Project and system firm capacity definitions with long term hydro scheduling

2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT) Pub Date : 2017-04-01 DOI:10.1109/ISGT.2017.8086088

E. Hreinsson

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引用次数: 1

Abstract

In a hydro-dominated power system, with complex inter-temporal linkages, capacities of individual projects and project configurations are more complicated than using the simple megawattage, often used to denote capacity in thermally dominated systems. In this paper, the long term hydro scheduling problem is solved and used to test novel definitions of hydro-capacities, based on expected cost and cost probability distributions for system operating cost, based on rising load and a within-the-year time distribution of load. The paper expands on previous capacity definitions and tests them numerically in a case study with realistic data from a hydro-dominated system. The principal contribution of this paper are new capacity concepts and practical applications for an example of sizing a given reservoir. The testing is performed using actual data from the Icelandic hydro-dominated power system, with the model HYDOVG delivering optimal schedules for various inflow instances and load cases and using linear programming (LP) CPLEX software to optimize each case and instant.

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项目和系统确定长期水电调度的容量定义

在水力主导的电力系统中，具有复杂的跨时间联系，单个项目的容量和项目配置比使用简单的兆瓦数更为复杂，兆瓦数通常用于表示热主导系统的容量。本文解决了长期水力调度问题，并将其用于测试基于系统运行成本的预期成本和成本概率分布、基于负荷上升和负荷年内时间分布的水力容量的新定义。本文对以前的容量定义进行了扩展，并在一个水力控制系统的实际数据的案例研究中对它们进行了数值测试。本文的主要贡献是新的容量概念和实际应用的一个例子的规模给定的油藏。测试使用了冰岛水力发电系统的实际数据，HYDOVG模型为各种流入实例和负载情况提供了最佳调度，并使用线性规划(LP) CPLEX软件对每种情况进行优化。

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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2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

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