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出版者:Chelsea Green Publishing Company

作者:Paul Gipe

出品人:

页数:0

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出版时间:1999-04

价格:USD 25.00

装帧:Paperback

isbn号码:9781890132071

丛书系列:

图书标签:

风能
可再生能源
能源工程
风力发电
能源技术
可持续发展
电力系统
环境工程
能源政策
风能基础

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具体描述

The wind power industry has been transformed in the 1990s by dramatic breakthroughs in efficiency, economy, and adaptability. Wind Energy Basics is the most up-to-date source available of information about small wind systems. The book includes the unique "standard small wind turbine rating" developed by the author, which is designed to help readers wade through conflicting performance claims by manufacturers in the U.S. and overseas. Also included is detailed information on planning, siting, and installing a wind system, and on integrating wind power with solar for more cost-effective and reliable off-the-grid applications.

In addition, Gipe provides a discussion of "net metering" and intertie possibilities, explaining how homeowners in many states can now sell their excess electricity back to the utility company.

Wind Energy Basics is an excellent introduction to wind power for educational programs concerned with state-of-the-art renewable energy options, and will be indispensable for those considering today's generation of quiet, efficient, and reliable "micro" wind turbines.

Wind Energy Basics describes a new class of small wind turbines, dubbed micro turbines, which are so small that they can be purchased for less than $1000 and carried in your hands.

The debut of micro wind turbines brings the technology within reach of almost everyone. These inexpensive machines, when coupled with readily available photovoltaic panels (solar cells), have revolutionized living in remote homes off-the-utility grid. And the increasing popularity of micro wind turbines has opened up new applications previously considered off-limits to wind energy, such as charging electric fences and powering remote telephone call boxes, once the sole domain of solar cells.

Micro wind turbines have been around for decades for use on sailboats, but they have gained increasing prominence in the 1990s as their broader potential for off-the-grid applications on land has become more widely known. While micro wind turbines have yet to reach the status of widely available consumer commodities such as personal computers, the day may not be far off. The use of wind power is "exploding," say Karen and Richard Perez in their foreword. "There are currently over 150,000 small-scale RE (renewable energy) systems in America and they are growing by 30% yearly. The small-scale use of wind power is growing at twice that amount--over 60% per year," according to the Perezes, the editors of Home Power magazine.

Southwest Windpower awakened latent consumer interest in micro wind turbines with the introduction of its sleek Air 303. Since launching the 300-watt turbine in 1995, Southwest Windpower has shipped 18,000 of the popular and inexpensive machines.

"What Americans, and folks all over the world, are finding out," the Perezes say, "is that wind power is an excellent and cost-effective alternative" to extending electric utility lines, and fossil-fueled backup generators.

Wind Energy Basics explains how it is possible—in some states—for homeowners to run their kilowatt-hour meter backwards with a small wind turbine.

This book confronts the common but controversial practice of "power rating" that may mislead consumers about the potential of some small wind turbines. Known for his frank style, Gipe quickly cuts through technological jargon and the hype surrounding power ratings.

"Nothing tells you more about a wind turbine's potential than rotor diameter—nothing. The wind turbine with the bigger rotor will almost invariably generate more electricity than a turbine with a smaller rotor, regardless of their generator ratings," he says.

Gipe also comes down hard on roof-top mounting. "Don't bother," he warns. "It's not worth the trouble." He also minces few words on mounting wind turbines in trees. "Sometimes wind energy isn't the right choice," Gipe says. "If you live in a forest of tall trees and you can't afford a tower tall enough to clear the trees, then wind energy isn't for you."

Worldwide, wind energy is booming. Not since the heyday of the American farm windmill has wind energy grown at such a dramatic pace. By the new millennium, more than 40,000 medium-size wind turbines will be in operation worldwide, mostly in California, Europe, and India. These commercial wind turbines, including those found in California's giant wind power plants, will produce 20 terawatt-hours (20,000 million kilowatt-hours) of wind-generated electricity annually—enough to meet the needs of more than three million energy-hungry Californians, or twice that number of more energy-conscious Europeans.

The commercial success of medium-size wind turbines, or wind farm machines, is only part of the story. Small wind turbines have found their role expanding as well. Whether it's on the contemporary homestead of Ed Wulf in California's Tehachapi Mountains, in the Chilean village of Puaucho overlooking the Pacific Ocean, or on the Scoraig peninsula of Scotland's wind-swept west coast, small wind turbines are making an important difference. While their contributions may be small in absolute terms, small wind turbines make a big difference in the daily lives of people in remote areas around the globe. Small wind turbines may produce only a few tens of kilowatt-hours per month, but this electricity goes much further and provides as much, if not more, value to those who depend upon it as does the generation of their bigger brethren.

