Prospective on computer applications in power

IEEE Computer Applications in Power Pub Date : 2002-12-10 DOI:10.1109/MCAP.2002.1046108

F. Denny

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引用次数: 6

Abstract

he so-called " deregulation " and restructuring of the industry have made it very difficult to keep up with industry changes and have made it much more difficult to envision the future. In this article, current key issues and major developments of the past few years are reviewed to provide perspective, and prospects for future computer applications in power are suggested. Technology changes are occurring at an exponential rate. The interconnected bulk electric systems are becoming integrated with vast networked information systems. This article discusses the skills that will be needed by future power engineers to keep pace with these developments and trends. The computer applications used in the electric power industry have undergone profound changes since the first issue of IEEE Computer Applications in Power in January 1988. During that period of time, those of us who have had the privilege of working for electric utilities, electric utility organizations, and organizations providing services and products for the electric power industry have seen: I Development of new techniques for improving the increasingly vast quantities of real-time data being acquired I Availability of lower cost faster computers as well as great reductions in the cost of memory I Enormous increases in engineering productivity and increasing requirements for engineers to function in more complex roles I Shift in energy technology preferences concomitant with concerns about resource reserves, public safety, and environmental protection I Globalization of equipment markets and the recognition of the need for international standards I Advent and widespread acceptance of computer networking applications using the Web I Development of methods to accommodate real-time competitive power markets associated with industry deregulation/ restructuring. I Development of flexible ac transmission system (FACTS) technologies and new procedural methods for coping with transmission system congestion I Upgrades to relaying systems,

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计算机在电力中的应用展望

他所谓的“放松管制”和行业重组使其很难跟上行业变化，也使其更难以预见未来。本文综述了近年来计算机在电力领域的关键问题和主要发展，并对未来计算机在电力领域的应用进行了展望。技术变革正以指数级的速度发生。互联的大型电力系统正在与庞大的网络信息系统集成。本文讨论了未来电力工程师需要掌握的技能，以跟上这些发展和趋势。自1988年1月IEEE《电力中的计算机应用》创刊以来，电力工业中使用的计算机应用发生了深刻的变化。在这段时间里，我们这些有幸在电力公司、电力事业组织以及为电力行业提供服务和产品的组织工作的人看到:(1)新技术的发展，以改善不断增加的海量实时数据的获取;(2)低成本、更快的计算机的可用性，以及存储器成本的大幅降低;(3)工程生产率的大幅提高，对工程师发挥更复杂作用的要求也越来越高;(3)能源技术偏好的转变，伴随着对资源储备、公共安全的关注;和环境保护1 .设备市场全球化和认识到需要国际标准1 .使用万维网的计算机网络应用的出现和广泛接受1 .制定方法以适应与工业放松管制/重组有关的实时竞争性电力市场。柔性交流传输系统(FACTS)技术的发展和应对传输系统拥塞的新程序方法

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Computer Applications in Power

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