment will be commercialized soon, enjoying a large - scale worldwide market before 2010. china ' s economy is expanding fast, and the demand for electricity is increasing quickly. at the same time, higher electricity quality will be required. traditional power technology will no longer be able to satisfy future requirements, so superconducting power technology would be the best solution, leading a revolution in the power industry. the history, present status and prospects of superconducting power technology as well as the economic benefits and basic physics problems involved are reviewed

    人們認為,超導體在電力方面出現大規模應用的時間距離我們還非常遙遠.然而,隨著最近幾年來實用高溫超導材料的研製取得重大的進展,高溫超導電力技術的應用已經成為現實,預期將在2010年左右出現大規模的應用,並將帶來電力工業的革命.因此,下一個10年將是國際超導技術競爭最關鍵的10年.我國的經濟發展很快,電能需求量增加十分迅速,對電能質量的要求也越來越高.常規電力技術已經無法滿足我國電力發展的需要,超導電力技術是實現我國電力發展目標的必由之路.文章有代表性地介紹了超導電纜、超導限流器、超導磁儲能系統、超導變壓器和超導旋轉電機等的基本工作原理及研究發展歷史,並著重介紹高溫超導電力應用研究的現狀、應用前景、經濟可行性及基本物理問題
  2. Iee is activating the formation and development of industry of applied magnetic technology, the industrialization of applied superconducting technology and the rising of substitute energy resources and related industry

    電工研究所正在推進磁技術應用產業的形成和發展、應用超導技術的產業化和替代能源技術及產業的成長。
  3. In recent years, iee initiated many leading basic researches in advanced energy & electricity technologies, modern electrical drive technologies, applied superconducting technologies, biomedical engineering and micro - nano fabrication technology, developed several high - strategic technologies which can drive the related industrial technologies to upgrade, and formed some high - tech industries involving advanced medical equipment, advanced electrical drives, special electromechanical equipment and green energy resources devices

    近年來,電工研究所在先進能源電力技術、現代電氣驅動技術、應用超導技術、生物醫學工程和微納電加工技術等領域開展了大量前沿基礎性研究,發展了多項促進相關產業技術進步的戰略性高技術,並以多種形式初步形成了高檔醫療設備、先進電氣驅動、特種機電裝備和綠色能源裝置等高新技術產業。
  4. Then the basic principle, basic structure and key technology of array oscillator are given, from which the models of superconducting array oscillator are derived, which includes the model of two - dimension array and the one one - dimension array. finally, the models of superconducting array oscillator are simulated and analyzed, and the parameter values are obtained from simulation. a new method and a new technique are applied to the subject to simulate and achieve

    然後,闡述了約瑟夫森效應、約瑟夫森結陣列振蕩器的基本原理、基本結構和關鍵技術,根據原理引出超導約瑟夫森結陣列振蕩器的模型,最後,根據約瑟夫森原理,對超導約瑟夫森結陣列振蕩器的模型進行了模擬和分析,模擬得出了振蕩器的各項參數值。
  5. Rsfq ( rapid - single - flux - quantum ) logic family is a new type of technology in superconducting digital circuits, in which the information is carried in the presence or absence of sfq voltage pulses generated by damped josephson junctions

    超導快單磁通量子rsfq ( rapidsinglefluxquantum )電路是一種新型超導數字電子技術,它通過磁通量子化了的電壓脈沖的有、無,來表示二進制信息。
  6. The large - scale superconducting magnets are presently widely used in modern high - energy particle accelerators and nuclear fusion experimental device, which generally operate at liquid helium temperature region. cryogenic technology is developing with the requirement of operation for superconducting magnets

    而超導磁體大都運行在約4 . 5k ( - 269 )的液氦溫區,這又促進了低溫技術的發展。
  7. Especially, in the filed of high tc superconductor, the technology that the cryocooler directly cool the superconducting system has changed the traditional cooling manner, which adopts the method of low tc fluid helium ' s convection and boiling to exchange the heat. it mainly depends on the cooling manner of conducting heat through the interfacial layer between the material of superconductor and non - superconductor ( such as cu, isolator, etc )

    特別是在高溫超導領域中,由於製冷機直接冷卻技術改變了傳統的靠低溫液氦對流、沸騰換熱的冷卻方式,主要依靠超導材料與非超導材料(如銅、電絕緣材料等)固體間的接觸導熱冷卻方式,固體間界面熱阻成為影響導熱性能的關鍵因素之一。
  8. With the advancing technology in superconducting magnet, strong magnetic field has found more and more applications in scientific researches and industrial manufacturing

    摘要近年來,隨著超導磁體技術的進步,圍繞與強磁場條件相關的應用得到迅速發展。
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