Today there are more than 50 manufacturers of small wind turbines worldwide, and they produce more than 100 different models. Altogether manufacturers in western countries have built about 60,000 small wind turbines during the last two decades. And tens of thousands more have been manufactured in China for use by nomads on the Mongolian steppes.

Wind Energy Basics is richly illustrated with photographs of small wind turbines, from those on the Patagonian steppes at the tip of South America to those on the wind-swept shores of Denmark.

The book contains information on most major small wind turbines on the international market. It also provides photographs of common wind turbine applications, including their use for wind power plants, vacation homes, third world villages, farms, water pumping, and so on.

Engineers will like the "exploded views" of popular micro and mini wind turbines such as the Ampair 100, Southwest Windpower's Air 303, and Bergey Windpower's BWC 850 and BWC 1500.

The book also introduces the "griphoist" to American readers. This amazing tool, coupled with new lightweight wind turbine towers that have recently become available, has the potential to transform the installation of micro turbines. With the "griphoist", two people can safely raise a micro wind turbine on a specially designed tower without resorting to cumbersome electric winches.

The appendix to Wind Energy Basics includes detailed product specifications for most popular micro and mini wind turbines, as well as sources for wind pumps (farm windmills), used wind turbines, anemometers, inverters, trade associations, and mail-order catalogs that sell wind turbines.

