大规模新能源发电基地出力特性研究

基于规模化新能源出力带来的各种问题，建立风光三大评价指标，并采用多时空场景划分的方式进行基地出力特性分析；建立新能源基地三维出力模型，并应用于规模化新能源出力预测领域。研究发现，基地能源中，风电-光伏存在明显的互补性。在现有外送能力有限的情况下，大幅提高光伏基地上网比例，可从电源侧缓解“弃风弃光”问题。基于大量数据分析得到的新能源基地三维出力模型与气象数据结合，可对基地出力进行一段时间的预测，为区域电网新能源调度提供可靠参考。

沙角发电基地取排水口工程布置浅析

结合沙角发电A ,B ,C厂工程实例 ,介绍了利用感潮水域冷却的火力发电厂取排水口布置的设计运行情况 ,并对分列式取排水口与差位式取排水口布置型式的优劣进行了分析比较。实践证明 ,B ,C厂差位式布置是比较成功的。最后 ,针对A厂取水温升较高的问题 ,提出了改造方案。

宁夏将成中国最重要的风力发电基地

安装在贺兰山东麓的24台大型风力发电机日夜不停的转动着它们的头部，以期在宁夏能源工业的布局中为自己争得一席之地。

加快我国煤矸石发电基地建设的政策建议

文章分析了提高我国煤矸石综合利用水平的重要意义,论证了发电是煤矸石综合利用的重要途径,提出要加快推进我国煤矸石发电基地的建设,并提出了相关的政策建议。

支撑新能源基地电力外送的电源组合优化配置策略研究

新能源基地化开发和电力外送是实现能源电力清洁低碳转型的重要途径。新能源发电间歇性和波动性以及有限的输电走廊资源要求基地配置调节电源以提高新能源电力外送工程的可靠性和源网利用率。提出了基于广域长期历史气象数据,采用时序生产模拟电源扩展优化模型,进行不同送电方案下调节电源与新能源装机优化组合策略的研究方法。以内蒙古沙漠地区新能源基地为例的研究表明,电化学储能为代表的无源型调节电源应配置为外送通道容量的35%左右,从而实现合理的通道利用率和基地发输电经济性;配置有源型调节电源,可实现更高的外送通道利用率。以送电曲线为研究对象,进一步分析了按照新能源出力特性和考虑受端用电月特性送电两种情景下的调节电源需求变化,提出了新能源多基地联合开发、配置可季节性调整的绿电载能产业等解决思路。

应用沸腾燃烧技术建设茂名油页岩发电基地

本文从规划和设计的角度,对应用循环流化床技术开发茂名油页岩发电基地进行了探讨和设想。

校企共同体模式下风力发电实训基地的改造与升级

根据《国家职业教育改革实施方案》的要求,要提高实训基地规划、管理水平,为社会公众、职业院校在校生取得职业技能等级证书和企业提升人力资源水平提供有力支撑。以湖南电气职业技术学院风力发电实训基地为案例,校企深度合作对风力发电实训基地进行宏观和微观相结合的研究,分析影响实训教学的内部和外部因素,探讨新形势下实训基地的改造与升级策略。

内蒙古“风/光/水/火/储/氢一体化能源基地”专题研讨会

在全球应对气候变化和新冠疫情后推动绿色复苏的大格局下,加快发展可再生能源已经成为各国的普遍共识和一致行动。结合国家《“十四五”可再生能源发展规划》“坚持生态优先、因地制宜、多元融合发展,在“三北”地区优化推动风电和光伏发电基地化规模化开发”的精神,中国可再生能源学会综合系统专业委员会将于2022年7月29日一-8月1日召开内蒙古“风/光/水/火/储/氢体化能源基地”专题研讨会。诚邀可再生能源综合系统领域内各单位及相关专家出席本次会议。

云南省光伏产业发展“加速度”

