提高可变可再生能源整合的Pelton涡轮机替代控制方案

IF 4.3 3区工程技术 Q2 ENERGY & FUELS

International Journal of Energy Research Pub Date : 2025-09-25 DOI:10.1155/er/2931509

José Ignacio Sarasua Moreno, Ana Fernández-Guillamón, David Carracedo Esteban, Guillermo Martínez-Lucas

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引用次数: 0

摘要

针对可变可再生能源（vRESs）渗透率高的孤立电力系统，提出了一种新颖的Pelton水轮机控制方案。传统上，Pelton涡轮机偏转板被用作安全机构；然而，这项研究探索了它们在传统针头控制之外的连续频率调节的潜力。所提出的策略，包括基于偏转器的控制和混合控制（结合注入器和偏转器的作用），旨在解决传统方法的局限性。动态模型仿真结果表明，与传统的基于针的控制相比，系统性能和稳定性有了显著提高。特别是，混合控制策略实现了一个平衡的解决方案，最小化频率偏差，减少水损失，最大限度地提高可再生能源的整合。这些发现突出了先进的涡轮机控制在优化孤立电力系统运行和支持向可持续能源系统过渡方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Alternative Control Schemes of Pelton Turbines to Increase the Integration of Variable Renewable Energy Sources

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Alternative Control Schemes of Pelton Turbines to Increase the Integration of Variable Renewable Energy Sources

This paper proposes innovative control schemes for Pelton turbines to improve frequency regulation in isolated power systems with high penetration of variable renewable energy sources (vRESs). Traditionally, Pelton turbine deflectors are used as safety mechanisms; however, this study explores their potential for continuous frequency regulation, alongside the conventional needle control. The proposed strategies, including a deflector-based control and a mixed control (combining both injector as well as deflector actions), aim to address the limitations of traditional methods. The results obtained from dynamic model simulations demonstrate significant improvements in system performance and stability compared with the traditional needle-based control. In particular, the mixed control strategy achieves a balanced solution, minimizing frequency deviations, reducing water losses, and maximizing renewable energy integration. These findings highlight the potential of advanced turbine control to optimize the operation of isolated power systems and support the transition to sustainable energy systems.

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来源期刊

International Journal of Energy Research 工程技术-核科学技术

CiteScore

9.80

自引率

8.70%

发文量

1170

审稿时长

3.1 months

期刊介绍： The International Journal of Energy Research (IJER) is dedicated to providing a multidisciplinary, unique platform for researchers, scientists, engineers, technology developers, planners, and policy makers to present their research results and findings in a compelling manner on novel energy systems and applications. IJER covers the entire spectrum of energy from production to conversion, conservation, management, systems, technologies, etc. We encourage papers submissions aiming at better efficiency, cost improvements, more effective resource use, improved design and analysis, reduced environmental impact, and hence leading to better sustainability. IJER is concerned with the development and exploitation of both advanced traditional and new energy sources, systems, technologies and applications. Interdisciplinary subjects in the area of novel energy systems and applications are also encouraged. High-quality research papers are solicited in, but are not limited to, the following areas with innovative and novel contents: -Biofuels and alternatives -Carbon capturing and storage technologies -Clean coal technologies -Energy conversion, conservation and management -Energy storage -Energy systems -Hybrid/combined/integrated energy systems for multi-generation -Hydrogen energy and fuel cells -Hydrogen production technologies -Micro- and nano-energy systems and technologies -Nuclear energy -Renewable energies (e.g. geothermal, solar, wind, hydro, tidal, wave, biomass) -Smart energy system