好的，这是一份为您精心撰写的、不包含《Wind Energy Basics》内容的图书简介，旨在全面、深入地探讨其他相关或互补的能源主题。 --- 《能源转型前沿：可再生能源系统集成与电网韧性构建》书籍核心主题：本书聚焦于当前全球能源结构深度转型的关键挑战——如何高效、可靠地将间歇性的可再生能源大规模并入现有电网，并构建具备高度抵御外部冲击能力的现代化能源系统。它避开了对单一能源（如风能）基础原理的详述，转而深入探讨系统层面的集成、优化、控制与政策框架。导言：从能源生产到系统韧性全球能源格局正经历一场由气候变化和技术进步驱动的深刻变革。传统的、集中式的化石燃料发电模式正加速让位于去中心化、多元化的可再生能源（RES）系统。然而，这一转变带来的核心难题并非如何产生更多的太阳能或水力，而是如何管理这些能源的间歇性和波动性，并确保整个电力系统的稳定与安全。本书旨在成为理解和驾驭这一复杂集成过程的指南，面向能源工程师、政策制定者、电网运营商以及对未来能源架构感兴趣的研究人员。我们不再关注“如何建造一座风力发电机”或“太阳能电池板的物理学”，而是探讨“如何让数千个分布式电源协同工作，而不使电网崩溃”这一核心议题。第一部分：可再生能源系统的高度集成与优化本部分深入探讨了将间歇性电源（光伏、潮汐能、地热等）无缝集成到现有基础设施中的复杂工程挑战，强调了系统级的优化方法。第一章：多源异构能源系统的建模与仿真本章摒弃了对单一技术原理的描述，直接进入高级建模层面。重点探讨了如何构建包含不同时间尺度（从毫秒级的电力电子动态到数小时的负荷预测）的综合仿真模型。内容包括：状态空间模型在混合能源系统中的应用：针对包含储能、柔性负荷和间歇性电源的复杂网络，建立高阶状态空间模型以评估系统动态响应。实时数字孪生（Digital Twin）在电网规划中的应用：探讨如何利用孪生技术实时反映并预测不同可再生能源出力情景下的电网健康状况。不确定性量化（Uncertainty Quantification, UQ）：如何在模型中融入天气预报的误差、设备故障率等不确定性因素，进行鲁棒性分析。第二章：先进的能源存储技术及其在电网层面的作用本书中的储能章节，侧重于储能技术作为电网稳定器的角色，而非仅仅作为能量缓冲。长时储能（Long-Duration Energy Storage, LDES）技术评估：深入分析压缩空气储能（CAES）、液态空气储能（LAES）和新兴的氧化还原液流电池等技术，重点对比其在季节性平衡和数日级调峰中的经济性和技术可行性。电池储能系统的快速频率响应控制：探讨如何利用先进的电力电子接口，使电池系统能够执行比传统发电机更快的惯量和频率支持服务。热力学与电化学耦合储能：研究如何优化热能存储与电能存储之间的集成，以提高整体能源系统的效率和利用率。第三章：需求侧响应（DSR）与柔性负荷的激活本章强调，在可再生能源渗透率提高的背景下，电网的弹性不再仅依赖于供给侧的调峰，更依赖于需求侧的有效管理。基于强化学习（RL）的智能负荷聚合：介绍如何利用先进的控制算法，实时调度大量分布式可控负荷（如电动汽车充电、热泵运行时间）以匹配电网信号。虚拟电厂（VPP）的跨区域协调机制：讨论如何构建一个框架，使分散的分布式能源资源（DERs）和DSR资源能够作为一个统一的实体参与区域电力市场。第二部分：电网的数字化、控制与韧性构建随着分布式电源的增加，传统的中心化控制模式已无法应对快速变化的电网状态。本部分聚焦于实现“智能”和“强韧”电网所需的控制架构和网络安全技术。第四章：分布式能源接入下的先进配电网控制本章主要解决中低压配电网络中，高比例光伏和分布式储能接入带来的电压越限、功率潮流反向等问题。基于模型的预测控制（MPC）在配电网中的应用：详细阐述如何利用MPC技术，提前预测未来一段时间内的潮流变化，并提前优化变压器分接头（OLTC）和无功补偿设备。自组织（Self-Healing）电网架构：探讨如何设计故障隔离与自恢复算法，确保在局部故障发生时，其余健康区域能够快速重构拓扑结构，维持供电。无功功率的分布式管理：深入研究如何将无功补偿的责任从中心化变电站下放到各个分布式电源和智能逆变器。第五章：网络安全与电磁兼容性挑战可再生能源系统的广泛数字化和互联性带来了前所未有的网络安全风险。智能电表与SCADA系统的安全漏洞分析：针对能源物联网（IoT）的特定攻击面进行评估，包括中间人攻击、数据篡改和拒绝服务攻击。基于区块链的去中心化能源交易安全框架：探索利用分布式账本技术（DLT）来确保点对点（P2P）能源交易的透明度和不可篡改性。电磁兼容性（EMC）在直流微电网中的关键性：讨论高功率电力电子设备产生的谐波和电磁干扰对通信系统和敏感设备的影响及抑制措施。第六章：电力系统韧性与气候变化适应性规划本章从宏观战略层面探讨如何确保电力系统能够在极端天气事件（如超强飓风、长期热浪）中保持运行或快速恢复。 “强韧”与“效率”的权衡分析：建立量化模型，评估为提升韧性（如增加本地储能冗余、建立孤岛运行能力）而付出的经济成本与潜在的灾害损失减少效益之间的关系。能源系统的多层级冗余策略：讨论不同层级（从发电单元到通信网络）应采取的冗余备份方案，包括物理冗余和信息冗余。政策与监管框架对系统韧性的影响：分析激励措施（如“韧性优先”的电网投资标准）如何引导公用事业公司进行面向未来的基础设施升级。结语：迈向自主、可持续的未来电网本书的最终目标是提供一个全面的、系统层面的视角，超越单个可再生能源技术的细节，聚焦于如何构建一个智能、互联、高度集成且具有内在韧性的未来电力生态系统。这要求工程师、研究人员和政策制定者从传统的“发电-输电-配电”线性思维，转向动态、多尺度的网络化优化思维。 ---

作者简介

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阅读体验极其不连贯，这本书给我的感觉是，它似乎是在不同时间点由几位观点略有差异的专家拼凑而成的合集。章节之间的逻辑跳转非常生硬，前一章还在详细解析永磁同步发电机（PMSG）的优势，下一章就突然跳到了电网接入标准中关于谐波抑制的要求，中间缺少了必要的过渡和联系。我尤其希望能够更深入地了解风电场在环境影响评估（EIA）方面的最新实践，毕竟这是当前风电项目落地时最受关注的环节之一。然而，这部分内容蜻蜓点水，仅仅提到了“鸟类碰撞风险”和“噪音污染”这两个老生常谈的问题，却没有提供任何关于先进的缓解技术，比如雷达辅助关停系统或者更优化的场址布局算法。此外，关于海上风电（Offshore Wind）的章节也显得力不从心，仅仅用了不到二十页的篇幅概述了单桩和导管架基础的区别，对于漂浮式基础（Floating Foundations）这种代表未来趋势的技术，却几乎没有着墨。这本书显然在内容的新鲜度和全面性上有所欠缺，停留在多年前的基础概念阐述阶段，对于关注行业前沿动态的读者来说，缺乏足够的吸引力。