云南是绿色能源大省,全年光照充沛,是全国太阳能资源最丰富的省份之一,拥有发展光伏产业的巨大优势,在全省129个县(区、市)中,有59个为较好开发价值的区域,待开发光伏发电装机约7900万千瓦。近年来云南省加大新能源布局,已规划建设“8+3”11个光伏发电基地,“保供给促投资”44个光伏发电基地,金沙江下游基地首批270万千瓦第一期项目100万千瓦。

兆瓦级宽频带阻抗测量装置设计及其控制方法

为了测量新能源发电基地内大型光伏、风力等新能源发电装备的频域阻抗特性,提出了一种兆瓦级宽频带阻抗测量装置设计及其控制方法,该测量装置可接入35kV待测新能源并网发电系统,测量频宽为10Hz～1kHz。首先分析了阻抗测量的基本原理并推导了待测系统在dq坐标系下的阻抗矩阵计算公式;然后介绍了所提阻抗测量装置的总体设计方案,并重点分析了电压扰动注入单元各部分的设计,包括功率子模块设计、LC输出滤波器设计和耦合变压器设计;电压扰动注入单元采用多功率子模块级联的结构,各功率子模块由三相不可控制整流、高频隔离DC/DC变换器和单相H桥模块先后串联构成;根据兆瓦级宽频带阻抗测量装置高压大容量和宽频带输出的要求,针对电压扰动注入单元提出了一种级联H桥模块调制比固定,通过实时调整高频隔离DC/DC变换器的输出电压来控制扰动注入单元输出电压幅值的控制方法,该方法输出电压畸变率低且控制简单可靠。最后,Psim仿真验证了所提阻抗测量装置设计和控制方法的有效性。

抽水蓄能电站对海西地区光伏接纳能力的影响研究

青海属于太阳能资源和水能资源均较为丰富的省份,但水电主要分布在青海东部地区,光伏电站开发主要集中在海西和海南地区,这种分布不均造成海西地区严重缺乏调峰电源,通道能力不能满足送出需求,柴达木盆地太阳能资源开发受到一定程度限制。以海西地区光伏电站实际出力数据为基础,首先研究了海西地区建设抽蓄电站对提高光伏接纳能力的分析方法,同时分析了海西建设抽蓄电站对青海全网的调峰能力的影响。研究结果表明,海西地区建设1 200 MW抽蓄电站,可以提高当地光伏接纳能力约2 000 MW。

关于克拉玛依城市转型发展问题的新思考

通过对克拉玛依城市转型发展问题认识的深化和完善过程的研讨,结合第三次工业革命的发生背景、核心内容和发展趋势的讨论,联系我国对新能源革命的布局和政策支持,提出了在克拉玛依建设光伏发电基地的建议。

不毛之地将成“绿电”热土

近日,国家能源局把以沙漠、戈壁、荒漠地区为重点的大型风电光伏基地的建设作为“十四五”新能源发展的重中之重,全力推动以上述地区为重点的大型风光电基地建设。在西安隆基清洁能源有限公司(以下简称隆基清洁能源)副总经理李壮东看来,加快推进以沙漠、戈壁、荒漠为重点,建设大型风电、光伏发电基地项目,不仅能够推动风电光伏大规模、高水平发展,还能为经济社会发展提供稳定优质的绿色电力支撑,推动我国能源绿色低碳转型。

云南绿色低碳循环发展经济体系:发展电化学储能项目 推进“风光储充放”一体化发展

1月13日,云南省人民政府发布云南省加快建立健全绿色低破循环发展经济体系行动计划的通知,计划中提出继续做大做强清洁可再生能源发电装机规模,促进源网荷储一体化协调发展。加快推进在适宜地区适度开发风电、光伏发电基地建设。

Strong ground movement induced by mining activities and its effect on power transmission structures

Surface mining activities may introduce damages to nearby infrastructure. Concerns are put forward by the power company about structural integrity of electric power transmission structures in areas where coal mining activities cause strong ground vibrations. Common practice in the power industry is to limit ground motion by specifying maximum Peak Particle Velocity. So far, there is a lack of industry-wide recognized guidelines on how ground vibration limits should be set for the transmission structures. In order to develop a defense strategy to protect power transmission lines against strong ground motions in mining areas, a systematic research work was conducted to establish strong ground vibration characteristics and to study impacts of ground excitations on transmission pole structures. Ground movements were recorded using geophones and wireless tri-axial sensing units. The process of generating ground motion response spectra via analyzing actual ground motion measurements is described in the paper. These spectra developed based on peak particle velocities were used as a basis for spectral analysis performed using validated Finite Element models to obtain structural displacements, reactions and stress states of the transmission pole structures in the mining sites. A quantitative ground motion limit was established by comparing structural responses with the corresponding design requirements.