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从排版和视觉呈现的角度来看，这本书的设计简直是一场灾难，这直接影响了我理解复杂概念的效率。图表的质量非常低劣，许多关键的示意图，特别是关于变桨系统（Pitch Control）和偏航系统（Yaw Control）的内部结构图，分辨率模糊不清，线条重叠，使得我不得不反复对照文字描述来猜测图示的含义。更令人恼火的是，书中引用的数据和案例似乎没有经过统一的更新。比如，在讨论风电成本效益分析时，引用的度电成本（LCOE）数据停留在十年前的水平，这与当前全球范围内风电成本的急剧下降趋势完全脱节，这让读者很难相信书中所提供模型的有效性。我期待一本“基础”读物能提供现代化的工具和视角，比如如何利用云计算和大数据来进行风资源预测和设备健康监测（PHM），但这本书对此领域的介绍，停留在对传统SCADA系统的简单描述上，完全没有触及工业4.0在风电运维中的应用。它更像是一份被遗忘在图书馆角落里的陈旧讲义。

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这本书在探讨风能的社会经济影响方面显得尤为保守和片面。它将风能描述成一个纯粹的技术和工程问题，完全忽略了风电项目开发中涉及的复杂利益相关者博弈。例如，在涉及到土地使用权和社区参与的章节，作者仅仅是简单地罗列了需要获得地方政府许可的法律程序，却没有深入分析如何构建一个公平的收益分享机制来激励当地社区接受风电场的建设。我原以为一本探讨“基础”的书会包含足够的政策分析框架，帮助读者理解不同国家（比如德国的上网电价政策与中国的“双十条”政策）在推动风电发展上的政策差异及其背后的逻辑。然而，书中关于政策的部分几乎是真空状态，仿佛风电的发展是脱离了政治和经济环境的纯粹技术演进。这种“技术至上论”的视角，使得这本书在培养具有批判性思维和跨学科视野的行业人才方面，显得力不从心，读完之后，对于如何推动风电的实际落地，我依然感到迷茫。

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这本《Wind Energy Basics》的作者似乎对可再生能源领域抱有一种近乎虔诚的热情，但这种热情在实际的文本组织上却显得有些零散。我花了好一番功夫才拼凑出一些关于风力发电核心原理的图像。书中花了大量的篇幅去描述不同类型风力发电机叶片的空气动力学特性，这部分内容无疑是技术性很强的，对于已经有些基础的工程师来说或许能找到一些共鸣点。然而，对于我这样一个希望快速建立全局观的入门者来说，这些复杂的公式和图表堆砌在一起，让人感觉像是在攀登一座陡峭且缺乏清晰路径的数学山脉。比如，关于如何精确计算风速梯度对轮毂高度处功率输出的影响那一章，作者给出了三种不同的计算模型，每种模型都有其适用的边界条件，但书里并没有用清晰的案例研究来展示在实际工程项目中，设计人员是如何在这些模型之间进行权衡和选择的。我更期待的是能看到一个从选址到并网的流程图，而不是被淹没在关于范德西尔（Von Kármán）涡街理论的深奥讨论中。总而言之，它更像是一本供专业人士查阅特定技术参数的参考手册，而不是一本能有效引导新人进入风能世界的“基础”读物。

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尽管这本书的标题是《Wind Energy Basics》，但它对于“基础”的理解似乎过于侧重于机械和电气工程的基础知识，而对风能作为一种能源系统的集成性关注不足。例如，在讨论电能质量和电网稳定性时，作者只是泛泛而谈了功率因数校正的重要性，却完全没有涉及现代高比例风电并网对输电网络动态稳定性的深层挑战，比如惯量支撑的缺失以及如何通过虚拟同步机（VSM）等先进控制技术来弥补这些不足。我真正想了解的是，当一个地区的风电渗透率达到40%以上时，电网运营商面临的实际调度难题和解决方案是什么。这本书在这些关键的系统集成问题上留下了巨大的信息真空。此外，对于储能技术（特别是长时储能）与风电耦合的未来潜力，书中也几乎没有提及，仿佛风电的命运完全不依赖于如何解决其固有的间歇性问题。总而言之，这本书提供了一堆分散的、静态的技术部件知识，但未能将它们编织成一个关于现代、动态、集成化风能系统的完整图景。

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