Tunnelling through weak and fragile rocks of Himalayas

A considerable amount of tunnelling has been going on in India for various projects such as hydroelectric power, irrigation, roads and railways. Most of these projects are located in Himalayas, far away from the urban areas. Tunnelling through weak and jointed rock masses such as the one in the Himalayas is a challenging task for the planners, designers, engineers and geologists because of high overburden, thickly vegetated surface, weak, poor and fragile rocks and highly varying geology with the presence of numerous small and big shear zones, faults, etc. Due to these reasons, various tunnelling problems have been faced in the past and are still being encountered. Failures and the problems may be regarded as challenges and opportunities for generating new knowledge base and thereby increasing self-reliance in tunnelling. The experiences of Himalayan tunnelling through weak and fragile rocks covering varying and mixed geology, understanding on tunnelling in squeezing ground conditions and applicability of TBM in Himalayas are presented. It has also been highlighted that the probe holes planning, drilling and monitoring shall be followed seriously to reduce the geological surprises.

Seismic Centrifuge Modelling of Offshore Wind Turbine with Tripod Foundation

The development of offshore wind energy is fast as it is clean, safe and of high efficiency. The harsh marine environment raises high demand on the foundation design of offshore wind turbine. Earthquake loading is one of the most significant factors which should be considered in the design phase. In this paper, a group of earthquake centrifuge tests were conducted on a physical wind turbine model with tripod foundation. The seismic responses of both wind turbine model and foundation soil were analyzed in terms of the recorded accelerations, pore water pressures, lateral displacements and settlements. The results were also compared with those measured in the previous research on mono-pile foundation. It is demonstrated that the tripod foundation can provide better resistance in the lateral displacement and structural settlement under earthquake loading.

Effects of Large-Scale Wind Energy Base on Power Grid Company

The first stage project of Jiuquan wind energy base with 5.5-GW installed capacity is about to be completed. However, there exist several technical issues such as power transfer capability, electricity accommodation, frequency control and peak load regulation as well as system stability. In addition, the high capital cost and operation cost of the supporting transmission project invested and constructed by the Gansu Provincial Power Company will definitely have significant impacts on the management and economic profit of the Company. Through analysis of the construction and operation cost changes resulting from the wind power collection and delivery project, the author carried out research into the effects of developing large-scale wind power base on the management and economic benefits of power grid enterprises and proposed corresponding suggestions to make the related policies perfect.

大力建设“沙戈荒”风光基地——访全球能源互联网发展合作组织经济技术研究院院长助理肖晋宇

近年来,国家相关部门多次印发相关文件,旨在加快推进以沙漠、戈壁、荒漠(以下简称“沙戈荒”)为重点的大型风电、光伏发电基地建设。沙戈荒风光基地建设对我国能源转型有何意义,如何保障其有序开展?就此,本刊记者采访了全球能源互联网发展合作组织经济技术研究院(以下简称“合作组织研究院”)院长助理肖晋宇。

守望荒山,打造生物多样性农场

每天清晨,李云都会站在山东省泰安市化马湾乡“石家岭生物多样性农场”的最高处,听着远处传来的雄鸡报晓声,脸上露出欣慰的笑容……做绿色农业,一直是李云的梦想。“我原来在企业做工程,2014年在为企业寻找光伏发电基地时,偶然发现了这片山岭。”李云一边介绍,一边翻出手机里的山岭照片,“这片山岭已经荒了十几年,土壤一定是天然、无公害的,搞绿色农业最合适。”